GenomeRNAi - a database for RNAi phenotypes and reagents

Phenotype information for gene 1540 (CYLD)

Screen TitleGene IDGene SymbolReagent IDScorePhenotypeComment
Proliferation of cells with active beta-catenin (2)
CYLD
-2.53
Decreased viability

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-2
Screen Title: Proliferation of cells with active beta-catenin (2)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-231
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Proliferation of cells with active beta-catenin (2)
CYLD
1.16
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-2
Screen Title: Proliferation of cells with active beta-catenin (2)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-231
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Proliferation of cells with active beta-catenin (1)
CYLD
0.06
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-1
Screen Title: Proliferation of cells with active beta-catenin (1)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MCF7
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Non-small cell lung cancer (NSCLC) cytotoxicity (1)
CYLD
np
-1
Decreased shRNA abundance

Reference

Proteasome inhibitors block DNA repair and radiosensitize non-small cell lung cancer. Cron et al., 2013

Despite optimal radiation therapy (RT), chemotherapy and/or surgery, a majority of patients with locally advanced non-small cell lung cancer (NSCLC) fail treatment. To identify novel gene targets for improved tumor control, we performed whole genome RNAi screens to identify knockdowns that most reproducibly increase NSCLC cytotoxicity. These screens identified several proteasome subunits among top hits, including the topmost hit PSMA1, a component of the core 20 S proteasome. Radiation and proteasome inhibition showed synergistic effects. Proteasome inhibition resulted in an 80-90% decrease in homologous recombination (HR), a 50% decrease in expression of NF-κB-inducible HR genes BRCA1 and FANCD2, and a reduction of BRCA1, FANCD2 and RAD51 ionizing radiation-induced foci. IκBα RNAi knockdown rescued NSCLC radioresistance. Irradiation of mice with NCI-H460 xenografts after inducible PSMA1 shRNA knockdown markedly increased murine survival compared to either treatment alone. Proteasome inhibition is a promising strategy for NSCLC radiosensitization via inhibition of NF-κB-mediated expression of Fanconi Anemia/HR DNA repair genes.

Screen Details

Stable ID: GR00251-A-1
Screen Title: Non-small cell lung cancer (NSCLC) cytotoxicity (1)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: A549
Library: Hannon-Elledge whole genome pooled shRNA, np
Reagent Type: shRNA
Score Type: Complex, sp
Cutoff: Complex criteria
Notes: All listed genes are final hits. Final hit: >= 1 shRNA with >= 2-fold abundance decrease in both cell lines (A549 and NCI-H460)

Homologous recombination DNA double-strand break repair (HR-DSBR) (1)
ENSG00000083799
CYLD
np
-1.08
none

Reference

A genome-scale DNA repair RNAi screen identifies SPG48 as a novel gene associated with hereditary spastic paraplegia. Słabicki et al., 2010

DNA repair is essential to maintain genome integrity, and genes with roles in DNA repair are frequently mutated in a variety of human diseases. Repair via homologous recombination typically restores the original DNA sequence without introducing mutations, and a number of genes that are required for homologous recombination DNA double-strand break repair (HR-DSBR) have been identified. However, a systematic analysis of this important DNA repair pathway in mammalian cells has not been reported. Here, we describe a genome-scale endoribonuclease-prepared short interfering RNA (esiRNA) screen for genes involved in DNA double strand break repair. We report 61 genes that influenced the frequency of HR-DSBR and characterize in detail one of the genes that decreased the frequency of HR-DSBR. We show that the gene KIAA0415 encodes a putative helicase that interacts with SPG11 and SPG15, two proteins mutated in hereditary spastic paraplegia (HSP). We identify mutations in HSP patients, discovering KIAA0415/SPG48 as a novel HSP-associated gene, and show that a KIAA0415/SPG48 mutant cell line is more sensitive to DNA damaging drugs. We present the first genome-scale survey of HR-DSBR in mammalian cells providing a dataset that should accelerate the discovery of novel genes with roles in DNA repair and associated medical conditions. The discovery that proteins forming a novel protein complex are required for efficient HR-DSBR and are mutated in patients suffering from HSP suggests a link between HSP and DNA repair.

Screen Details

Stable ID: GR00151-A-1
Screen Title: Homologous recombination DNA double-strand break repair (HR-DSBR) (1)
Assay: (HR-DSBR) DR-GFP reporter
Method: Flow cytometry
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Custom-made, Custom-made
Reagent Type: esiRNA
Score Type: Z-score
Cutoff: < -2 OR > 2
Notes:

TP53 interactions (1)
ENSG00000083799
np
sp
none

Reference

A systematic RNAi synthetic interaction screen reveals a link between p53 and snoRNP assembly. Krastev et al., 2011

TP53 (tumour protein 53) is one of the most frequently mutated genes in human cancer and its role during cellular transformation has been studied extensively. However, the homeostatic functions of p53 are less well understood. Here, we explore the molecular dependency network of TP53 through an RNAi-mediated synthetic interaction screen employing two HCT116 isogenic cell lines and a genome-scale endoribonuclease-prepared short interfering RNA library. We identify a variety of TP53 synthetic interactions unmasking the complex connections of p53 to cellular physiology and growth control. Molecular dissection of the TP53 synthetic interaction with UNRIP indicates an enhanced dependency of TP53-negative cells on small nucleolar ribonucleoprotein (snoRNP) assembly. This dependency is mediated by the snoRNP chaperone gene NOLC1 (also known as NOPP140), which we identify as a physiological p53 target gene. This unanticipated function of TP53 in snoRNP assembly highlights the potential of RNAi-mediated synthetic interaction screens to dissect molecular pathways of tumour suppressor genes.

Screen Details

Stable ID: GR00196-A-1
Screen Title: TP53 interactions (1)
Assay: TP53 protein expression and viability
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HCT116 ( wildtype and TP53 knockout)
Library: Custom-made, rp
Reagent Type: esiRNA
Score Type: Complex, sp
Cutoff: Complex criteria
Notes:

Melanogenesis
NM_015247
CYLD
np
1.11
none

Reference

Genome-wide siRNA-based functional genomics of pigmentation identifies novel genes and pathways that impact melanogenesis in human cells. Ganesan et al., 2008

Melanin protects the skin and eyes from the harmful effects of UV irradiation, protects neural cells from toxic insults, and is required for sound conduction in the inner ear. Aberrant regulation of melanogenesis underlies skin disorders (melasma and vitiligo), neurologic disorders (Parkinson''s disease), auditory disorders (Waardenburg''s syndrome), and opthalmologic disorders (age related macular degeneration). Much of the core synthetic machinery driving melanin production has been identified; however, the spectrum of gene products participating in melanogenesis in different physiological niches is poorly understood. Functional genomics based on RNA-mediated interference (RNAi) provides the opportunity to derive unbiased comprehensive collections of pharmaceutically tractable single gene targets supporting melanin production. In this study, we have combined a high-throughput, cell-based, one-well/one-gene screening platform with a genome-wide arrayed synthetic library of chemically synthesized, small interfering RNAs to identify novel biological pathways that govern melanin biogenesis in human melanocytes. Ninety-two novel genes that support pigment production were identified with a low false discovery rate. Secondary validation and preliminary mechanistic studies identified a large panel of targets that converge on tyrosinase expression and stability. Small molecule inhibition of a family of gene products in this class was sufficient to impair chronic tyrosinase expression in pigmented melanoma cells and UV-induced tyrosinase expression in primary melanocytes. Isolation of molecular machinery known to support autophagosome biosynthesis from this screen, together with in vitro and in vivo validation, exposed a close functional relationship between melanogenesis and autophagy. In summary, these studies illustrate the power of RNAi-based functional genomics to identify novel genes, pathways, and pharmacologic agents that impact a biological phenotype and operate outside of preconceived mechanistic relationships.

Screen Details

Stable ID: GR00056-A
Screen Title: Melanogenesis
Assay: Melanin protein expression and viability
Method: Absorbance and luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MNT-1
Library: Dharmacon, rp
Reagent Type: siRNA
Score Type: Normalized absorbance ratio
Cutoff: > 2 standard deviations below mean
Notes: Additional information about a secondary screen (retest to determine false-positive rate)

Release from monastrol-induced mitotic arrest
NM_015247
CYLD
np
0.06
none

Reference

UBE2S elongates ubiquitin chains on APC/C substrates to promote mitotic exit. Garnett et al., 2009

The anaphase-promoting complex (APC/C), a ubiquitin ligase, is the target of the spindle-assembly checkpoint (SAC), and it ubiquitylates protein substrates whose degradation regulates progress through mitosis. The identity of the ubiquitin-conjugating (E2) enzymes that work with the APC/C is unclear. In an RNA interference (RNAi) screen for factors that modify release from drug-induced SAC activation, we identified the E2 enzyme UBE2S as an APC/C auxiliary factor that promotes mitotic exit. UBE2S is dispensable in a normal mitosis, but its depletion prolongs drug-induced mitotic arrest and suppresses mitotic slippage. In vitro, UBE2S elongates ubiquitin chains initiated by the E2 enzymes UBCH10 and UBCH5, enhancing the degradation of APC/C substrates by the proteasome. Indeed, following release from SAC-induced mitotic arrest, UBE2S-depleted cells neither degrade crucial APC/C substrates, nor silence this checkpoint, whereas bypassing the SAC through BUBR1 depletion or Aurora-B inhibition negates the requirement for UBE2S. Thus, UBE2S functions with the APC/C in a two-step mechanism to control substrate ubiquitylation that is essential for mitotic exit after prolonged SAC activation, providing a new model for APC/C function in human cells.

