2020
Fine-mapping of 150 breast cancer risk regions identifies 191 likely target genes
Fachal L, Aschard H, Beesley J, Barnes DR, Allen J, Kar S, Pooley KA, Dennis J, Michailidou K, Turman C, Soucy P, Lemaçon A, Lush M, Tyrer JP, Ghoussaini M, Moradi Marjaneh M, Jiang X, Agata S, Aittomäki K, Alonso MR, Andrulis IL, Anton-Culver H, Antonenkova NN, Arason A, Arndt V, Aronson KJ, Arun BK, Auber B, Auer PL, Azzollini J, Balmaña J, Barkardottir RB, Barrowdale D, Beeghly-Fadiel A, Benitez J, Bermisheva M, Białkowska K, Blanco AM, Blomqvist C, Blot W, Bogdanova NV, Bojesen SE, Bolla MK, Bonanni B, Borg A, Bosse K, Brauch H, Brenner H, Briceno I, Brock IW, Brooks-Wilson A, Brüning T, Burwinkel B, Buys SS, Cai Q, Caldés T, Caligo MA, Camp NJ, Campbell I, Canzian F, Carroll JS, Carter BD, Castelao JE, Chiquette J, Christiansen H, Chung WK, Claes KBM, Clarke CL, Collée J, Cornelissen S, Couch F, Cox A, Cross S, Cybulski C, Czene K, Daly M, de la Hoya M, Devilee P, Diez O, Ding Y, Dite G, Domchek S, Dörk T, dos-Santos-Silva I, Droit A, Dubois S, Dumont M, Duran M, Durcan L, Dwek M, Eccles D, Engel C, Eriksson M, Evans D, Fasching P, Fletcher O, Floris G, Flyger H, Foretova L, Foulkes W, Friedman E, Fritschi L, Frost D, Gabrielson M, Gago-Dominguez M, Gambino G, Ganz P, Gapstur S, Garber J, García-Sáenz J, Gaudet M, Georgoulias V, Giles G, Glendon G, Godwin A, Goldberg M, Goldgar D, González-Neira A, Tibiletti M, Greene M, Grip M, Gronwald J, Grundy A, Guénel P, Hahnen E, Haiman C, Håkansson N, Hall P, Hamann U, Harrington P, Hartikainen J, Hartman M, He W, Healey C, Heemskerk-Gerritsen B, Heyworth J, Hillemanns P, Hogervorst F, Hollestelle A, Hooning M, Hopper J, Howell A, Huang G, Hulick P, Imyanitov E, Isaacs C, Iwasaki M, Jager A, Jakimovska M, Jakubowska A, James P, Janavicius R, Jankowitz R, John E, Johnson N, Jones M, Jukkola-Vuorinen A, Jung A, Kaaks R, Kang D, Kapoor P, Karlan B, Keeman R, Kerin M, Khusnutdinova E, Kiiski J, Kirk J, Kitahara C, Ko Y, Konstantopoulou I, Kosma V, Koutros S, Kubelka-Sabit K, Kwong A, Kyriacou K, Laitman Y, Lambrechts D, Lee E, Leslie G, Lester J, Lesueur F, Lindblom A, Lo W, Long J, Lophatananon A, Loud J, Lubiński J, MacInnis R, Maishman T, Makalic E, Mannermaa A, Manoochehri M, Manoukian S, Margolin S, Martinez M, Matsuo K, Maurer T, Mavroudis D, Mayes R, McGuffog L, McLean C, Mebirouk N, Meindl A, Miller A, Miller N, Montagna M, Moreno F, Muir K, Mulligan A, Muñoz-Garzon V, Muranen T, Narod S, Nassir R, Nathanson K, Neuhausen S, Nevanlinna H, Neven P, Nielsen F, Nikitina-Zake L, Norman A, Offit K, Olah E, Olopade O, Olsson H, Orr N, Osorio A, Pankratz V, Papp J, Park S, Park-Simon T, Parsons M, Paul J, Pedersen I, Peissel B, Peshkin B, Peterlongo P, Peto J, Plaseska-Karanfilska D, Prajzendanc K, Prentice R, Presneau N, Prokofyeva D, Pujana M, Pylkäs K, Radice P, Ramus S, Rantala J, Rau-Murthy R, Rennert G, Risch H, Robson M, Romero A, Rossing M, Saloustros E, Sánchez-Herrero E, Sandler D, Santamariña M, Saunders C, Sawyer E, Scheuner M, Schmidt D, Schmutzler R, Schneeweiss A, Schoemaker M, Schöttker