Literature DB >> 34497089

Integrating Genome and Methylome Data to Identify Candidate DNA Methylation Biomarkers for Pancreatic Cancer Risk.

Jingjing Zhu1, Yaohua Yang2, John B Kisiel3, Douglas W Mahoney4, Dominique S Michaud5, Xingyi Guo2, William R Taylor3, Xiao-Ou Shu2, Xiang Shu2, Duo Liu1,6, Bingshan Li7,8, Ran Tao8,9, Qiuyin Cai2, Wei Zheng2, Jirong Long10, Lang Wu11.   

Abstract

BACKGROUND: The role of methylation in pancreatic cancer risk remains unclear. We integrated genome and methylome data to identify CpG sites (CpG) with the genetically predicted methylation to be associated with pancreatic cancer risk. We also studied gene expression to understand the identified associations.
METHODS: Using genetic data and white blood cell methylation data from 1,595 subjects of European descent, we built genetic models to predict DNA methylation levels. After internal and external validation, we applied prediction models with satisfactory performance to the genetic data of 8,280 pancreatic cancer cases and 6,728 controls of European ancestry to investigate the associations of predicted methylation with pancreatic cancer risk. For associated CpGs, we compared their measured levels in pancreatic tumor versus benign tissue.
RESULTS: We identified 45 CpGs at nine loci showing an association with pancreatic cancer risk, including 15 CpGs showing an association independent from identified risk variants. We observed significant correlations between predicted methylation of 16 of the 45 CpGs and predicted expression of eight adjacent genes, of which six genes showed associations with pancreatic cancer risk. Of the 45 CpGs, we were able to compare measured methylation of 16 in pancreatic tumor versus benign pancreatic tissue. Of them, six showed differentiated methylation.
CONCLUSIONS: We identified methylation biomarker candidates associated with pancreatic cancer using genetic instruments and added additional insights into the role of methylation in regulating gene expression in pancreatic cancer development. IMPACT: A comprehensive study using genetic instruments identifies 45 CpG sites at nine genomic loci for pancreatic cancer risk. ©2021 American Association for Cancer Research.

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Year:  2021        PMID: 34497089      PMCID: PMC8568683          DOI: 10.1158/1055-9965.EPI-21-0400

Source DB:  PubMed          Journal:  Cancer Epidemiol Biomarkers Prev        ISSN: 1055-9965            Impact factor:   4.254


  42 in total

1.  Projecting cancer incidence and deaths to 2030: the unexpected burden of thyroid, liver, and pancreas cancers in the United States.

Authors:  Lola Rahib; Benjamin D Smith; Rhonda Aizenberg; Allison B Rosenzweig; Julie M Fleshman; Lynn M Matrisian
Journal:  Cancer Res       Date:  2014-06-01       Impact factor: 12.701

2.  Unexpected distribution of CA19.9 and other type 1 chain Lewis antigens in normal and cancer tissues of colon and pancreas: Importance of the detection method and role of glycosyltransferase regulation.

Authors:  Adele Aronica; Laura Avagliano; Anna Caretti; Delfina Tosi; Gaetano Pietro Bulfamante; Marco Trinchera
Journal:  Biochim Biophys Acta Gen Subj       Date:  2016-08-14       Impact factor: 3.770

3.  ABO blood group and the risk of pancreatic cancer.

Authors:  Brian M Wolpin; Andrew T Chan; Patricia Hartge; Stephen J Chanock; Peter Kraft; David J Hunter; Edward L Giovannucci; Charles S Fuchs
Journal:  J Natl Cancer Inst       Date:  2009-03-10       Impact factor: 13.506

4.  SERPINB5 Promoter Hypomethylation Differentiates Pancreatic Ductal Adenocarcinoma From Pancreatitis.

Authors:  Wolf Arif Mardin; Dimitris Ntalos; Soeren Torge Mees; Tilmann Spieker; Norbert Senninger; Joerg Haier; Sameer A Dhayat
Journal:  Pancreas       Date:  2016 May-Jun       Impact factor: 3.327

5.  Survey of the Heritability and Sparse Architecture of Gene Expression Traits across Human Tissues.

Authors:  Heather E Wheeler; Kaanan P Shah; Jonathon Brenner; Tzintzuni Garcia; Keston Aquino-Michaels; Nancy J Cox; Dan L Nicolae; Hae Kyung Im
Journal:  PLoS Genet       Date:  2016-11-11       Impact factor: 5.917

6.  Pleiotropic Effects of Trait-Associated Genetic Variation on DNA Methylation: Utility for Refining GWAS Loci.

Authors:  Eilis Hannon; Mike Weedon; Nicholas Bray; Michael O'Donovan; Jonathan Mill
Journal:  Am J Hum Genet       Date:  2017-05-18       Impact factor: 11.025