Screen Details

Stable ID: GR00188-A
Screen Title: Release from monastrol-induced mitotic arrest
Assay: Histone H3 serine 10 phosphorylation
Method: Fluorescence
Scope: Ubiquitin-proteasome system genes
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: Cal51
Library: Dharmacon, Ubiquitin-proteasome system siRNA library
Reagent Type: siRNA
Score Type: ΔMI standard score
Cutoff: > 2 AND p < 0.01
Notes:

Human papillomavirus oncogene expression regulation (1)
1540
CYLD
-0.33
none

Reference

Genome-wide siRNA screen identifies SMCX, EP400, and Brd4 as E2-dependent regulators of human papillomavirus oncogene expression. Smith et al., 2010

An essential step in the pathogenesis of human papillomavirus (HPV)-associated cancers is the dysregulated expression of the viral oncogenes. The papillomavirus E2 protein can silence the long control region (LCR) promoter that controls viral E6 and E7 oncogene expression. The mechanisms by which E2 represses oncogene expression and the cellular factors through which E2 mediates this silencing are largely unknown. We conducted an unbiased, genome-wide siRNA screen and series of secondary screens that identified 96 cellular genes that contribute to the repression of the HPV LCR. In addition to confirming a role for the E2-binding bromodomain protein Brd4 in E2-mediated silencing, we identified a number of genes that have not previously been implicated in E2 repression, including the demethylase JARID1C/SMCX as well as EP400, a component of the NuA4/TIP60 histone acetyltransferase complex. Each of these genes contributes independently and additively to E2-mediated silencing, indicating that E2 functions through several distinct cellular complexes to repress E6 and E7 expression.

Screen Details

Stable ID: GR00197-A-1
Screen Title: Human papillomavirus oncogene expression regulation (1)
Assay: HPV18 LCR reporter activity
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: C33A/BE2/18LCR c4
Library: Dharmacon, Human siGENOME SMARTpool library
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 2
Notes: Author-submitted data. Phenotype strength according to Z-scores: weak: 2 - 3; moderate: 3 - 5; strong: > 5

Combinatorial effect with paclitaxel
NM_015247
CYLD
np
0.96
none

Reference

Synthetic lethal screen identification of chemosensitizer loci in cancer cells. Whitehurst et al., 2007

Abundant evidence suggests that a unifying principle governing the molecular pathology of cancer is the co-dependent aberrant regulation of core machinery driving proliferation and suppressing apoptosis. Anomalous proteins engaged in support of this tumorigenic regulatory environment most probably represent optimal intervention targets in a heterogeneous population of cancer cells. The advent of RNA-mediated interference (RNAi)-based functional genomics provides the opportunity to derive unbiased comprehensive collections of validated gene targets supporting critical biological systems outside the framework of preconceived notions of mechanistic relationships. We have combined a high-throughput cell-based one-well/one-gene screening platform with a genome-wide synthetic library of chemically synthesized small interfering RNAs for systematic interrogation of the molecular underpinnings of cancer cell chemoresponsiveness. NCI-H1155, a human non-small-cell lung cancer line, was employed in a paclitaxel-dependent synthetic lethal screen designed to identify gene targets that specifically reduce cell viability in the presence of otherwise sublethal concentrations of paclitaxel. Using a stringent objective statistical algorithm to reduce false discovery rates below 5%, we isolated a panel of 87 genes that represent major focal points of the autonomous response of cancer cells to the abrogation of microtubule dynamics. Here we show that several of these targets sensitize lung cancer cells to paclitaxel concentrations 1,000-fold lower than otherwise required for a significant response, and we identify mechanistic relationships between cancer-associated aberrant gene expression programmes and the basic cellular machinery required for robust mitotic progression.

Screen Details

Stable ID: GR00054-A
Screen Title: Combinatorial effect with paclitaxel
Assay: Viability (synthetic lethal)
Method: ATP level
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: NCI-H1155
Library: Dharmacon, # G-005000-01
Reagent Type: siRNA
Score Type: Paclitaxel/control ratio
Cutoff: Complex criteria
Notes: Additional information about 87 high-confidence hits

Cell division (1)
ENSG00000083799
CYLD
ENSG00000083799
sp
none

Reference

Genome-scale RNAi profiling of cell division in human tissue culture cells. Kittler et al., 2007

Cell division is fundamental for all organisms. Here we report a genome-scale RNA-mediated interference screen in HeLa cells designed to identify human genes that are important for cell division. We have used a library of endoribonuclease-prepared short interfering RNAs for gene silencing and have used DNA content analysis to identify genes that induced cell cycle arrest or altered ploidy on silencing. Validation and secondary assays were performed to generate a nine-parameter loss-of-function phenoprint for each of the genes. These phenotypic signatures allowed the assignment of genes to specific functional classes by combining hierarchical clustering, cross-species analysis and proteomic data mining. We highlight the richness of our dataset by ascribing novel functions to genes in mitosis and cytokinesis. In particular, we identify two evolutionarily conserved transcriptional regulatory networks that govern cytokinesis. Our work provides an experimental framework from which the systematic analysis of novel genes necessary for cell division in human cells can begin.

Screen Details

Stable ID: GR00098-A-1
Screen Title: Cell division (1)
Assay: Cell number and DNA content
Method: Laser scanning cytometry
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Custom-made, rp
Reagent Type: esiRNA
Score Type: Complex, sp
Cutoff: Complex criteria
Notes:

Negative genetic interactions (2)
1540
CYLD
-0.39
none

Reference

A negative genetic interaction map in isogenic cancer cell lines reveals cancer cell vulnerabilities. Vizeacoumar et al., 2013

Improved efforts are necessary to define the functional product of cancer mutations currently being revealed through large-scale sequencing efforts. Using genome-scale pooled shRNA screening technology, we mapped negative genetic interactions across a set of isogenic cancer cell lines and confirmed hundreds of these interactions in orthogonal co-culture competition assays to generate a high-confidence genetic interaction network of differentially essential or differential essentiality (DiE) genes. The network uncovered examples of conserved genetic interactions, densely connected functional modules derived from comparative genomics with model systems data, functions for uncharacterized genes in the human genome and targetable vulnerabilities. Finally, we demonstrate a general applicability of DiE gene signatures in determining genetic dependencies of other non-isogenic cancer cell lines. For example, the PTEN(-/-) DiE genes reveal a signature that can preferentially classify PTEN-dependent genotypes across a series of non-isogenic cell lines derived from the breast, pancreas and ovarian cancers. Our reference network suggests that many cancer vulnerabilities remain to be discovered through systematic derivation of a network of differentially essential genes in an isogenic cancer cell model.

Screen Details

Stable ID: GR00255-A-2
Screen Title: Negative genetic interactions (2)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HCT116
Library: TRC lentiviral library, np
Reagent Type: shRNA
Score Type: differential Gene Activity Ranking Profile (dGARP)
Cutoff: < -1.0
Notes: HCT116 MUS81-/- and HCT116 MUS81+/+ cells used. Cutoff corresponds to p-value < 0.05. Additional information about a secondary screen (genetic interactions with Cetuximab/Erbitux in LIM1215 cells)

Vaccinia virus (VACV) infection
1540
CYLD
1.54
Increased vaccinia virus (VACV) infection number of cells compared to control (%): 86.37

Reference

Human genome-wide RNAi screen reveals a role for nuclear pore proteins in poxvirus morphogenesis. Sivan et al., 2013

Poxviruses are considered less dependent on host functions than other DNA viruses because of their cytoplasmic site of replication and large genomes, which encode enzymes for DNA and mRNA synthesis. Nevertheless, RNAi screens with two independent human genome-scale libraries have identified more than 500 candidate genes that significantly inhibited and a similar number that enhanced replication and spread of infectious vaccinia virus (VACV). Translational, ubiquitin-proteosome, and endoplasmic reticulum-to-Golgi transport functions, known to be important for VACV, were enriched in the siRNA-inhibiting group, and RNA polymerase II and associated functions were enriched in the siRNA-enhancing group. Additional findings, notably the inhibition of VACV spread by siRNAs to several nuclear pore genes, were unanticipated. Knockdown of nucleoporin 62 strongly inhibited viral morphogenesis, with only a modest effect on viral gene expression, recapitulating and providing insight into previous studies with enucleated cells.

Screen Details

Stable ID: GR00249-S
Screen Title: Vaccinia virus (VACV) infection
Assay: Vaccinia virus VACV IHD-J/GFP protein expression and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Ambion and Dharmacon, Silencer Select Version 4, siGENOME SMARTpool and OnTargetPlus
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 1 OR <= -1.5
Notes: Author-submitted data. Primary screen. Decreased viability phenotype if number of cells compared to control < 50 %.

hepcidin regulation
NM_015247
CYLD
np
-0.54
none

Reference

Unbiased RNAi screen for hepcidin regulators links hepcidin suppression to proliferative Ras/RAF and nutrient-dependent mTOR signaling. Mleczko-Sanecka et al., 2014

The hepatic hormone hepcidin is a key regulator of systemic iron metabolism. Its expression is largely regulated by 2 signaling pathways: the "iron-regulated" bone morphogenetic protein (BMP) and the inflammatory JAK-STAT pathways. To obtain broader insights into cellular processes that modulate hepcidin transcription and to provide a resource to identify novel genetic modifiers of systemic iron homeostasis, we designed an RNA interference (RNAi) screen that monitors hepcidin promoter activity after the knockdown of 19 599 genes in hepatocarcinoma cells. Interestingly, many of the putative hepcidin activators play roles in signal transduction, inflammation, or transcription, and affect hepcidin transcription through BMP-responsive elements. Furthermore, our work sheds light on new components of the transcriptional machinery that maintain steady-state levels of hepcidin expression and its responses to the BMP- and interleukin-6-triggered signals. Notably, we discover hepcidin suppression mediated via components of Ras/RAF MAPK and mTOR signaling, linking hepcidin transcriptional control to the pathways that respond to mitogen stimulation and nutrient status. Thus using a combination of RNAi screening, reverse phase protein arrays, and small molecules testing, we identify links between the control of systemic iron homeostasis and critical liver processes such as regeneration, response to injury, carcinogenesis, and nutrient metabolism.