B, Schürmann P, Scott C, Scott R, Senter L, Seynaeve C, Shah M, Sharma P, Shen C, Shu X, Singer C, Slavin T, Smichkoska S, Southey M, Spinelli J, Spurdle A, Stone J, Stoppa-Lyonnet D, Sutter C, Swerdlow A, Tamimi R, Tan Y, Tapper W, Taylor J, Teixeira M, Tengström M, Teo S, Terry M, Teulé A, Thomassen M, Thull D, Tischkowitz M, Toland A, Tollenaar R, Tomlinson I, Torres D, Torres-Mejía G, Troester M, Truong T, Tung N, Tzardi M, Ulmer H, Vachon C, van Asperen C, van der Kolk L, van Rensburg E, Vega A, Viel A, Vijai J, Vogel M, Wang Q, Wappenschmidt B, Weinberg C, Weitzel J, Wendt C, Wildiers H, Winqvist R, Wolk A, Wu A, Yannoukakos D, Zhang Y, Zheng W, Hunter D, Pharoah P, Chang-Claude J, García-Closas M, Schmidt M, Milne R, Kristensen V, French J, Edwards S, Antoniou A, Chenevix-Trench G, Simard J, Easton D, Kraft P, Dunning A. Fine-mapping of 150 breast cancer risk regions identifies 191 likely target genes. Nature Genetics 2020, 52: 56-73. PMID: 31911677, PMCID: PMC6974400, DOI: 10.1038/s41588-019-0537-1.Peer-Reviewed Original ResearchConceptsCausal variantsTranscription factorsTarget genesActive gene regulatory regionsHigh-confidence target genesGenomic feature annotationsGenome-wide association studiesBreast cancer risk variantsGene regulatory regionsCredible causal variantsGene ontology pathwaysChromatin interactionsFunctional annotationGenomic regionsOntology pathwaysRegulatory regionsGenomic featuresCancer driversGene expressionAssociation studiesAssociation analysisGenesLinkage disequilibriumRisk variantsHigh posterior probability
2017
Enrichment of putative PAX8 target genes at serous epithelial ovarian cancer susceptibility loci
Kar SP, Adler E, Tyrer J, Hazelett D, Anton-Culver H, Bandera EV, Beckmann MW, Berchuck A, Bogdanova N, Brinton L, Butzow R, Campbell I, Carty K, Chang-Claude J, Cook LS, Cramer DW, Cunningham JM, Dansonka-Mieszkowska A, Doherty JA, Dörk T, Dürst M, Eccles D, Fasching PA, Flanagan J, Gentry-Maharaj A, Glasspool R, Goode EL, Goodman MT, Gronwald J, Heitz F, Hildebrandt MA, Høgdall E, Høgdall CK, Huntsman DG, Jensen A, Karlan BY, Kelemen LE, Kiemeney LA, Kjaer SK, Kupryjanczyk J, Lambrechts D, Levine DA, Li Q, Lissowska J, Lu KH, Lubiński J, Massuger LF, McGuire V, McNeish I, Menon U, Modugno F, Monteiro AN, Moysich KB, Ness RB, Nevanlinna H, Paul J, Pearce CL, Pejovic T, Permuth JB, Phelan C, Pike MC, Poole EM, Ramus SJ, Risch HA, Rossing MA, Salvesen HB, Schildkraut JM, Sellers TA, Sherman M, Siddiqui N, Sieh W, Song H, Southey M, Terry KL, Tworoger SS, Walsh C, Wentzensen N, Whittemore AS, Wu AH, Yang H, Zheng W, Ziogas A, Freedman ML, Gayther SA, Pharoah PD, Lawrenson K. Enrichment of putative PAX8 target genes at serous epithelial ovarian cancer susceptibility loci. British Journal Of Cancer 2017, 116: 524-535. PMID: 28103614, PMCID: PMC5318969, DOI: 10.1038/bjc.2016.426.Peer-Reviewed Original ResearchMeSH KeywordsCarcinoma, Ovarian EpithelialCase-Control StudiesCell Line, TumorCell Transformation, NeoplasticCystadenocarcinoma, SerousFemaleGene AmplificationGene Expression ProfilingGene Expression