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Grant Details

Grant Number: 1R01CA122838-01A2 Interpret this number
Primary Investigator: Han, Jiali
Organization: Brigham And Women'S Hospital
Project Title: Cohort Study of Genetic Susceptibility to Cutaneous Malignant Melanoma
Fiscal Year: 2008


Abstract

DESCRIPTION (provided by applicant): Biologic evidence indicates that the repair of ultraviolet-induced DNA damage plays a critical role in protecting against melanoma; however, epidemiologic data are limited due to a limited number of genes and polymorphisms examined in initial studies with small sample sizes. The importance of common inherited variants in the relevant pathways and their interactions with UV exposure history in causing melanoma is largely unknown. We propose to evaluate several new hypotheses and also to extend our previous work to examine in detail the genetic variants in nucleotide excision repair genes, candidate chromatin modifiers involved in nucleotide excision repair, and base excision repair genes in relation to melanoma risk in US Caucasians. Many of them have not been evaluated previously with melanoma risk. No previous studies examined the interactions of these genes with UV exposure history. Using a nested case-control design, we will include 1120 pathologically confirmed melanoma cases and 1120 matched controls who provided blood or cheek cell samples from three large well-characterized cohorts, the Nurses Health Study, Nurses Health Study II, and the Health Professional Follow-up Study. We will systematically survey common genetic variation at each locus using two complementary approaches; 1) evaluating SNPs with potential functional relevance and 2) choosing tag-SNPs to test for associations of unknown common functional variants with melanoma risk. We will also perform exploratory pathway analyses, potentially incorporating information on the biological function of the genes and polymorphisms. In addition, we will assess the interactions between these genetic variants and intermittent UV exposure history, i.e. sun exposure while wearing a bathing suit and indoor tanning device usage, on melanoma risk. This innovative work will move this field forward, by systematically evaluating these common variants using these complementary approaches. This proposal will take advantage of the research opportunities nested within the existing well-characterized cohorts, including cohort characteristics, quality of design, high follow-up rate, large sample size, prospective host factor assessment, and high response rate of retrospective questionnaires. Our proposal will also take advantage of the previously identified and confirmed cases of melanoma as well as stored bio-specimens. This research will contribute to the scientific basis for identifying individuals at high risk for melanoma and providing individualized risk management strategies. Biologic evidence indicates that the repair of ultraviolet-induced DNA damage plays a critical role in protecting against melanoma; however, epidemiologic data are limited due to a limited number of genes and polymorphisms examined in initial studies with small sample sizes. We propose to examine in detail the genetic variants in nucleotide excision repair genes, candidate chromatin modifiers involved in nucleotide excision repair, and base excision repair genes in relation to melanoma risk in 1120 pathologically confirmed melanoma cases and 1120 matched controls who provided blood or cheek cell samples from three large well-characterized cohorts. This research will contribute to the scientific basis for identifying individuals at high risk for melanoma and providing individualized risk management strategies. Biologic evidence indicates that the repair of ultraviolet-induced DNA damage plays a critical role in protecting against melanoma; however, epidemiologic data are limited due to a limited number of genes and polymorphisms examined in initial studies with small sample sizes. The importance of common inherited variants in the relevant pathways and their interactions with UV exposure history in causing melanoma is largely unknown. We propose to evaluate several new hypotheses and also to extend our previous work to examine in detail the genetic variants in nucleotide excision repair genes, candidate chromatin modifiers involved in nucleotide excision repair, and base excision repair genes in relation to melanoma risk in US Caucasians. Many of them have not been evaluated previously with melanoma risk. No previous studies examined the interactions of these genes with UV exposure history. Using a nested case-control design, we will include 1120 pathologically confirmed melanoma cases and 1120 matched controls who provided blood or cheek cell samples from three large well-characterized cohorts, the Nurses Health Study, Nurses Health Study II, and the Health Professional Follow-up Study. We will systematically survey common genetic variation at each locus using two complementary approaches; 1) evaluating SNPs with potential functional relevance and 2) choosing tag-SNPs to test for associations of unknown common functional variants with melanoma risk. We will also perform exploratory pathway analyses, potentially incorporating information on the biological function of the genes and polymorphisms. In addition, we will assess the interactions between these genetic variants and intermittent UV exposure history, i.e. sun exposure while wearing a bathing suit and indoor tanning device usage, on melanoma risk. This innovative work will move this field forward, by systematically evaluating these common variants using these complementary approaches. This proposal will take advantage of the research opportunities nested within the existing well-characterized cohorts, including cohort characteristics, quality of design, high follow-up rate, large sample size, prospective host factor assessment, and high response rate of retrospective questionnaires. Our proposal will also take advantage of the previously identified and confirmed cases of melanoma as well as stored bio-specimens. This research will contribute to the scientific basis for identifying individuals at high risk for melanoma and providing individualized risk management strategies. Project Narrative: Biologic evidence indicates that the repair of ultraviolet-induced DNA damage plays a critical role in protecting against melanoma; however, epidemiologic data are limited due to a limited number of genes and polymorphisms examined in initial studies with small sample sizes. We propose to examine in detail the genetic variants in nucleotide excision repair genes, candidate chromatin modifiers involved in nucleotide excision repair, and base excision repair genes in relation to melanoma risk in 1120 pathologically confirmed melanoma cases and 1120 matched controls who provided blood or cheek cell samples from three large well-characterized cohorts. This research will contribute to the scientific basis for identifying individuals at high risk for melanoma and providing individualized risk management strategies.