Screen Details

Stable ID: GR00253-A
Screen Title: hepcidin regulation
Assay: hepcidin::fluc mRNA expression
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: Huh7
Library: ThermoFisher, siGenome siARRAY SMARTpool
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 1.755 OR <= -1.389
Notes: Cutoff <= -1.389 defined based on hepcidin promotor activity. Additional information about secondary siRNA screens.

Salmonella enterica subspecies 1 serovar Typhimurium invasion (1)
1540
CYLD
np
-0.12
none

Reference

RNAi screen of Salmonella invasion shows role of COPI in membrane targeting of cholesterol and Cdc42. Misselwitz et al., 2011

The pathogen Salmonella Typhimurium is a common cause of diarrhea and invades the gut tissue by injecting a cocktail of virulence factors into epithelial cells, triggering actin rearrangements, membrane ruffling and pathogen entry. One of these factors is SopE, a G-nucleotide exchange factor for the host cellular Rho GTPases Rac1 and Cdc42. How SopE mediates cellular invasion is incompletely understood. Using genome-scale RNAi screening we identified 72 known and novel host cell proteins affecting SopE-mediated entry. Follow-up assays assigned these ''hits'' to particular steps of the invasion process; i.e., binding, effector injection, membrane ruffling, membrane closure and maturation of the Salmonella-containing vacuole. Depletion of the COPI complex revealed a unique effect on virulence factor injection and membrane ruffling. Both effects are attributable to mislocalization of cholesterol, sphingolipids, Rac1 and Cdc42 away from the plasma membrane into a large intracellular compartment. Equivalent results were obtained with the vesicular stomatitis virus. Therefore, COPI-facilitated maintenance of lipids may represent a novel, unifying mechanism essential for a wide range of pathogens, offering opportunities for designing new drugs.

Screen Details

Stable ID: GR00133-A-1
Screen Title: Salmonella enterica subspecies 1 serovar Typhimurium invasion (1)
Assay: Gentamycin protection invasion assay
Method: Fluorescence
Scope: Druggable genes
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Qiagen, Druggable genome library V2.0
Reagent Type: siRNA
Score Type: log2 median
Cutoff: Complex criteria
Notes:

Non-small cell lung cancer (NSCLC) cytotoxicity (2)
CYLD
np
-2
Decreased shRNA abundance

Reference

Proteasome inhibitors block DNA repair and radiosensitize non-small cell lung cancer. Cron et al., 2013

Despite optimal radiation therapy (RT), chemotherapy and/or surgery, a majority of patients with locally advanced non-small cell lung cancer (NSCLC) fail treatment. To identify novel gene targets for improved tumor control, we performed whole genome RNAi screens to identify knockdowns that most reproducibly increase NSCLC cytotoxicity. These screens identified several proteasome subunits among top hits, including the topmost hit PSMA1, a component of the core 20 S proteasome. Radiation and proteasome inhibition showed synergistic effects. Proteasome inhibition resulted in an 80-90% decrease in homologous recombination (HR), a 50% decrease in expression of NF-κB-inducible HR genes BRCA1 and FANCD2, and a reduction of BRCA1, FANCD2 and RAD51 ionizing radiation-induced foci. IκBα RNAi knockdown rescued NSCLC radioresistance. Irradiation of mice with NCI-H460 xenografts after inducible PSMA1 shRNA knockdown markedly increased murine survival compared to either treatment alone. Proteasome inhibition is a promising strategy for NSCLC radiosensitization via inhibition of NF-κB-mediated expression of Fanconi Anemia/HR DNA repair genes.

Screen Details

Stable ID: GR00251-A-2
Screen Title: Non-small cell lung cancer (NSCLC) cytotoxicity (2)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: NCI-H460
Library: Hannon-Elledge whole genome pooled shRNA, np
Reagent Type: shRNA
Score Type: Complex, sp
Cutoff: Complex criteria
Notes: All listed genes are final hits. Final hit: >= 1 shRNA with >= 2-fold abundance decrease in both cell lines (A549 and NCI-H460)

Cell viability
CYLD
v2HS_81193
-1.12
Increased cell death HMECs cells

Reference

Cancer proliferation gene discovery through functional genomics. Schlabach et al., 2008

Retroviral short hairpin RNA (shRNA)-mediated genetic screens in mammalian cells are powerful tools for discovering loss-of-function phenotypes. We describe a highly parallel multiplex methodology for screening large pools of shRNAs using half-hairpin barcodes for microarray deconvolution. We carried out dropout screens for shRNAs that affect cell proliferation and viability in cancer cells and normal cells. We identified many shRNAs to be antiproliferative that target core cellular processes, such as the cell cycle and protein translation, in all cells examined. Moreover, we identified genes that are selectively required for proliferation and survival in different cell lines. Our platform enables rapid and cost-effective genome-wide screens to identify cancer proliferation and survival genes for target discovery. Such efforts are complementary to the Cancer Genome Atlas and provide an alternative functional view of cancer cells.

Screen Details

Stable ID: GR00103-A-0
Screen Title: Cell viability
Assay: Cell viability
Method: Micoarray hybridization
Scope:
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: DLD-1, HCT116 (colon cancer); HCC1954 (breast cancer); HMECs (mammary epithelia cells)
Library: , shRNA-mir (G. Hannon)
Reagent Type: shRNA
Score Type: log ratio
Cutoff: <= -1 (>= 50% cell death)
Notes:

Proliferation of cells with active beta-catenin (3)
CYLD
0.84
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-3
Screen Title: Proliferation of cells with active beta-catenin (3)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-453
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Synthetic lethal interaction with Ras
CYLD
-0.76 (0.13)
Synthetic lethal with Ras

Reference

A genome-wide RNAi screen identifies multiple synthetic lethal interactions with the Ras oncogene. Luo et al., 2009

Oncogenic mutations in the small GTPase Ras are highly prevalent in cancer, but an understanding of the vulnerabilities of these cancers is lacking. We undertook a genome-wide RNAi screen to identify synthetic lethal interactions with the KRAS oncogene. We discovered a diverse set of proteins whose depletion selectively impaired the viability of Ras mutant cells. Among these we observed a strong enrichment for genes with mitotic functions. We describe a pathway involving the mitotic kinase PLK1, the anaphase-promoting complex/cyclosome, and the proteasome that, when inhibited, results in prometaphase accumulation and the subsequent death of Ras mutant cells. Gene expression analysis indicates that reduced expression of genes in this pathway correlates with increased survival of patients bearing tumors with a Ras transcriptional signature. Our results suggest a previously underappreciated role for Ras in mitotic progression and demonstrate a pharmacologically tractable pathway for the potential treatment of cancers harboring Ras mutations.

Screen Details

Stable ID: GR00018-A-0
Screen Title: Synthetic lethal interaction with Ras
Assay: Synthetic lethal interaction with Ras
Method: Micoarray hybridization
Scope:
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: DLD1 colon adenocarcinoma cells (Ras mutant and wildtype)
Library: , shRNA-mir (G. Hannon)
Reagent Type: shRNA
Score Type: Log2 diff MUT-WT (and P-value)
Cutoff: -0.7 (0.3)
Notes:

Proliferation of cells with active beta-catenin (3)
CYLD
0.63
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-3
Screen Title: Proliferation of cells with active beta-catenin (3)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-453
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Vaccinia virus (VACV) infection
1540
CYLD
-1.63
Decreased vaccinia virus (VACV) infection number of cells compared to control (%): 87.36

Reference

Human genome-wide RNAi screen reveals a role for nuclear pore proteins in poxvirus morphogenesis. Sivan et al., 2013

Poxviruses are considered less dependent on host functions than other DNA viruses because of their cytoplasmic site of replication and large genomes, which encode enzymes for DNA and mRNA synthesis. Nevertheless, RNAi screens with two independent human genome-scale libraries have identified more than 500 candidate genes that significantly inhibited and a similar number that enhanced replication and spread of infectious vaccinia virus (VACV). Translational, ubiquitin-proteosome, and endoplasmic reticulum-to-Golgi transport functions, known to be important for VACV, were enriched in the siRNA-inhibiting group, and RNA polymerase II and associated functions were enriched in the siRNA-enhancing group. Additional findings, notably the inhibition of VACV spread by siRNAs to several nuclear pore genes, were unanticipated. Knockdown of nucleoporin 62 strongly inhibited viral morphogenesis, with only a modest effect on viral gene expression, recapitulating and providing insight into previous studies with enucleated cells.