Regulation, NeoplasticGenetic LociGenetic Predisposition to DiseaseGenome-Wide Association StudyHumansMeta-Analysis as TopicMicroarray AnalysisNeoplasms, Glandular and EpithelialOvarian NeoplasmsPolymorphism, Single NucleotideConceptsGenome-wide association studiesTarget genesTranscription factorsRisk lociOvarian cancer susceptibility lociCancer risk lociDifferential gene expressionCancer susceptibility lociMolecular Signatures DatabaseShRNA-mediated silencingGene setsEnrichment analysisGene expressionTranscriptomic perturbationsAssociation studiesSusceptibility lociGenesLociOvarian cancer susceptibilityRisk variantsAgnostic evaluationCell of originCancer susceptibilityBiological mechanismsPathway
2015
Common Genetic Variation in Circadian Rhythm Genes and Risk of Epithelial Ovarian Cancer (EOC)
Jim HS, Lin HY, Tyrer JP, Lawrenson K, Dennis J, Chornokur G, Chen Z, Chen AY, Permuth-Wey J, Aben KK, Anton-Culver H, Antonenkova N, Bruinsma F, Bandera EV, Bean YT, Beckmann MW, Bisogna M, Bjorge L, Bogdanova N, Brinton LA, Brooks-Wilson A, Bunker CH, Butzow R, Campbell IG, Carty K, Chang-Claude J, Cook LS, Cramer DW, Cunningham JM, Cybulski C, Dansonka-Mieszkowska A, du Bois A, Despierre E, Sieh W, Doherty JA, Dörk T, Dürst M, Easton DF, Eccles DM, Edwards RP, Ekici AB, Fasching PA, Fridley BL, Gao YT, Gentry-Maharaj A, Giles GG, Glasspool R, Goodman MT, Gronwald J, Harter P, Hasmad HN, Hein A, Heitz F, Hildebrandt MA, Hillemanns P, Hogdall CK, Hogdall E, Hosono S, Iversen ES, Jakubowska A, Jensen A, Ji BT, Karlan BY, Kellar M, Kiemeney LA, Krakstad C, Kjaer SK, Kupryjanczyk J, Vierkant RA, Lambrechts D, Lambrechts S, Le ND, Lee AW, Lele S, Leminen A, Lester J, Levine DA, Liang D, Lim BK, Lissowska J, Lu K, Lubinski J, Lundvall L, Massuger LF, Matsuo K, McGuire V, McLaughlin JR, McNeish I, Menon U, Milne RL, Modugno F, Thomsen L, Moysich KB, Ness RB, Nevanlinna H, Eilber U, Odunsi K, Olson SH, Orlow I, Orsulic S, Palmieri Weber R, Paul J, Pearce CL, Pejovic T, Pelttari LM, Pike MC, Poole EM, Schernhammer E, Risch HA, Rosen B, Rossing MA, Rothstein JH, Rudolph A, Runnebaum IB, Rzepecka IK, Salvesen HB, Schwaab I, Shu XO, Shvetsov YB, Siddiqui N, Song H, Southey MC, Spiewankiewicz B, Sucheston-Campbell L, Teo SH, Terry KL, Thompson PJ, Tangen IL, Tworoger SS, van Altena AM, Vergote I, Walsh CS, Wang-Gohrke S, Wentzensen N, Whittemore AS, Wicklund KG, Wilkens LR, Wu AH, Wu X, Woo YL, Yang H, Zheng W, Ziogas A, Amankwah E, Berchuck A, , Schildkraut JM, Kelemen LE, Ramus SJ, Monteiro AN, Goode EL, Narod SA, Gayther SA, Pharoah PD, Sellers TA, Phelan CM. Common Genetic Variation in Circadian Rhythm Genes and Risk of Epithelial Ovarian Cancer (EOC). Journal Of Genetics And Genome Research 2015, 2: 017. PMID: 26807442, PMCID: PMC4722961, DOI: 10.23937/2378-3648/1410017.Peer-Reviewed Original ResearchSingle nucleotide polymorphismsCircadian genesGenetic variationDownstream transcription factorsCircadian gene expressionCommon genetic variationGenotyped single nucleotide polymorphismsCircadian rhythm genesOvarian surface epithelial cellsAlternative splicingTranscription factorsGene expressionFunctional analysisHormonal pathwaysOvarian Cancer Association ConsortiumRhythm genesGenesGenotype dataNucleotide polymorphismsSurface epithelial cellsEpithelial cellsEnvironmental factorsGranulosa cellsOvarian cancerEpithelial ovarian cancerCommon variants at the CHEK2 gene locus and risk of epithelial ovarian cancer