Publications

Genome-wide association meta-analyses combining multiple risk phenotypes provide insights into the genetic architecture of cutaneous melanoma susceptibility.
Authors: Landi M.T. , Bishop D.T. , MacGregor S. , Machiela M.J. , Stratigos A.J. , Ghiorzo P. , Brossard M. , Calista D. , Choi J. , Fargnoli M.C. , et al. .
Source: Nature Genetics, 2020 May; 52(5), p. 494-504.
EPub date: 2020-04-27 00:00:00.0.
PMID: 32341527
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Genome-Wide Association Studies of Multiple Keratinocyte Cancers.
Authors: Pardo L.M. , Li W.Q. , Hwang S.J. , Verkouteren J.A. , Hofman A. , Uitterlinden A.G. , Kraft P. , Turman C. , Han J. , Cho E. , et al. .
Source: Plos One, 2017; 12(1), p. e0169873.
EPub date: 2017-01-12 00:00:00.0.
PMID: 28081215
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A Genome-Wide Association Study of Cutaneous Squamous Cell Carcinoma among European Descendants.
Authors: Siiskonen S.J. , Zhang M. , Li W.Q. , Liang L. , Kraft P. , Nijsten T. , Han J. , Qureshi A.A. .
Source: Cancer Epidemiology, Biomarkers & Prevention : A Publication Of The American Association For Cancer Research, Cosponsored By The American Society Of Preventive Oncology, 2016 04; 25(4), p. 714-20.
PMID: 26908436
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Genome-wide meta-analysis identifies five new susceptibility loci for cutaneous malignant melanoma.
Authors: Law M.H. , Bishop D.T. , Lee J.E. , Brossard M. , Martin N.G. , Moses E.K. , Song F. , Barrett J.H. , Kumar R. , Easton D.F. , et al. .
Source: Nature Genetics, 2015 Sep; 47(9), p. 987-95.
PMID: 26237428
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Pleiotropic and sex-specific effects of cancer GWAS SNPs on melanoma risk in the population architecture using genomics and epidemiology (PAGE) study.
Authors: Kocarnik J.M. , Park S.L. , Han J. , Dumitrescu L. , Cheng I. , Wilkens L.R. , Schumacher F.R. , Kolonel L. , Carlson C.S. , Crawford D.C. , et al. .
Source: Plos One, 2015; 10(3), p. e0120491.
EPub date: 2015-03-19 00:00:00.0.
PMID: 25789475
Related Citations