Screen Details

Stable ID: GR00249-S
Screen Title: Vaccinia virus (VACV) infection
Assay: Vaccinia virus VACV IHD-J/GFP protein expression and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Ambion and Dharmacon, Silencer Select Version 4, siGENOME SMARTpool and OnTargetPlus
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 1 OR <= -1.5
Notes: Author-submitted data. Primary screen. Decreased viability phenotype if number of cells compared to control < 50 %.

Cell viability
CYLD
v2HS_81195
-1.35
Increased cell death HMECs cells

Reference

Cancer proliferation gene discovery through functional genomics. Schlabach et al., 2008

Retroviral short hairpin RNA (shRNA)-mediated genetic screens in mammalian cells are powerful tools for discovering loss-of-function phenotypes. We describe a highly parallel multiplex methodology for screening large pools of shRNAs using half-hairpin barcodes for microarray deconvolution. We carried out dropout screens for shRNAs that affect cell proliferation and viability in cancer cells and normal cells. We identified many shRNAs to be antiproliferative that target core cellular processes, such as the cell cycle and protein translation, in all cells examined. Moreover, we identified genes that are selectively required for proliferation and survival in different cell lines. Our platform enables rapid and cost-effective genome-wide screens to identify cancer proliferation and survival genes for target discovery. Such efforts are complementary to the Cancer Genome Atlas and provide an alternative functional view of cancer cells.

Screen Details

Stable ID: GR00103-A-0
Screen Title: Cell viability
Assay: Cell viability
Method: Micoarray hybridization
Scope:
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: DLD-1, HCT116 (colon cancer); HCC1954 (breast cancer); HMECs (mammary epithelia cells)
Library: , shRNA-mir (G. Hannon)
Reagent Type: shRNA
Score Type: log ratio
Cutoff: <= -1 (>= 50% cell death)
Notes:

Negative genetic interactions (5)
1540
CYLD
1.04
none

Reference

A negative genetic interaction map in isogenic cancer cell lines reveals cancer cell vulnerabilities. Vizeacoumar et al., 2013

Improved efforts are necessary to define the functional product of cancer mutations currently being revealed through large-scale sequencing efforts. Using genome-scale pooled shRNA screening technology, we mapped negative genetic interactions across a set of isogenic cancer cell lines and confirmed hundreds of these interactions in orthogonal co-culture competition assays to generate a high-confidence genetic interaction network of differentially essential or differential essentiality (DiE) genes. The network uncovered examples of conserved genetic interactions, densely connected functional modules derived from comparative genomics with model systems data, functions for uncharacterized genes in the human genome and targetable vulnerabilities. Finally, we demonstrate a general applicability of DiE gene signatures in determining genetic dependencies of other non-isogenic cancer cell lines. For example, the PTEN(-/-) DiE genes reveal a signature that can preferentially classify PTEN-dependent genotypes across a series of non-isogenic cell lines derived from the breast, pancreas and ovarian cancers. Our reference network suggests that many cancer vulnerabilities remain to be discovered through systematic derivation of a network of differentially essential genes in an isogenic cancer cell model.

Screen Details

Stable ID: GR00255-A-5
Screen Title: Negative genetic interactions (5)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HCT116
Library: TRC lentiviral library, np
Reagent Type: shRNA
Score Type: differential Gene Activity Ranking Profile (dGARP)
Cutoff: < -0.8
Notes: HCT116 KRASG13D/- and HCT116 KRAS+/- cells used. Cutoff corresponds to p-value < 0.05. Additional information about a secondary screen (genetic interactions with Cetuximab/Erbitux in LIM1215 cells)

Inhibitor of DNA binding 2 (ID2) expression regulation
NM_015247
CYLD
2473
1
Increased ID2::GFP protein expression

Reference

Large scale RNAi screen reveals that the inhibitor of DNA binding 2 (ID2) protein is repressed by p53 family member p63 and functions in human keratinocyte differentiation. Wu et al., 2011

The inhibitor of DNA binding 2, dominant negative helix-loop-helix protein, ID2, acts as an oncogene and elevated levels of ID2 have been reported in several malignancies. Whereas some inducers of the ID2 gene have been characterized, little is known regarding the proteins capable to repress its expression. We developed siRNA microarrays to perform a large scale loss-of-function screen in human adult keratinocytes engineered to express GFP under the control of the upstream region of ID2 gene. We screened the effect of siRNA-dependent inhibition of 220 cancer-associated genes on the expression of the ID2::GFP reporter construct. Three genes NBN, RAD21, and p63 lead to a repression of ID2 promoter activity. Strikingly NBN and RAD21 are playing on major role in cell cycle progression and mitosis arrest. These results underline the pregnant need to silence ID2 expression at transcript level to promote cell cycle exit. Central to this inhibitory mechanism we find p63, a key transcription factor in epithelial development and differentiation, which binds specific cis-acting sequence within the ID2 gene promoter both in vitro and in vivo. P63 would not suppress ID2 expression, but would rather prevent excessive expression of that protein to enable the onset of keratinocyte differentiation.

Screen Details

Stable ID: GR00211-A
Screen Title: Inhibitor of DNA binding 2 (ID2) expression regulation
Assay: ID2::GFP protein expression
Method: Fluorescence
Scope: Selected genes
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HaCaT
Library: Qiagen, Human Cancer siRNA Set v2
Reagent Type: siRNA
Score Type: GFP ratio medians ranking
Cutoff: Top 6 for >= 1 replicate
Notes:

Proliferation of cells with active beta-catenin (1)
CYLD
1.47
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-1
Screen Title: Proliferation of cells with active beta-catenin (1)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MCF7
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Homologous recombination DNA double-strand break repair (HR-DSBR) (1)
1540
CYLD
1.11
none

Reference

A genome-wide homologous recombination screen identifies the RNA-binding protein RBMX as a component of the DNA-damage response. Adamson et al., 2012

Repair of DNA double-strand breaks is critical to genomic stability and the prevention of developmental disorders and cancer. A central pathway for this repair is homologous recombination (HR). Most knowledge of HR is derived from work in prokaryotic and eukaryotic model organisms. We carried out a genome-wide siRNA-based screen in human cells. Among positive regulators of HR we identified networks of DNA-damage-response and pre-mRNA-processing proteins, and among negative regulators we identified a phosphatase network. Three candidate proteins localized to DNA lesions, including RBMX, a heterogeneous nuclear ribonucleoprotein that has a role in alternative splicing. RBMX accumulated at DNA lesions through multiple domains in a poly(ADP-ribose) polymerase 1-dependent manner and promoted HR by facilitating proper BRCA2 expression. Our screen also revealed that off-target depletion of RAD51 is a common source of RNAi false positives, raising a cautionary note for siRNA screens and RNAi-based studies of HR.

Screen Details

Stable ID: GR00236-A-1
Screen Title: Homologous recombination DNA double-strand break repair (HR-DSBR) (1)
Assay: (HR-DSBR) DR-GFP reporter and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: DR-U2OS
Library: Dharmacon, Human siGENOME siRNA (G-005000-05)
Reagent Type: siRNA
Score Type: Relative HR ratio
Cutoff: < ~0.4 OR > 1.88
Notes: Cutoff values correspond 2 standard deviations from the screen-wide mean

Negative genetic interactions (3)
1540
CYLD
-1.17
none

Reference

A negative genetic interaction map in isogenic cancer cell lines reveals cancer cell vulnerabilities. Vizeacoumar et al., 2013

Improved efforts are necessary to define the functional product of cancer mutations currently being revealed through large-scale sequencing efforts. Using genome-scale pooled shRNA screening technology, we mapped negative genetic interactions across a set of isogenic cancer cell lines and confirmed hundreds of these interactions in orthogonal co-culture competition assays to generate a high-confidence genetic interaction network of differentially essential or differential essentiality (DiE) genes. The network uncovered examples of conserved genetic interactions, densely connected functional modules derived from comparative genomics with model systems data, functions for uncharacterized genes in the human genome and targetable vulnerabilities. Finally, we demonstrate a general applicability of DiE gene signatures in determining genetic dependencies of other non-isogenic cancer cell lines. For example, the PTEN(-/-) DiE genes reveal a signature that can preferentially classify PTEN-dependent genotypes across a series of non-isogenic cell lines derived from the breast, pancreas and ovarian cancers. Our reference network suggests that many cancer vulnerabilities remain to be discovered through systematic derivation of a network of differentially essential genes in an isogenic cancer cell model.