Lawrenson K, Iversen ES, Tyrer J, Weber RP, Concannon P, Hazelett DJ, Li Q, Marks JR, Berchuck A, Lee JM, Aben KK, Anton-Culver H, Antonenkova N, Bandera E, Bean Y, Beckmann M, Bisogna M, Bjorge L, Bogdanova N, Brinton L, Brooks-Wilson A, Bruinsma F, Butzow R, Campbell I, Carty K, Chang-Claude J, Chenevix-Trench G, Chen A, Chen Z, Cook L, Cramer D, Cunningham J, Cybulski C, Plisiecka-Halasa J, Dennis J, Dicks E, Doherty J, Dörk T, du Bois A, Eccles D, Easton D, Edwards R, Eilber U, Ekici A, Fasching P, Fridley B, Gao Y, Gentry-Maharaj A, Giles G, Glasspool R, Goode E, Goodman M, Gronwald J, Harter P, Hasmad H, Hein A, Heitz F, Hildebrandt M, Hillemanns P, Hogdall E, Hogdall C, Hosono S, Jakubowska A, Paul J, Jensen A, Karlan B, Kjaer S, Kelemen L, Kellar M, Kelley J, Kiemeney L, Krakstad C, Lambrechts D, Lambrechts S, Le N, Lee A, Cannioto R, Leminen A, Lester J, Levine D, Liang D, Lissowska J, Lu K, Lubinski J, Lundvall L, Massuger L, Matsuo K, McGuire V, McLaughlin J, Nevanlinna H, McNeish I, Menon U, Modugno F, Moysich K, Narod S, Nedergaard L, Ness R, Azmi M, Odunsi K, Olson S, Orlow I, Orsulic S, Pearce C, Pejovic T, Pelttari L, Permuth-Wey J, Phelan C, Pike M, Poole E, Ramus S, Risch H, Rosen B, Rossing M, Rothstein J, Rudolph A, Runnebaum I, Rzepecka I, Salvesen H, Budzilowska A, Sellers T, Shu X, Shvetsov Y, Siddiqui N, Sieh W, Song H, Southey M, Sucheston L, Tangen I, Teo S, Terry K, Thompson P, Timorek A, Tworoger S, Van Nieuwenhuysen E, Vergote I, Vierkant R, Wang-Gohrke S, Walsh C, Wentzensen N, Whittemore A, Wicklund K, Wilkens L, Woo Y, Wu X, Wu A, Yang H, Zheng W, Ziogas A, Coetzee G, Freedman M, Monteiro A, Moes-Sosnowska J, Kupryjanczyk J, Pharoah P, Gayther S, Schildkraut J. Common variants at the CHEK2 gene locus and risk of epithelial ovarian cancer. Carcinogenesis 2015, 36: 1341-1353. PMID: 26424751, PMCID: PMC4635670, DOI: 10.1093/carcin/bgv138.Peer-Reviewed Original ResearchConceptsGene locusCommon variantsGenome-wide association studiesAdditional risk variantsDNA repair genesCommon genetic variantsImputation of genotypesCancer Genome Atlas (TCGA) datasetFunctional annotationGenomic regionsTranscription factorsRegulatory elementsNormal fallopian tube tissuesGenome ProjectCausal variantsPrecursor tissueGene expressionSerous epithelial ovarian cancerCandidate SNPsAssociation studiesAdditional genotypingRepair genesSusceptibility genesRisk variantsGenetic variants
2014
Polymorphisms Near TBX5 and GDF7 Are Associated With Increased Risk for Barrett’s Esophagus