7.  A gene-based association method for mapping traits using reference transcriptome data.

Authors:  Eric R Gamazon; Heather E Wheeler; Kaanan P Shah; Sahar V Mozaffari; Keston Aquino-Michaels; Robert J Carroll; Anne E Eyler; Joshua C Denny; Dan L Nicolae; Nancy J Cox; Hae Kyung Im
Journal:  Nat Genet       Date:  2015-08-10       Impact factor: 38.330

8.  Contribution of genetic variation to transgenerational inheritance of DNA methylation.

Authors:  Allan F McRae; Joseph E Powell; Anjali K Henders; Lisa Bowdler; Gibran Hemani; Sonia Shah; Jodie N Painter; Nicholas G Martin; Peter M Visscher; Grant W Montgomery
Journal:  Genome Biol       Date:  2014-05-29       Impact factor: 13.583

9.  Genome-wide association study identifies multiple susceptibility loci for pancreatic cancer.

Authors:  Brian M Wolpin; Cosmeri Rizzato; Peter Kraft; Charles Kooperberg; Gloria M Petersen; Zhaoming Wang; Alan A Arslan; Laura Beane-Freeman; Paige M Bracci; Julie Buring; Federico Canzian; Eric J Duell; Steven Gallinger; Graham G Giles; Gary E Goodman; Phyllis J Goodman; Eric J Jacobs; Aruna Kamineni; Alison P Klein; Laurence N Kolonel; Matthew H Kulke; Donghui Li; Núria Malats; Sara H Olson; Harvey A Risch; Howard D Sesso; Kala Visvanathan; Emily White; Wei Zheng; Christian C Abnet; Demetrius Albanes; Gabriella Andreotti; Melissa A Austin; Richard Barfield; Daniela Basso; Sonja I Berndt; Marie-Christine Boutron-Ruault; Michelle Brotzman; Markus W Büchler; H Bas Bueno-de-Mesquita; Peter Bugert; Laurie Burdette; Daniele Campa; Neil E Caporaso; Gabriele Capurso; Charles Chung; Michelle Cotterchio; Eithne Costello; Joanne Elena; Niccola Funel; J Michael Gaziano; Nathalia A Giese; Edward L Giovannucci; Michael Goggins; Megan J Gorman; Myron Gross; Christopher A Haiman; Manal Hassan; Kathy J Helzlsouer; Brian E Henderson; Elizabeth A Holly; Nan Hu; David J Hunter; Federico Innocenti; Mazda Jenab; Rudolf Kaaks; Timothy J Key; Kay-Tee Khaw; Eric A Klein; Manolis Kogevinas; Vittorio Krogh; Juozas Kupcinskas; Robert C Kurtz; Andrea LaCroix; Maria T Landi; Stefano Landi; Loic Le Marchand; Andrea Mambrini; Satu Mannisto; Roger L Milne; Yusuke Nakamura; Ann L Oberg; Kouros Owzar; Alpa V Patel; Petra H M Peeters; Ulrike Peters; Raffaele Pezzilli; Ada Piepoli; Miquel Porta; Francisco X Real; Elio Riboli; Nathaniel Rothman; Aldo Scarpa; Xiao-Ou Shu; Debra T Silverman; Pavel Soucek; Malin Sund; Renata Talar-Wojnarowska; Philip R Taylor; George E Theodoropoulos; Mark Thornquist; Anne Tjønneland; Geoffrey S Tobias; Dimitrios Trichopoulos; Pavel Vodicka; Jean Wactawski-Wende; Nicolas Wentzensen; Chen Wu; Herbert Yu; Kai Yu; Anne Zeleniuch-Jacquotte; Robert Hoover; Patricia Hartge; Charles Fuchs; Stephen J Chanock; Rachael S Stolzenberg-Solomon; Laufey T Amundadottir
Journal:  Nat Genet       Date:  2014-08-03       Impact factor: 41.307

10.  HYAL2 methylation in peripheral blood as a potential marker for the detection of pancreatic cancer: a case control study.

Authors:  Sarah Schott; Rongxi Yang; Sarah Stöcker; Federico Canzian; Nathalia Giese; Peter Bugert; Frank Bergmann; Oliver Strobel; Thilo Hackert; Christof Sohn; Barbara Burwinkel
Journal:  Oncotarget       Date:  2017-06-27
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  1 in total

Review 1.  Is Cell-Free DNA Testing in Pancreatic Ductal Adenocarcinoma Ready for Prime Time?

Authors:  Ankur Sheel; Sarah Addison; Surya Pratik Nuguru; Ashish Manne
Journal:  Cancers (Basel)       Date:  2022-07-15       Impact factor: 6.575
  1 in total

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