Screen Details

Stable ID: GR00255-A-3
Screen Title: Negative genetic interactions (3)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HCT116
Library: TRC lentiviral library, np
Reagent Type: shRNA
Score Type: differential Gene Activity Ranking Profile (dGARP)
Cutoff: < -1.2
Notes: HCT116 PTEN-/- and HCT116 PTEN+/+ cells used. Cutoff corresponds to p-value < 0.05. Additional information about a secondary screen (genetic interactions with Cetuximab/Erbitux in LIM1215 cells)

Proliferation of cells with active beta-catenin (2)
CYLD
0.58
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-2
Screen Title: Proliferation of cells with active beta-catenin (2)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-231
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Proliferation of cells with active beta-catenin (2)
CYLD
0.12
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-2
Screen Title: Proliferation of cells with active beta-catenin (2)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-231
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Proliferation of cells with active beta-catenin (1)
CYLD
3.25
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-1
Screen Title: Proliferation of cells with active beta-catenin (1)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MCF7
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Proliferation of cells with active beta-catenin (1)
CYLD
-0.64
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-1
Screen Title: Proliferation of cells with active beta-catenin (1)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MCF7
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Human papillomavirus oncogene expression regulation (1)
1540
CYLD
-0.36
none

Reference

Genome-wide siRNA screen identifies SMCX, EP400, and Brd4 as E2-dependent regulators of human papillomavirus oncogene expression. Smith et al., 2010

An essential step in the pathogenesis of human papillomavirus (HPV)-associated cancers is the dysregulated expression of the viral oncogenes. The papillomavirus E2 protein can silence the long control region (LCR) promoter that controls viral E6 and E7 oncogene expression. The mechanisms by which E2 represses oncogene expression and the cellular factors through which E2 mediates this silencing are largely unknown. We conducted an unbiased, genome-wide siRNA screen and series of secondary screens that identified 96 cellular genes that contribute to the repression of the HPV LCR. In addition to confirming a role for the E2-binding bromodomain protein Brd4 in E2-mediated silencing, we identified a number of genes that have not previously been implicated in E2 repression, including the demethylase JARID1C/SMCX as well as EP400, a component of the NuA4/TIP60 histone acetyltransferase complex. Each of these genes contributes independently and additively to E2-mediated silencing, indicating that E2 functions through several distinct cellular complexes to repress E6 and E7 expression.

Screen Details

Stable ID: GR00197-A-1
Screen Title: Human papillomavirus oncogene expression regulation (1)
Assay: HPV18 LCR reporter activity
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: C33A/BE2/18LCR c4
Library: Dharmacon, Human siGENOME SMARTpool library
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 2
Notes: Author-submitted data. Phenotype strength according to Z-scores: weak: 2 - 3; moderate: 3 - 5; strong: > 5

Wnt/beta-catenin pathway regulation (1)
NM_015247
CYLD
-0.02
none

Reference

A genome-wide RNAi screen for Wnt/beta-catenin pathway components identifies unexpected roles for TCF transcription factors in cancer. Tang et al., 2008

The Wnt family of secreted proteins coordinate cell fate decision-making in a broad range of developmental and homeostatic contexts. Corruption of Wnt signal transduction pathways frequently results in degenerative diseases and cancer. We have used an iterative genome-wide screening strategy that employs multiple nonredundant RNAi reagents to identify mammalian genes that participate in Wnt/beta-catenin pathway response. Among the genes that were assigned high confidence scores are two members of the TCF/LEF family of DNA-binding proteins that control the transcriptional output of the pathway. Surprisingly, we found that the presumed cancer-promoting gene TCF7L2 functions instead as a transcriptional repressor that restricts colorectal cancer (CRC) cell growth. Mutations in TCF7L2 identified from cancer genome sequencing efforts abolish its ability to function as a transcriptional regulator and result in increased CRC cell growth. We describe a growth-promoting transcriptional program that is likely activated in CRC tumors with compromised TCF7L2 function. Taken together, the results from our screen and studies focused on members of the TCF/LEF gene family refine our understanding of how aberrant Wnt pathway activation sustains CRC growth.

Screen Details

Stable ID: GR00057-A-1
Screen Title: Wnt/beta-catenin pathway regulation (1)
Assay: Wnt pathway reporter
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Dharmacon, Human siArray siRNA library
Reagent Type: siRNA
Score Type: Z-score
Cutoff: > 4
Notes: Screen without Wnt3A stimulation. Additional information about secondary screens (Dharmacon and Qiagen libraries).

Proliferation of cells with active beta-catenin (3)
CYLD
0.49
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-3
Screen Title: Proliferation of cells with active beta-catenin (3)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-453
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Genome stability
NM_015247
CYLD
np
sp
none

Reference

A genome-wide siRNA screen reveals diverse cellular processes and pathways that mediate genome stability. Paulsen et al., 2009

Signaling pathways that respond to DNA damage are essential for the maintenance of genome stability and are linked to many diseases, including cancer. Here, a genome-wide siRNA screen was employed to identify additional genes involved in genome stabilization by monitoring phosphorylation of the histone variant H2AX, an early mark of DNA damage. We identified hundreds of genes whose downregulation led to elevated levels of H2AX phosphorylation (gammaH2AX) and revealed links to cellular complexes and to genes with unclassified functions. We demonstrate a widespread role for mRNA-processing factors in preventing DNA damage, which in some cases is caused by aberrant RNA-DNA structures. Furthermore, we connect increased gammaH2AX levels to the neurological disorder Charcot-Marie-Tooth (CMT) syndrome, and we find a role for several CMT proteins in the DNA-damage response. These data indicate that preservation of genome stability is mediated by a larger network of biological processes than previously appreciated.

Screen Details

Stable ID: GR00053-A
Screen Title: Genome stability
Assay: gamma-H2AX phosphorylation and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: ThermoFisher Scientific, siARRAY human genome siRNA library
Reagent Type: siRNA
Score Type: p-value
Cutoff: Complex criteria
Notes: Confidence groupings from 4 to 1 (highest level of confidence in group 4)

Self-renewal and pluripotency in human embryonic stem cells (1)
NM_015247
CYLD
-0.71
none

Reference

A genome-wide RNAi screen reveals determinants of human embryonic stem cell identity. Chia et al., 2010

The derivation of human ES cells (hESCs) from human blastocysts represents one of the milestones in stem cell biology. The full potential of hESCs in research and clinical applications requires a detailed understanding of the genetic network that governs the unique properties of hESCs. Here, we report a genome-wide RNA interference screen to identify genes which regulate self-renewal and pluripotency properties in hESCs. Interestingly, functionally distinct complexes involved in transcriptional regulation and chromatin remodelling are among the factors identified in the screen. To understand the roles of these potential regulators of hESCs, we studied transcription factor PRDM14 to gain new insights into its functional roles in the regulation of pluripotency. We showed that PRDM14 regulates directly the expression of key pluripotency gene POU5F1 through its proximal enhancer. Genome-wide location profiling experiments revealed that PRDM14 colocalized extensively with other key transcription factors such as OCT4, NANOG and SOX2, indicating that PRDM14 is integrated into the core transcriptional regulatory network. More importantly, in a gain-of-function assay, we showed that PRDM14 is able to enhance the efficiency of reprogramming of human fibroblasts in conjunction with OCT4, SOX2 and KLF4. Altogether, our study uncovers a wealth of novel hESC regulators wherein PRDM14 exemplifies a key transcription factor required for the maintenance of hESC identity and the reacquisition of pluripotency in human somatic cells.

Screen Details

Stable ID: GR00184-A-1
Screen Title: Self-renewal and pluripotency in human embryonic stem cells (1)
Assay: POU5F1 protein expression
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: hESC H1
Library: Dharmacon, SMARTpool siRNA library
Reagent Type: siRNA
Score Type: Z-score
Cutoff: < -2
Notes:

NF-kappaB pathway regulation (3)
1540
CYLD
sp
Upregulation of NF-kappaB pathway after LMP1 stimulation

Reference

Genome-wide siRNA screen for mediators of NF-κB activation. Gewurz et al., 2012

Although canonical NFκB is frequently critical for cell proliferation, survival, or differentiation, NFκB hyperactivation can cause malignant, inflammatory, or autoimmune disorders. Despite intensive study, mammalian NFκB pathway loss-of-function RNAi analyses have been limited to specific protein classes. We therefore undertook a human genome-wide siRNA screen for novel NFκB activation pathway components. Using an Epstein Barr virus latent membrane protein (LMP1) mutant, the transcriptional effects of which are canonical NFκB-dependent, we identified 155 proteins significantly and substantially important for NFκB activation in HEK293 cells. These proteins included many kinases, phosphatases, ubiquitin ligases, and deubiquinating enzymes not previously known to be important for NFκB activation. Relevance to other canonical NFκB pathways was extended by finding that 118 of the 155 LMP1 NF-κB activation pathway components were similarly important for IL-1β-, and 79 for TNFα-mediated NFκB activation in the same cells. MAP3K8, PIM3, and six other enzymes were uniquely relevant to LMP1-mediated NFκB activation. Most novel pathway components functioned upstream of IκB kinase complex (IKK) activation. Robust siRNA knockdown effects were confirmed for all mRNAs or proteins tested. Although multiple ZC3H-family proteins negatively regulate NFκB, ZC3H13 and ZC3H18 were activation pathway components. ZC3H13 was critical for LMP1, TNFα, and IL-1β NFκB-dependent transcription, but not for IKK activation, whereas ZC3H18 was critical for IKK activation. Down-modulators of LMP1 mediated NFκB activation were also identified. These experiments identify multiple targets to inhibit or stimulate LMP1-, IL-1β-, or TNFα-mediated canonical NFκB activation.

Screen Details

Stable ID: GR00199-A-3
Screen Title: NF-kappaB pathway regulation (3)
Assay: NF-kappaB pathway reporter
Method: Fluorescence
Scope: Selected genes
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HEK293
Library: Dharmacon, siArray
Reagent Type: siRNA
Score Type: Complex, sp
Cutoff: Complex criteria
Notes: Additional information about the primary genome-wide screen

Cell cycle
CYLD
shCYLD-5274
17.1
Increased mitotic index

Reference

A lentiviral RNAi library for human and mouse genes applied to an arrayed viral high-content screen. Moffat et al., 2006

To enable arrayed or pooled loss-of-function screens in a wide range of mammalian cell types, including primary and nondividing cells, we are developing lentiviral short hairpin RNA (shRNA) libraries targeting the human and murine genomes. The libraries currently contain 104,000 vectors, targeting each of 22,000 human and mouse genes with multiple sequence-verified constructs. To test the utility of the library for arrayed screens, we developed a screen based on high-content imaging to identify genes required for mitotic progression in human cancer cells and applied it to an arrayed set of 5,000 unique shRNA-expressing lentiviruses that target 1,028 human genes. The screen identified several known and approximately 100 candidate regulators of mitotic progression and proliferation; the availability of multiple shRNAs targeting the same gene facilitated functional validation of putative hits. This work provides a widely applicable resource for loss-of-function screens, as well as a roadmap for its application to biological discovery.