Palles C, Chegwidden L, Li X, Findlay JM, Farnham G, Giner F, Peppelenbosch MP, Kovac M, Adams CL, Prenen H, Briggs S, Harrison R, Sanders S, MacDonald D, Haigh C, Tucker A, Love S, Nanji M, deCaestecker J, Ferry D, Rathbone B, Hapeshi J, Barr H, Moayyedi P, Watson P, Zietek B, Maroo N, Gay L, Underwood T, Boulter L, McMurtry H, Monk D, Patel P, Ragunath K, Al Dulaimi D, Murray I, Koss K, Veitch A, Trudgill N, Nwokolo C, Rembacken B, Atherfold P, Green E, Ang Y, Kuipers EJ, Chow W, Paterson S, Kadri S, Beales I, Grimley C, Mullins P, Beckett C, Farrant M, Dixon A, Kelly S, Johnson M, Wajed S, Dhar A, Sawyer E, Roylance R, Onstad L, Gammon MD, Corley DA, Shaheen NJ, Bird NC, Hardie LJ, Reid BJ, Ye W, Liu G, Romero Y, Bernstein L, Wu AH, Casson AG, Fitzgerald R, Whiteman DC, Risch HA, Levine DM, Vaughan TL, Verhaar AP, van den Brande J, Toxopeus EL, Spaander MC, Wijnhoven BP, van der Laan LJ, Krishnadath K, Wijmenga C, Trynka G, McManus R, Reynolds JV, O’Sullivan J, MacMathuna P, McGarrigle SA, Kelleher D, Vermeire S, Cleynen I, Bisschops R, Tomlinson I, Jankowski J. Polymorphisms Near TBX5 and GDF7 Are Associated With Increased Risk for Barrett’s Esophagus. Gastroenterology 2014, 148: 367-378. PMID: 25447851, PMCID: PMC4315134, DOI: 10.1053/j.gastro.2014.10.041.Peer-Reviewed Original ResearchConceptsProtein-coding genesSingle nucleotide polymorphismsTranscription factorsBone morphogenetic protein (BMP) pathwayWide association studyFurther single nucleotide polymorphismsRisk single nucleotide polymorphismsEsophageal developmentCardiac developmentRisk lociAssociation studiesFurther lociProtein pathwayChromosome 6p21GenesNucleotide polymorphismsLociTbx5GDF7Promising variantsPolymorphismBarx1FOXF1KbCRTC1
2011
LIN28B Polymorphisms Influence Susceptibility to Epithelial Ovarian Cancer
Permuth-Wey J, Kim D, Tsai YY, Lin HY, Chen YA, Barnholtz-Sloan J, Birrer MJ, Bloom G, Chanock SJ, Chen Z, Cramer DW, Cunningham JM, Dagne G, Ebbert-Syfrett J, Fenstermacher D, Fridley BL, Garcia-Closas M, Gayther SA, Ge W, Gentry-Maharaj A, Gonzalez-Bosquet J, Goode EL, Iversen E, Jim H, Kong W, McLaughlin J, Menon U, Monteiro AN, Narod SA, Pharoah PD, Phelan CM, Qu X, Ramus SJ, Risch H, Schildkraut JM, Song H, Stockwell H, Sutphen R, Terry KL, Tyrer J, Vierkant RA, Wentzensen N, Lancaster JM, Cheng JQ, Sellers TA, Consortium O. LIN28B Polymorphisms Influence Susceptibility to Epithelial Ovarian Cancer. Cancer Research 2011, 71: 3896-3903. PMID: 21482675, PMCID: PMC3107389, DOI: 10.1158/0008-5472.can-10-4167.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAllelesCarcinoma, Ovarian EpithelialCase-Control StudiesCell Line, TumorDNA, NeoplasmDNA-Binding ProteinsFemaleGenetic Predisposition to DiseaseHumansMicroRNAsMiddle AgedNeoplasms, Glandular and EpithelialOvarian NeoplasmsPolymorphism, Single NucleotideRNA-Binding ProteinsTransfectionConceptsMiRNA biogenesis genesSingle nucleotide polymorphismsBiogenesis genesPutative transcription factorLuciferase reporter assaysMicroRNA biogenesisTranscription factorsPromoter regionTumor suppressorReporter assaysQuantitative RT-PCREOC susceptibilityGenesNucleotide polymorphismsLIN28B overexpressionLIN28B expressionLIN28B geneInfluence susceptibilityRT-PCRExpressionEpithelial ovarian cancerBiogenesisDroshaOvarian cancerFMR1