Identification Of A Melanoma Susceptibility Locus And Somatic Mutation In Tet2
Authors: Song F. , Amos C.I. , Lee J.E. , Lian C.G. , Fang S. , Liu H. , MacGregor S. , Iles M.M. , Law M.H. , Lindeman N.I. , et al. .
Source: Carcinogenesis, 2014 Sep; 35(9), p. 2097-101.
PMID: 24980573
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Replication Of Associations Between Gwas Snps And Melanoma Risk In The Population Architecture Using Genomics And Epidemiology (page) Study
Authors: Kocarnik J.M. , Park S.L. , Han J. , Dumitrescu L. , Cheng I. , Wilkens L.R. , Schumacher F.R. , Kolonel L. , Carlson C.S. , Crawford D.C. , et al. .
Source: The Journal Of Investigative Dermatology, 2014 Jul; 134(7), p. 2049-52.
PMID: 24480881
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A Genome-wide Association Study Of Severe Teenage Acne In European Americans
Authors: Zhang M. , Qureshi A.A. , Hunter D.J. , Han J. .
Source: Human Genetics, 2014 Mar; 133(3), p. 259-64.
PMID: 24114350
Related Citations

Genome-wide Association Studies Identify Several New Loci Associated With Pigmentation Traits And Skin Cancer Risk In European Americans
Authors: Zhang M. , Song F. , Liang L. , Nan H. , Zhang J. , Liu H. , Wang L.E. , Wei Q. , Lee J.E. , Amos C.I. , et al. .
Source: Human Molecular Genetics, 2013-07-15 00:00:00.0; 22(14), p. 2948-59.
PMID: 23548203
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Genetically Determined Abcb5 Functionality Correlates With Pigmentation Phenotype And Melanoma Risk
Authors: Lin J.Y. , Zhang M. , Schatton T. , Wilson B.J. , Alloo A. , Ma J. , Qureshi A.A. , Frank N.Y. , Han J. , Frank M.H. .
Source: Biochemical And Biophysical Research Communications, 2013-07-05 00:00:00.0; 436(3), p. 536-42.
PMID: 23770371
Related Citations

Obesity-related Genetic Variants, Human Pigmentation, And Risk Of Melanoma
Authors: Li X. , Liang L. , Zhang M. , Song F. , Nan H. , Wang L.E. , Wei Q. , Lee J.E. , Amos C.I. , Qureshi A.A. , et al. .
Source: Human Genetics, 2013 Jul; 132(7), p. 793-801.
PMID: 23539184
Related Citations

Association between putative functional variants in the PSMB9 gene and risk of melanoma--re-analysis of published melanoma genome-wide association studies.
Authors: Qian J. , Liu H. , Wei S. , Liu Z. , Li Y. , Wang L.E. , Chen W.V. , Amos C.I. , Lee J.E. , GenoMEL investigators , et al. .
Source: Pigment Cell & Melanoma Research, 2013 May; 26(3), p. 392-401.
PMID: 23360169
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Association between functional polymorphisms in genes involved in the MAPK signaling pathways and cutaneous melanoma risk.
Authors: Liu H. , Wang L.E. , Liu Z. , Chen W.V. , Amos C.I. , Lee J.E. , Q-MEGA and AMFS Investigators , GenoMEL Investigators , Iles M.M. , Law M.H. , et al. .
Source: Carcinogenesis, 2013 Apr; 34(4), p. 885-92.
PMID: 23291271
Related Citations

A variant in FTO shows association with melanoma risk not due to BMI.
Authors: Iles M.M. , Law M.H. , Stacey S.N. , Han J. , Fang S. , Pfeiffer R. , Harland M. , Macgregor S. , Taylor J.C. , Aben K.K. , et al. .
Source: Nature Genetics, 2013 Apr; 45(4), p. 428-32, 432e1.
PMID: 23455637
Related Citations

