Genetic Polymorphisms in the One-carbon Metabolism Pathway and Breast Cancer Risk: a Population-based Case-control Study and Meta-analyses

Overview

Journal Int J Cancer

Specialty Oncology

Date 2007 Feb 22

PMID 17311260

Citations 52

Authors

Jolanta Lissowska

Mia M Gaudet

Louise A Brinton

Stephen J Chanock

Beata Peplonska

Robert Welch

Witold Zatonski

Neonila Szeszenia-Dabrowska

Sue Park

Mark Sherman

Montserrat Garcia-Closas

Affiliations

Soon will be listed here.

Abstract

Epidemiological evidence suggests that intake of folate and other B-vitamins and genetic variants in the one-carbon metabolism pathway could influence the risk of breast cancer. Previous studies have focused on 2 polymorphisms in the methylenetetrahydrofolate gene (MTHFR A222V and E429A); however, findings are inconclusive. In a large population-based case-control study in Poland (2,386 cases, 2,502 controls), we investigated the association between breast cancer risk and 13 polymorphisms in 6 one-carbon metabolism genes (MTHFR, MTR, MTRR, CBS, SHMT1 and SLC19A1). Data suggested an association between a nonsynonymous change in the gene coding for methionine synthase (MTR D919G) and reduced breast cancer risk: OR (95% CI) = 0.84 (0.73-0.96) and 0.85 (0.62-1.15) for heterozygous and homozygote variant genotypes, respectively, compared with common homozygotes; p-trend = 0.01, false discovery rate = 0.14. We found no significant associations between other variants and breast cancer risk, including MTHFR A222V or E429A. Meta-analyses including published studies of MTHFR A222V (8,330 cases and 10,825 controls) and E429A (6,521 cases and 8,515 controls) supported the lack of an overall association; however, studies suggested an increase in risk among premenopausal women. In conclusion, this report does not support a substantial overall association between the evaluated polymorphisms in the one-carbon metabolism pathway and breast cancer risk.

Citing Articles

Associations of one-carbon metabolism-related gene polymorphisms with breast cancer risk are modulated by diet, being higher when adherence to the Mediterranean dietary pattern is low.

Cao S, Zhu Z, Zhou J, Li W, Dong Y, Qian Y Breast Cancer Res Treat. 2021; 187(3):793-804.

PMID: 33599865 DOI: 10.1007/s10549-021-06108-8.

Gene Polymorphisms Involved in Folate Metabolism and DNA Methylation with the Risk of Head and Neck Cancer.

de Castro T, Rodrigues-Fleming G, Garcia de Oliveira-Cucolo J, Silva J, Silva F, Raposo L Asian Pac J Cancer Prev. 2020; 21(12):3751-3759.

PMID: 33369477 PMC: 8046294. DOI: 10.31557/APJCP.2020.21.12.3751.

Impact of Gene-Environment Interactions on Cancer Development.

Mbemi A, Khanna S, Njiki S, Yedjou C, Tchounwou P Int J Environ Res Public Health. 2020; 17(21).

PMID: 33153024 PMC: 7662361. DOI: 10.3390/ijerph17218089.

Oxidative Stress and Polymorphism in SNPs (677 and 1298) in Paternal Sperm DNA is Associated with an Increased Risk of Retinoblastoma in Their Children: A Case-Control Study.

Bisht S, Chawla B, Dada R J Pediatr Genet. 2018; 7(3):103-113.

PMID: 30105117 PMC: 6087474. DOI: 10.1055/s-0038-1667037.

Gene-Metabolite Interaction in the One Carbon Metabolism Pathway: Predictors of Colorectal Cancer in Multi-Ethnic Families.

Shiao S, Grayson J, Yu C J Pers Med. 2018; 8(3).

PMID: 30082654 PMC: 6164460. DOI: 10.3390/jpm8030026.