Screen Details

Stable ID: GR00110-A-0
Screen Title: Cell cycle
Assay: Mitotic index
Method: High content (microscopy)
Scope:
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HT29 (colon cancer)
Library: , TRC shRNA library
Reagent Type: shRNA
Score Type: Mitotic index
Cutoff: >=14 / <= 0.3
Notes:

Regulation of FOXO1 nuclear localization (1)
CYLD
np
sp
none rank: 13855

Reference

Whole genome siRNA cell-based screen links mitochondria to Akt signaling network through uncoupling of electron transport chain. Senapedis et al., 2011

Forkhead transcription factors (FOXOs) alter a diverse array of cellular processes including the cell cycle, oxidative stress resistance, and aging. Insulin/Akt activation directs phosphorylation and cytoplasmic sequestration of FOXO away from its target genes and serves as an endpoint of a complex signaling network. Using a human genome small interfering RNA (siRNA) library in a cell-based assay, we identified an extensive network of proteins involved in nuclear export, focal adhesion, and mitochondrial respiration not previously implicated in FOXO localization. Furthermore, a detailed examination of mitochondrial factors revealed that loss of uncoupling protein 5 (UCP5) modifies the energy balance and increases free radicals through up-regulation of uncoupling protein 3 (UCP3). The increased superoxide content induces c-Jun N-terminal kinase 1 (JNK1) kinase activity, which in turn affects FOXO localization through a compensatory dephosphorylation of Akt. The resulting nuclear FOXO increases expression of target genes, including mitochondrial superoxide dismutase. By connecting free radical defense and mitochondrial uncoupling to Akt/FOXO signaling, these results have implications in obesity and type 2 diabetes development and the potential for therapeutic intervention.

Screen Details

Stable ID: GR00247-A-1
Screen Title: Regulation of FOXO1 nuclear localization (1)
Assay: EGFP-FOXO1a protein expression and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: U2OS
Library: Dharmacon, Human Genome library
Reagent Type: siRNA
Score Type: Complex, sp
Cutoff: Complex criteria
Notes:

Proliferation of cells with active beta-catenin (3)
CYLD
0.17
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-3
Screen Title: Proliferation of cells with active beta-catenin (3)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-453
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Negative genetic interactions (4)
1540
CYLD
-0.96
none

Reference

A negative genetic interaction map in isogenic cancer cell lines reveals cancer cell vulnerabilities. Vizeacoumar et al., 2013

Improved efforts are necessary to define the functional product of cancer mutations currently being revealed through large-scale sequencing efforts. Using genome-scale pooled shRNA screening technology, we mapped negative genetic interactions across a set of isogenic cancer cell lines and confirmed hundreds of these interactions in orthogonal co-culture competition assays to generate a high-confidence genetic interaction network of differentially essential or differential essentiality (DiE) genes. The network uncovered examples of conserved genetic interactions, densely connected functional modules derived from comparative genomics with model systems data, functions for uncharacterized genes in the human genome and targetable vulnerabilities. Finally, we demonstrate a general applicability of DiE gene signatures in determining genetic dependencies of other non-isogenic cancer cell lines. For example, the PTEN(-/-) DiE genes reveal a signature that can preferentially classify PTEN-dependent genotypes across a series of non-isogenic cell lines derived from the breast, pancreas and ovarian cancers. Our reference network suggests that many cancer vulnerabilities remain to be discovered through systematic derivation of a network of differentially essential genes in an isogenic cancer cell model.

Screen Details

Stable ID: GR00255-A-4
Screen Title: Negative genetic interactions (4)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HCT116
Library: TRC lentiviral library, np
Reagent Type: shRNA
Score Type: differential Gene Activity Ranking Profile (dGARP)
Cutoff: < -1.2
Notes: HCT116 PTTG1-/- and HCT116 PTTG1+/+ cells used. Cutoff corresponds to p-value < 0.05. Additional information about a secondary screen (genetic interactions with Cetuximab/Erbitux in LIM1215 cells)

Proliferation of cells with active beta-catenin (3)
CYLD
-0.32
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-3
Screen Title: Proliferation of cells with active beta-catenin (3)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-453
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Vaccinia virus (VACV) infection
1540
CYLD
-1.77
Decreased vaccinia virus (VACV) infection number of cells compared to control (%): 53.17

Reference

Human genome-wide RNAi screen reveals a role for nuclear pore proteins in poxvirus morphogenesis. Sivan et al., 2013

Poxviruses are considered less dependent on host functions than other DNA viruses because of their cytoplasmic site of replication and large genomes, which encode enzymes for DNA and mRNA synthesis. Nevertheless, RNAi screens with two independent human genome-scale libraries have identified more than 500 candidate genes that significantly inhibited and a similar number that enhanced replication and spread of infectious vaccinia virus (VACV). Translational, ubiquitin-proteosome, and endoplasmic reticulum-to-Golgi transport functions, known to be important for VACV, were enriched in the siRNA-inhibiting group, and RNA polymerase II and associated functions were enriched in the siRNA-enhancing group. Additional findings, notably the inhibition of VACV spread by siRNAs to several nuclear pore genes, were unanticipated. Knockdown of nucleoporin 62 strongly inhibited viral morphogenesis, with only a modest effect on viral gene expression, recapitulating and providing insight into previous studies with enucleated cells.

Screen Details

Stable ID: GR00249-S
Screen Title: Vaccinia virus (VACV) infection
Assay: Vaccinia virus VACV IHD-J/GFP protein expression and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Ambion and Dharmacon, Silencer Select Version 4, siGENOME SMARTpool and OnTargetPlus
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 1 OR <= -1.5
Notes: Author-submitted data. Primary screen. Decreased viability phenotype if number of cells compared to control < 50 %.

TRAIL-induced apoptosis (2)
NM_015247
CYLD
-1.15
none Z-score 1.0765

Reference

A synthetic lethal screen identifies FAT1 as an antagonist of caspase-8 in extrinsic apoptosis. Kranz and Boutros, 2014

The extrinsic apoptosis pathway is initiated by binding of death ligands to death receptors resulting in the formation of the death-inducing signaling complex (DISC). Activation of procaspase-8 within the DISC and its release from the signaling complex is required for processing executor caspases and commiting cell death. Here, we report that the atypical cadherin FAT1 interacts with caspase-8 preventing the association of caspase-8 with the DISC. We identified FAT1 in a genome-wide siRNA screen for synthetic lethal interactions with death receptor-mediated apoptosis. Knockdown of FAT1 sensitized established and patient-derived glioblastoma cell lines for apoptosis transduced by cell death ligands. Depletion of FAT1 resulted in enhanced procaspase-8 recruitment to the DISC and increased formation of caspase-8 containing secondary signaling complexes. In addition, FAT1 knockout cell lines generated by CRISPR/Cas9-mediated genome engineering were more susceptible for death receptor-mediated apoptosis. Our findings provide evidence for a mechanism to control caspase-8-dependent cell death by the atypical cadherin FAT1. These results contribute towards the understanding of effector caspase regulation in physiological conditions.

Screen Details

Stable ID: GR00240-S-2
Screen Title: TRAIL-induced apoptosis (2)
Assay: Viability (synthetic lethal)
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: U251MG
Library: Dharmacon, SMART-pool siRNA
Reagent Type: siRNA
Score Type: Differential score
Cutoff: > 3.6 AND viability Z-score < 4
Notes: Author-submitted data. Z-scores from viability screen (1) are considered in score interpretation for this screen.

Hepatitis C virus replication (1)
1540
CYLD
PL-50015
0.92
none

Reference

A functional genomic screen identifies cellular cofactors of hepatitis C virus replication. Tai et al., 2009

Hepatitis C virus (HCV) chronically infects 3% of the world''s population, and complications from HCV are the leading indication for liver transplantation. Given the need for better anti-HCV therapies, one strategy is to identify and target cellular cofactors of the virus lifecycle. Using a genome-wide siRNA library, we identified 96 human genes that support HCV replication, with a significant number of them being involved in vesicle organization and biogenesis. Phosphatidylinositol 4-kinase PI4KA and multiple subunits of the COPI vesicle coat complex were among the genes identified. Consistent with this, pharmacologic inhibitors of COPI and PI4KA blocked HCV replication. Targeting hepcidin, a peptide critical for iron homeostasis, also affected HCV replication, which may explain the known dysregulation of iron homeostasis in HCV infection. The host cofactors for HCV replication identified in this study should serve as a useful resource in delineating new targets for anti-HCV therapies.