Integrating Pathway Analysis And Genetics Of Gene Expression For Genome-wide Association Study Of Basal Cell Carcinoma
Authors: Zhang M. , Liang L. , Morar N. , Dixon A.L. , Lathrop G.M. , Ding J. , Moffatt M.F. , Cookson W.O. , Kraft P. , Qureshi A.A. , et al. .
Source: Human Genetics, 2012 Apr; 131(4), p. 615-23.
PMID: 22006220
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Exonuclease 1 (exo1) Gene Variation And Melanoma Risk
Authors: Song F. , Qureshi A.A. , Zhang J. , Zhan J. , Amos C.I. , Lee J.E. , Wei Q. , Han J. .
Source: Dna Repair, 2012-03-01 00:00:00.0; 11(3), p. 304-9.
PMID: 22230721
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Meta-analysis combining new and existing data sets confirms that the TERT-CLPTM1L locus influences melanoma risk.
Authors: Law M.H. , Montgomery G.W. , Brown K.M. , Martin N.G. , Mann G.J. , Hayward N.K. , MacGregor S. , Q-MEGA and AMFS Investigators .
Source: The Journal Of Investigative Dermatology, 2012 Feb; 132(2), p. 485-7.
PMID: 21993562
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No Association Between Parkinson Disease Alleles And The Risk Of Melanoma
Authors: Meng S. , Song F. , Chen H. , Gao X. , Amos C.I. , Lee J.E. , Wei Q. , Qureshi A.A. , Han J. .
Source: Cancer Epidemiology, Biomarkers & Prevention : A Publication Of The American Association For Cancer Research, Cosponsored By The American Society Of Preventive Oncology, 2012 Jan; 21(1), p. 243-5.
PMID: 22086882
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Shorter Telomeres Associate With A Reduced Risk Of Melanoma Development
Authors: Nan H. , Du M. , De Vivo I. , Manson J.E. , Liu S. , McTiernan A. , Curb J.D. , Lessin L.S. , Bonner M.R. , Guo Q. , et al. .
Source: Cancer Research, 2011-11-01 00:00:00.0; 71(21), p. 6758-63.
PMID: 22028319
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Genome-wide association study identifies a new melanoma susceptibility locus at 1q21.3.
Authors: Macgregor S. , Montgomery G.W. , Liu J.Z. , Zhao Z.Z. , Henders A.K. , Stark M. , Schmid H. , Holland E.A. , Duffy D.L. , Zhang M. , et al. .
Source: Nature Genetics, 2011-10-09 00:00:00.0; 43(11), p. 1114-8.
EPub date: 2011-10-09 00:00:00.0.
PMID: 21983785
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Genome-wide association study identifies three new melanoma susceptibility loci.
Authors: Barrett J.H. , Iles M.M. , Harland M. , Taylor J.C. , Aitken J.F. , Andresen P.A. , Akslen L.A. , Armstrong B.K. , Avril M.F. , Azizi E. , et al. .
Source: Nature Genetics, 2011-10-09 00:00:00.0; 43(11), p. 1108-13.
EPub date: 2011-10-09 00:00:00.0.
PMID: 21983787
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Genome-wide Association Study Identifies Novel Alleles Associated With Risk Of Cutaneous Basal Cell Carcinoma And Squamous Cell Carcinoma
Authors: Nan H. , Xu M. , Kraft P. , Qureshi A.A. , Chen C. , Guo Q. , Hu F.B. , Curhan G. , Amos C.I. , Wang L.E. , et al. .
Source: Human Molecular Genetics, 2011-09-15 00:00:00.0; 20(18), p. 3718-24.
PMID: 21700618
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Genome-wide Association Study Identifies Nidogen 1 (nid1) As A Susceptibility Locus To Cutaneous Nevi And Melanoma Risk
Authors: Nan H. , Xu M. , Zhang J. , Zhang M. , Kraft P. , Qureshi A.A. , Chen C. , Guo Q. , Hu F.B. , Rimm E.B. , et al. .
Source: Human Molecular Genetics, 2011-07-01 00:00:00.0; 20(13), p. 2673-9.
PMID: 21478494
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Genetic Variants In Telomere-maintaining Genes And Skin Cancer Risk
Authors: Nan H. , Qureshi A.A. , Prescott J. , De Vivo I. , Han J. .
Source: Human Genetics, 2011 Mar; 129(3), p. 247-53.
PMID: 21116649
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Asip Genetic Variants And The Number Of Non-melanoma Skin Cancers
