Literature DB >> 35709753

Hereditary Hemochromatosis Variant Associations with Incident Nonliver Malignancies: 11-Year Follow-up in UK Biobank.

Janice L Atkins1, Luke C Pilling1, Suzy V Torti2, Frank M Torti3, George A Kuchel4, David Melzer1.   

Abstract

BACKGROUND: In European ancestry populations, iron overload disorder hereditary hemochromatosis is predominantly caused by HFE p.C282Y and p.H63D mutations. Male p.C282Y homozygotes have markedly increased hepatic malignancy incidence, but risks for other cancers in male and female homozygotes are unclear.
METHODS: 451,143 UK Biobank European ancestry participants (aged 40-70 years; 54.3% female) were followed (mean 11.6 years) via hospital admissions and national cancer registries. We estimated risks of any incident cancer (other than nonmelanoma and liver cancer) and common incident cancers [bladder, blood (with subanalyses of leukemia and lymphoma), bone, brain, breast, colorectal, kidney, lung, melanoma, esophageal, ovarian, pancreatic, prostate and stomach] in those with p.C282Y and p.H63D genotypes, compared with participants without HFE mutations.
RESULTS: Male p.C282Y homozygotes (n = 2,890, 12.1% with baseline diagnosed hereditary hemochromatosis) had increased incidence of prostate cancer [6.8% vs. 5.4% without mutations; HR = 1.32; 95% confidence interval (CI), 1.07-1.63; P = 0.01; Bonferroni adjusted P = 0.17] during follow-up. In life table estimates from ages 40 to 75 years, 14.4% of male p.C282Y homozygotes are projected to develop prostate cancer (versus 10.7% without mutations, excess 3.8%; 95% CI, 1.3-6.8). No increases in risks were found for other studied cancers in male or female p.C282Y homozygotes, or in any other p.C282Y/p.H63D genotype groups of either sex.
CONCLUSIONS: In a large community sample of male p.C282Y homozygotes, there is suggestive evidence of increased prostate cancer incidence, with no evidence of excess of other studied (nonliver) cancers. IMPACT: Replication of results in other large community genotyped cohorts are needed to confirm if clinical monitoring for prostate cancer is necessary in p.C282Y homozygous males. ©2022 American Association for Cancer Research.

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Year:  2022        PMID: 35709753      PMCID: PMC9444929          DOI: 10.1158/1055-9965.EPI-22-0284

Source DB:  PubMed          Journal:  Cancer Epidemiol Biomarkers Prev        ISSN: 1055-9965            Impact factor:   4.090


  22 in total

1.  Plasma ferritin levels, HFE polymorphisms, and risk of pancreatic cancer among Chinese Han population.

Authors:  Zhiming Zhao; Chenggang Li; Minggeng Hu; Jidong Li; Rong Liu
Journal:  Tumour Biol       Date:  2014-05-06

2.  Hemochromatosis gene mutations among Finnish male breast and prostate cancer patients.

Authors:  Kirsi Syrjäkoski; Henna Fredriksson; Tarja Ikonen; Tuula Kuukasjärvi; Ville Autio; Mika P Matikainen; Teuvo L J Tammela; Pasi A Koivisto; Johanna Schleutker
Journal:  Int J Cancer       Date:  2006-01-15       Impact factor: 7.396

3.  Risk factors for pancreatic cancer: an exploratory study.

Authors:  G D Friedman; S K van den Eeden
Journal:  Int J Epidemiol       Date:  1993-02       Impact factor: 7.196

4.  Gender-related variations in iron metabolism and liver diseases.

Authors:  Duygu D Harrison-Findik
Journal:  World J Hepatol       Date:  2010-08-27

5.  HFE C282Y homozygotes are at increased risk of breast and colorectal cancer.

Authors:  Nicholas J Osborne; Lyle C Gurrin; Katrina J Allen; Clare C Constantine; Martin B Delatycki; Christine E McLaren; Dorota M Gertig; Gregory J Anderson; Melissa C Southey; John K Olynyk; Lawrie W Powell; John L Hopper; Graham G Giles; Dallas R English
Journal:  Hepatology       Date:  2010-04       Impact factor: 17.425

Review 6.  Iron and Cancer: 2020 Vision.

Authors:  Suzy V Torti; Frank M Torti
Journal:  Cancer Res       Date:  2020-09-14       Impact factor: 12.701

7.  Hemochromatosis, Iron Overload-Related Diseases, and Pancreatic Cancer Risk in the Surveillance, Epidemiology, and End Results (SEER)-Medicare.

Authors:  Sachelly Julián-Serrano; Fangcheng Yuan; Michael J Barrett; Ruth M Pfeiffer; Rachael Z Stolzenberg-Solomon
Journal:  Cancer Epidemiol Biomarkers Prev       Date:  2021-09-03       Impact factor: 4.090

8.  Common conditions associated with hereditary haemochromatosis genetic variants: cohort study in UK Biobank.

Authors:  Luke C Pilling; Jone Tamosauskaite; Garan Jones; Andrew R Wood; Lindsay Jones; Chai-Ling Kuo; George A Kuchel; Luigi Ferrucci; David Melzer
Journal:  BMJ       Date:  2019-01-16

9.  Iron metabolism and risk of cancer in the Swedish AMORIS study.

Authors:  Anjali Gaur; Helen Collins; Wahyu Wulaningsih; Lars Holmberg; Hans Garmo; Niklas Hammar; Göran Walldius; Ingmar Jungner; Mieke Van Hemelrijck
Journal:  Cancer Causes Control       Date:  2013-05-07       Impact factor: 2.506

10.  Exome sequencing and characterization of 49,960 individuals in the UK Biobank.

Authors:  Cristopher V Van Hout; Ioanna Tachmazidou; Joshua D Backman; Joshua D Hoffman; Daren Liu; Ashutosh K Pandey; Claudia Gonzaga-Jauregui; Shareef Khalid; Bin Ye; Nilanjana Banerjee; Alexander H Li; Colm O'Dushlaine; Anthony Marcketta; Jeffrey Staples; Claudia Schurmann; Alicia Hawes; Evan Maxwell; Leland Barnard; Alexander Lopez; John Penn; Lukas Habegger; Andrew L Blumenfeld; Xiaodong Bai; Sean O'Keeffe; Ashish Yadav; Kavita Praveen; Marcus Jones; William J Salerno; Wendy K Chung; Ida Surakka; Cristen J Willer; Kristian Hveem; Joseph B Leader; David J Carey; David H Ledbetter; Lon Cardon; George D Yancopoulos; Aris Economides; Giovanni Coppola; Alan R Shuldiner; Suganthi Balasubramanian; Michael Cantor; Matthew R Nelson; John Whittaker; Jeffrey G Reid; Jonathan Marchini; John D Overton; Robert A Scott; Gonçalo R Abecasis; Laura Yerges-Armstrong; Aris Baras
Journal:  Nature       Date:  2020-10-21       Impact factor: 69.504
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