Screen Details

Stable ID: GR00180-A-1
Screen Title: Hepatitis C virus replication (1)
Assay: HCV replicon RNA copy number
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: Huh7/Rep-Feo
Library: Dharmacon, siARRAY Human Genome siRNA Library
Reagent Type: siRNA
Score Type: q-value
Cutoff: Complex criteria
Notes:

Negative genetic interactions (1)
1540
CYLD
-0.49
none

Reference

A negative genetic interaction map in isogenic cancer cell lines reveals cancer cell vulnerabilities. Vizeacoumar et al., 2013

Improved efforts are necessary to define the functional product of cancer mutations currently being revealed through large-scale sequencing efforts. Using genome-scale pooled shRNA screening technology, we mapped negative genetic interactions across a set of isogenic cancer cell lines and confirmed hundreds of these interactions in orthogonal co-culture competition assays to generate a high-confidence genetic interaction network of differentially essential or differential essentiality (DiE) genes. The network uncovered examples of conserved genetic interactions, densely connected functional modules derived from comparative genomics with model systems data, functions for uncharacterized genes in the human genome and targetable vulnerabilities. Finally, we demonstrate a general applicability of DiE gene signatures in determining genetic dependencies of other non-isogenic cancer cell lines. For example, the PTEN(-/-) DiE genes reveal a signature that can preferentially classify PTEN-dependent genotypes across a series of non-isogenic cell lines derived from the breast, pancreas and ovarian cancers. Our reference network suggests that many cancer vulnerabilities remain to be discovered through systematic derivation of a network of differentially essential genes in an isogenic cancer cell model.

Screen Details

Stable ID: GR00255-A-1
Screen Title: Negative genetic interactions (1)
Assay: shRNA abundance
Method: Microarray
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HCT116
Library: TRC lentiviral library, np
Reagent Type: shRNA
Score Type: differential Gene Activity Ranking Profile (dGARP)
Cutoff: < -1.0
Notes: HCT116 BLM-/- and HCT116 BLM+/+ cells used. Cutoff corresponds to p-value < 0.05. Additional information about a secondary screen (genetic interactions with Cetuximab/Erbitux in LIM1215 cells)

Proliferation of cells with active beta-catenin (2)
CYLD
0.05
none

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-2
Screen Title: Proliferation of cells with active beta-catenin (2)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MDA-MB-231
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Cell cycle
CYLD
np
np
Cell cycle / mitosis defect

Reference

Anaphase initiation is regulated by antagonistic ubiquitination and deubiquitination activities. Stegmeier et al., 2007

The spindle checkpoint prevents chromosome mis-segregation by delaying sister chromatid separation until all chromosomes have achieved bipolar attachment to the mitotic spindle. Its operation is essential for accurate chromosome segregation, whereas its dysregulation can contribute to birth defects and tumorigenesis. The target of the spindle checkpoint is the anaphase-promoting complex (APC), a ubiquitin ligase that promotes sister chromatid separation and progression to anaphase. Using a short hairpin RNA screen targeting components of the ubiquitin-proteasome pathway in human cells, we identified the deubiquitinating enzyme USP44 (ubiquitin-specific protease 44) as a critical regulator of the spindle checkpoint. USP44 is not required for the initial recognition of unattached kinetochores and the subsequent recruitment of checkpoint components. Instead, it prevents the premature activation of the APC by stabilizing the APC-inhibitory Mad2-Cdc20 complex. USP44 deubiquitinates the APC coactivator Cdc20 both in vitro and in vivo, and thereby directly counteracts the APC-driven disassembly of Mad2-Cdc20 complexes (discussed in an accompanying paper). Our findings suggest that a dynamic balance of ubiquitination by the APC and deubiquitination by USP44 contributes to the generation of the switch-like transition controlling anaphase entry, analogous to the way that phosphorylation and dephosphorylation of Cdk1 by Wee1 and Cdc25 controls entry into mitosis.

Screen Details

Stable ID: GR00100-A-0
Screen Title: Cell cycle
Assay: Cell cycle
Method: High content (microscopy)
Scope:
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa (cervix carcinom)
Library: , shRNA-mir (G. Hannon)
Reagent Type: shRNA
Score Type: Mitotic index
Cutoff: np
Notes:

TRAIL-induced apoptosis (1)
NM_015247
CYLD
2.02
none

Reference

A synthetic lethal screen identifies FAT1 as an antagonist of caspase-8 in extrinsic apoptosis. Kranz and Boutros, 2014

The extrinsic apoptosis pathway is initiated by binding of death ligands to death receptors resulting in the formation of the death-inducing signaling complex (DISC). Activation of procaspase-8 within the DISC and its release from the signaling complex is required for processing executor caspases and commiting cell death. Here, we report that the atypical cadherin FAT1 interacts with caspase-8 preventing the association of caspase-8 with the DISC. We identified FAT1 in a genome-wide siRNA screen for synthetic lethal interactions with death receptor-mediated apoptosis. Knockdown of FAT1 sensitized established and patient-derived glioblastoma cell lines for apoptosis transduced by cell death ligands. Depletion of FAT1 resulted in enhanced procaspase-8 recruitment to the DISC and increased formation of caspase-8 containing secondary signaling complexes. In addition, FAT1 knockout cell lines generated by CRISPR/Cas9-mediated genome engineering were more susceptible for death receptor-mediated apoptosis. Our findings provide evidence for a mechanism to control caspase-8-dependent cell death by the atypical cadherin FAT1. These results contribute towards the understanding of effector caspase regulation in physiological conditions.

Screen Details

Stable ID: GR00240-S-1
Screen Title: TRAIL-induced apoptosis (1)
Assay: Viability
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: U251MG
Library: Dharmacon, SMART-pool siRNA
Reagent Type: siRNA
Score Type: Z-score
Cutoff: > 4
Notes: Author-submitted data

NF-kappaB signaling
CYLD
np
np
Increased NF-kappaB reporter activity

Reference

Loss of the cylindromatosis tumour suppressor inhibits apoptosis by activating NF-kappaB. Brummelkamp et al., 2003

Protein modification by the conjugation of ubiquitin moieties--ubiquitination--plays a major part in many biological processes, including cell cycle and apoptosis. The enzymes that mediate ubiquitin-conjugation have been well-studied, but much less is known about the ubiquitin-specific proteases that mediate de-ubiquitination of cellular substrates. To study this gene family, we designed a collection of RNA interference vectors to suppress 50 human de-ubiquitinating enzymes, and used these vectors to identify de-ubiquitinating enzymes in cancer-relevant pathways. We report here that inhibition of one of these enzymes, the familial cylindromatosis tumour suppressor gene (CYLD), having no known function, enhances activation of the transcription factor NF-kappaB. We show that CYLD binds to the NEMO (also known as IKKgamma) component of the IkappaB kinase (IKK) complex, and appears to regulate its activity through de-ubiquitination of TRAF2, as TRAF2 ubiquitination can be modulated by CYLD. Inhibition of CYLD increases resistance to apoptosis, suggesting a mechanism through which loss of CYLD contributes to oncogenesis. We show that this effect can be relieved by aspirin derivatives that inhibit NF-kappaB activity, which suggests a therapeutic intervention strategy to restore growth control in patients suffering from familial cylindromatosis.

Screen Details

Stable ID: GR00111-A-0
Screen Title: NF-kappaB signaling
Assay: NF-kappaB signaling
Method: Dual luciferase
Scope:
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: U2OS (Osteosarcoma)
Library: , Custom-made library
Reagent Type: shRNA
Score Type: np
Cutoff: np
Notes:

Wnt/beta-catenin pathway regulation (2)
NM_015247
CYLD
sp
none

Reference

A genome-wide RNAi screen for Wnt/beta-catenin pathway components identifies unexpected roles for TCF transcription factors in cancer. Tang et al., 2008

The Wnt family of secreted proteins coordinate cell fate decision-making in a broad range of developmental and homeostatic contexts. Corruption of Wnt signal transduction pathways frequently results in degenerative diseases and cancer. We have used an iterative genome-wide screening strategy that employs multiple nonredundant RNAi reagents to identify mammalian genes that participate in Wnt/beta-catenin pathway response. Among the genes that were assigned high confidence scores are two members of the TCF/LEF family of DNA-binding proteins that control the transcriptional output of the pathway. Surprisingly, we found that the presumed cancer-promoting gene TCF7L2 functions instead as a transcriptional repressor that restricts colorectal cancer (CRC) cell growth. Mutations in TCF7L2 identified from cancer genome sequencing efforts abolish its ability to function as a transcriptional regulator and result in increased CRC cell growth. We describe a growth-promoting transcriptional program that is likely activated in CRC tumors with compromised TCF7L2 function. Taken together, the results from our screen and studies focused on members of the TCF/LEF gene family refine our understanding of how aberrant Wnt pathway activation sustains CRC growth.

Screen Details

Stable ID: GR00057-A-2
Screen Title: Wnt/beta-catenin pathway regulation (2)
Assay: Wnt pathway reporter
Method: Luminescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Dharmacon, Human siArray siRNA library
Reagent Type: siRNA
Score Type: Complex, SP
Cutoff: Complex criteria
Notes: Screen with Wnt3A stimulation. Additional information about secondary screens (Dharmacon and Qiagen libraries).