Authors: Lin W. , Qureshi A.A. , Kraft P. , Nan H. , Guo Q. , Hu F.B. , Jensen M.K. , Han J. .
Source: Cancer Causes & Control : Ccc, 2011 Mar; 22(3), p. 495-501.
PMID: 21221757
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A Germline Variant In The Interferon Regulatory Factor 4 Gene As A Novel Skin Cancer Risk Locus
Authors: Han J. , Qureshi A.A. , Nan H. , Zhang J. , Song Y. , Guo Q. , Hunter D.J. .
Source: Cancer Research, 2011-03-01 00:00:00.0; 71(5), p. 1533-9.
PMID: 21270109
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Genetic Variation In Dna Repair Pathway Genes And Melanoma Risk
Authors: Zhang M. , Qureshi A.A. , Guo Q. , Han J. .
Source: Dna Repair, 2011-01-02 00:00:00.0; 10(1), p. 111-6.
PMID: 20837404
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Genetic Variants In The 53bp1 Gene And Skin Cancer Risk
Authors: He C. , Nan H. , Qureshi A.A. , Han J. .
Source: The Journal Of Investigative Dermatology, 2010 Dec; 130(12), p. 2850-3.
PMID: 20686496
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Polymorphisms In Genes Involved In Oxidative Stress And Their Interactions With Lifestyle Factors On Skin Cancer Risk
Authors: He C. , Qureshi A.A. , Han J. .
Source: Journal Of Dermatological Science, 2010 Oct; 60(1), p. 54-6.
PMID: 20727719
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Polymorphisms Of Fas And Fas Ligand Genes And Risk Of Skin Cancer
Authors: Qureshi A. , Nan H. , Dyer M. , Han J. .
Source: Journal Of Dermatological Science, 2010 Apr; 58(1), p. 78-80.
PMID: 20219325
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Melanoma Susceptibility Variants On Chromosome 20q11.22 Are Associated With Pigmentary Traits And The Risk Of Nonmelanoma Skin Cancer
Authors: Nan H. , Qureshi A.A. , Han J. .
Source: The British Journal Of Dermatology, 2010-02-01 00:00:00.0; 162(2), p. 461-3.
PMID: 19995372
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Abo Blood Group And Incidence Of Skin Cancer
Authors: Xie J. , Qureshi A.A. , Li Y. , Han J. .
Source: Plos One, 2010; 5(8), p. e11972.
PMID: 20694147
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Genome-wide Association Study Of Tanning Phenotype In A Population Of European Ancestry
Authors: Nan H. , Kraft P. , Qureshi A.A. , Guo Q. , Chen C. , Hankinson S.E. , Hu F.B. , Thomas G. , Hoover R.N. , Chanock S. , et al. .
Source: The Journal Of Investigative Dermatology, 2009 Sep; 129(9), p. 2250-7.
PMID: 19340012
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Polymorphisms In Genes Involved In Dna Repair, Cell Growth, Oxidative Stress And Inflammatory Response, And Melanoma Risk
Authors: Gu F. , Qureshi A.A. , Kraft P. , Guo Q. , Hunter D.J. , Han J. .
Source: The British Journal Of Dermatology, 2009 Jul; 161(1), p. 209-12.
PMID: 19438866
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A Functional Snp In The Mdm2 Promoter, Pigmentary Phenotypes, And Risk Of Skin Cancer
Authors: Nan H. , Qureshi A.A. , Hunter D.J. , Han J. .
Source: Cancer Causes & Control : Ccc, 2009 Mar; 20(2), p. 171-9.
PMID: 18814047
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Genetic Variants In Fgfr2 And Fgfr4 Genes And Skin Cancer Risk In The Nurses' Health Study
Authors: Nan H. , Qureshi A.A. , Hunter D.J. , Han J. .
Source: Bmc Cancer, 2009; 9, p. 172.
PMID: 19500394
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Missense Polymorphisms In Matrix Metalloproteinase Genes And Skin Cancer Risk
Authors: Nan H. , Niu T. , Hunter D.J. , Han J. .
Source: Cancer Epidemiology, Biomarkers & Prevention : A Publication Of The American Association For Cancer Research, Cosponsored By The American Society Of Preventive Oncology, 2008 Dec; 17(12), p. 3551-7.
PMID: 19064570
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