Vaccinia virus (VACV) infection
1540
CYLD
J-004609-05
-1.68
Decreased vaccinia virus (VACV) infection number of cells compared to control (%): 98.70

Reference

Human genome-wide RNAi screen reveals a role for nuclear pore proteins in poxvirus morphogenesis. Sivan et al., 2013

Poxviruses are considered less dependent on host functions than other DNA viruses because of their cytoplasmic site of replication and large genomes, which encode enzymes for DNA and mRNA synthesis. Nevertheless, RNAi screens with two independent human genome-scale libraries have identified more than 500 candidate genes that significantly inhibited and a similar number that enhanced replication and spread of infectious vaccinia virus (VACV). Translational, ubiquitin-proteosome, and endoplasmic reticulum-to-Golgi transport functions, known to be important for VACV, were enriched in the siRNA-inhibiting group, and RNA polymerase II and associated functions were enriched in the siRNA-enhancing group. Additional findings, notably the inhibition of VACV spread by siRNAs to several nuclear pore genes, were unanticipated. Knockdown of nucleoporin 62 strongly inhibited viral morphogenesis, with only a modest effect on viral gene expression, recapitulating and providing insight into previous studies with enucleated cells.

Screen Details

Stable ID: GR00249-S
Screen Title: Vaccinia virus (VACV) infection
Assay: Vaccinia virus VACV IHD-J/GFP protein expression and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Ambion and Dharmacon, Silencer Select Version 4, siGENOME SMARTpool and OnTargetPlus
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 1 OR <= -1.5
Notes: Author-submitted data. Primary screen. Decreased viability phenotype if number of cells compared to control < 50 %.

Vaccinia virus (VACV) infection
1540
CYLD
M-004609-01
-1.45
Decreased viability number of cells compared to control (%): 40.26

Reference

Human genome-wide RNAi screen reveals a role for nuclear pore proteins in poxvirus morphogenesis. Sivan et al., 2013

Poxviruses are considered less dependent on host functions than other DNA viruses because of their cytoplasmic site of replication and large genomes, which encode enzymes for DNA and mRNA synthesis. Nevertheless, RNAi screens with two independent human genome-scale libraries have identified more than 500 candidate genes that significantly inhibited and a similar number that enhanced replication and spread of infectious vaccinia virus (VACV). Translational, ubiquitin-proteosome, and endoplasmic reticulum-to-Golgi transport functions, known to be important for VACV, were enriched in the siRNA-inhibiting group, and RNA polymerase II and associated functions were enriched in the siRNA-enhancing group. Additional findings, notably the inhibition of VACV spread by siRNAs to several nuclear pore genes, were unanticipated. Knockdown of nucleoporin 62 strongly inhibited viral morphogenesis, with only a modest effect on viral gene expression, recapitulating and providing insight into previous studies with enucleated cells.

Screen Details

Stable ID: GR00249-S
Screen Title: Vaccinia virus (VACV) infection
Assay: Vaccinia virus VACV IHD-J/GFP protein expression and DNA content
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa
Library: Ambion and Dharmacon, Silencer Select Version 4, siGENOME SMARTpool and OnTargetPlus
Reagent Type: siRNA
Score Type: Z-score
Cutoff: >= 1 OR <= -1.5
Notes: Author-submitted data. Primary screen. Decreased viability phenotype if number of cells compared to control < 50 %.

Proliferation of cells with active beta-catenin (1)
CYLD
-1.95
Decreased viability

Reference

CK1epsilon is required for breast cancers dependent on beta-catenin activity. Kim et al., 2010

Aberrant beta-catenin signaling plays a key role in several cancer types, notably colon, liver and breast cancer. However approaches to modulate beta-catenin activity for therapeutic purposes have proven elusive to date.

Screen Details

Stable ID: GR00221-A-1
Screen Title: Proliferation of cells with active beta-catenin (1)
Assay: Viability
Method: Luminescence
Scope: Kinases
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: MCF7
Library: The RNAi Consortium (TRC), TRC shRNA Library
Reagent Type: shRNA
Score Type: B-score
Cutoff: < -1
Notes: Essential gene: gene with B-score < -1 for >= 2 shRNAs

Selective autophagy regulation (1)
NM_015247
CYLD
np
sp
none

Reference

Image-based genome-wide siRNA screen identifies selective autophagy factors. Orvedahl et al., 2011

Selective autophagy involves the recognition and targeting of specific cargo, such as damaged organelles, misfolded proteins, or invading pathogens for lysosomal destruction. Yeast genetic screens have identified proteins required for different forms of selective autophagy, including cytoplasm-to-vacuole targeting, pexophagy and mitophagy, and mammalian genetic screens have identified proteins required for autophagy regulation. However, there have been no systematic approaches to identify molecular determinants of selective autophagy in mammalian cells. Here, to identify mammalian genes required for selective autophagy, we performed a high-content, image-based, genome-wide small interfering RNA screen to detect genes required for the colocalization of Sindbis virus capsid protein with autophagolysosomes. We identified 141 candidate genes required for viral autophagy, which were enriched for cellular pathways related to messenger RNA processing, interferon signalling, vesicle trafficking, cytoskeletal motor function and metabolism. Ninety-six of these genes were also required for Parkin-mediated mitophagy, indicating that common molecular determinants may be involved in autophagic targeting of viral nucleocapsids and autophagic targeting of damaged mitochondria. Murine embryonic fibroblasts lacking one of these gene products, the C2-domain containing protein, SMURF1, are deficient in the autophagosomal targeting of Sindbis and herpes simplex viruses and in the clearance of damaged mitochondria. Moreover, SMURF1-deficient mice accumulate damaged mitochondria in the heart, brain and liver. Thus, our study identifies candidate determinants of selective autophagy, and defines SMURF1 as a newly recognized mediator of both viral autophagy and mitophagy.

Screen Details

Stable ID: GR00242-A-1
Screen Title: Selective autophagy regulation (1)
Assay: Sindbis virus (SIN) capsid SIN-mCherry.capsid and autophagosome GFP–LC3 protein expression
Method: Fluorescence
Scope: Genome-wide
Screen Type: Cell-based
Species: Homo sapiens
Biosource: Cell line
Biomodel: HeLa/GFP-LC3
Library: Dharmacon, siGenome
Reagent Type: siRNA
Score Type: Z-score
Cutoff: Complex criteria
Notes:

Reagent information for gene 1540 (CYLD)

Reagent IDTypeLibrary
D-004609-01 siRNA
siGENOME|Thermo Scientific Dharmacon|1|RefSeq release 5-7|84206 siRNAs in pools of four|siRNA|http://www.dharmacon.com/
D-004609-02 siRNA
siGENOME|Thermo Scientific Dharmacon|1|RefSeq release 5-7|84206 siRNAs in pools of four|siRNA|http://www.dharmacon.com/
M-004609-00 siRNA_Pool
siGENOME|Thermo Scientific Dharmacon|1|RefSeq release 5-7|84206 siRNAs in pools of four|siRNA|http://www.dharmacon.com/
D-004609-04 siRNA
siGENOME|Thermo Scientific Dharmacon|1|RefSeq release 5-7|84206 siRNAs in pools of four|siRNA|http://www.dharmacon.com/
D-004609-03 siRNA
siGENOME|Thermo Scientific Dharmacon|1|RefSeq release 5-7|84206 siRNAs in pools of four|siRNA|http://www.dharmacon.com/
SP00001190 siRNA_Pool
Druggable and whole genome supplement|Qiagen|1, 3|RefSeq|70308 siRNAs in pools of four|siRNA|http://www.qiagen.com/
SI00110082 siRNA
Druggable and whole genome supplement|Qiagen|1, 3|RefSeq|70308 siRNAs in pools of four|siRNA|http://www.qiagen.com/
SI00110089 siRNA
Druggable and whole genome supplement|Qiagen|1, 3|RefSeq|70308 siRNAs in pools of four|siRNA|http://www.qiagen.com/
SI00110096 siRNA
Druggable and whole genome supplement|Qiagen|1, 3|RefSeq|70308 siRNAs in pools of four|siRNA|http://www.qiagen.com/
SI03056949 siRNA
Druggable and whole genome supplement|Qiagen|1, 3|RefSeq|70308 siRNAs in pools of four|siRNA|http://www.qiagen.com/
TRCN0000039630 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000039631 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000039629 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000010488 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000039632 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000039628 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000018366 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
TRCN0000010487 shRNA
TRC shRNA Library|The RNAi Consortium (TRC)|1|RefSeq|81054|shRNA|http://www.broadinstitute.org/rnai/public/
v2HS_81196 siRNA
shRNAmir|OpenBiosystems|1|RefSeq|2120|shRNA|http://www.openbiosystems.com/
s590 siRNA
Ambion Silencer Select|Ambion|1|RefSeq|64781|siRNA|http://www.invitrogen.com/site/us/en/home/brands/ambion.html?CID=fl-ambion
s591 siRNA
Ambion Silencer Select|Ambion|1|RefSeq|64781|siRNA|http://www.invitrogen.com/site/us/en/home/brands/ambion.html?CID=fl-ambion
s592 siRNA
Ambion Silencer Select|Ambion|1|RefSeq|64781|siRNA|http://www.invitrogen.com/site/us/en/home/brands/ambion.html?CID=fl-ambion

Gene information for gene 1540 (CYLD)

Gene:
Alternate gene names:TEM, CYLDI, EAC, CDMT, MFT, SBS, CYLD1, BRSS, USPL2, MFT1
Description:cylindromatosis (turban tumor syndrome)
Chromosome:16
Start:50742049
Stop:50801935
Strand:positive
Locus:16q12.1
Biotype:protein-coding
Status:live
Entrez Gene:
GeneCards:
Ensembl:
Hgnc:
Hprd:
Mim:
Uniprot:
Vega:
RefSeq:

Homologs:

GeneChromosomeLocusOrganism
CYLD2LDrosophila melanogaster

Genome browser for gene 1540 (CYLD)

Homo sapiens GRCh38
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