Folate and DNA Methylation: A Mechanistic Link between Folate Deficiency and Colorectal Cancer?

Translational Cancer Medicine 2008: Cancer Clinical Trials and Personalized Medicine

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Folate and DNA Methylation: A Mechanistic Link between Folate Deficiency and Colorectal Cancer?

Young-In Kim

Departments of Medicine and Nutritional Sciences, University of Toronto, Toronto, ON, Canada and Division of Gastroenterology, St. Michael's Hospital, Toronto, ON, Canada

Requests for reprints: Young-In Kim, University of Toronto, Room 7258, Medical Sciences Building, 1 King's College Circle, Toronto, ON, Canada M5S 1A8. Phone: (416) 978-1183; Fax: (416) 978-8765. E-mail: youngin.kim{at}utoronto.ca

Epidemiological, clinical, and animal studies collectively indicatethat dietary folate intake and blood folate levels are inverselyassociated with colorectal cancer risk. Folate plays an essentialrole in one-carbon transfer involving remethylation of homocysteineto methionine, which is a precursor of S-adenosylmethionine,the primary methyl group donor for most biological methylations.DNA methylation is an important epigenetic determinant in geneexpression, maintenance of DNA integrity and stability, chromosomalmodifications, and development of mutations. Dysregulation andaberrant patterns of DNA methylation are generally consideredto be mechanistically involved in colorectal carcinogenesis.Aberrant DNA methylation has been considered as a leading mechanismby which folate deficiency enhances colorectal carcinogenesis.However, currently available data pertaining to the effectsof folate deficiency on DNA methylation are inconsistent andincomplete. The portfolio of evidence from animal, human, andin vitro studies suggests that the effects of folate deficiencyon DNA methylation are highly complex; appear to depend on celltype, target organ, and stage of transformation; and are geneand site specific. In addition, the pattern of site- and gene-specificDNA methylation induced by folate deficiency may not be in concertwith the direction of changes in genomic DNA methylation. Collectively,currently available evidence indicates that genomic DNA hypomethylationin the colorectum is not a probable mechanism by which folatedeficiency enhances colorectal carcinogenesis. However, thereis still a possibility that sequence-specific alterations ofDNA methylation in critical cancer-related genes might be mechanisticallyinvolved in the folate deficiency-mediated colorectal carcinogenesis.

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				A. Y. Jung, E. M. Poole, J. Bigler, J. Whitton, J. D. Potter, and C. M. Ulrich DNA Methyltransferase and Alcohol Dehydrogenase: Gene-Nutrient Interactions in Relation to Risk of Colorectal Polyps Cancer Epidemiol. Biomarkers Prev., February 1, 2008; 17(2): 330 - 338. [Abstract] [Full Text] [PDF]

				E. Theodoratou, S. M. Farrington, A. Tenesa, G. McNeill, R. Cetnarskyj, R. A. Barnetson, M. E. Porteous, M. G. Dunlop, and H. Campbell Dietary Vitamin B6 Intake and the Risk of Colorectal Cancer Cancer Epidemiol. Biomarkers Prev., January 1, 2008; 17(1): 171 - 182. [Abstract] [Full Text] [PDF]

				P. Vineis and F. Perera Molecular Epidemiology and Biomarkers in Etiologic Cancer Research: The New in Light of the Old Cancer Epidemiol. Biomarkers Prev., October 1, 2007; 16(10): 1954 - 1965. [Abstract] [Full Text] [PDF]

				J. B. Mason, A. Dickstein, P. F. Jacques, P. Haggarty, J. Selhub, G. Dallal, and I. H. Rosenberg A Temporal Association between Folic Acid Fortification and an Increase in Colorectal Cancer Rates May Be Illuminating Important Biological Principles: A Hypothesis Cancer Epidemiol. Biomarkers Prev., July 1, 2007; 16(7): 1325 - 1329. [Abstract] [Full Text] [PDF]

				I. Hayashi, K.-J. Sohn, J. M. Stempak, R. Croxford, and Y.-I. Kim Folate Deficiency Induces Cell-Specific Changes in the Steady-State Transcript Levels of Genes Involved in Folate Metabolism and 1-Carbon Transfer Reactions in Human Colonic Epithelial Cells J. Nutr., March 1, 2007; 137(3): 607 - 613. [Abstract] [Full Text] [PDF]

				S. de Vogel, M. van Engeland, M. Luchtenborg, A. P. de Bruine, G. M. J. M. Roemen, M. H. F. M. Lentjes, R. A. Goldbohm, P. A. van den Brandt, A. F. P. M. de Goeij, and M. P. Weijenberg Dietary Folate and APC Mutations in Sporadic Colorectal Cancer J. Nutr., December 1, 2006; 136(12): 3015 - 3021. [Abstract] [Full Text] [PDF]

				Y.-C. Chou, M.-H. Wu, J.-C. Yu, M.-S. Lee, T. Yang, H.-L. Shih, T.-Y. Wu, and C.-A. Sun Genetic polymorphisms of the methylenetetrahydrofolate reductase gene, plasma folate levels and breast cancer susceptibility: a case-control study in Taiwan Carcinogenesis, November 1, 2006; 27(11): 2295 - 2300. [Abstract] [Full Text] [PDF]

				S. C. Larsson, E. Giovannucci, and A. Wolk Folate intake and stomach cancer incidence in a prospective cohort of Swedish women. Cancer Epidemiol. Biomarkers Prev., July 1, 2006; 15(7): 1409 - 1412. [Abstract] [Full Text] [PDF]

				K. Ghoshal, X. Li, J. Datta, S. Bai, I. Pogribny, M. Pogribny, Y. Huang, D. Young, and S. T. Jacob A Folate- and Methyl-Deficient Diet Alters the Expression of DNA Methyltransferases and Methyl CpG Binding Proteins Involved in Epigenetic Gene Silencing in Livers of F344 Rats J. Nutr., June 1, 2006; 136(6): 1522 - 1527. [Abstract] [Full Text] [PDF]

				M. C. G. van de Poll, C. H. C. Dejong, and P. B. Soeters Adequate Range for Sulfur-Containing Amino Acids and Biomarkers for Their Excess: Lessons from Enteral and Parenteral Nutrition J. Nutr., June 1, 2006; 136(6): 1694S - 1700S. [Abstract] [Full Text] [PDF]

				E. Cho, S. H Zeisel, P. Jacques, J. Selhub, L. Dougherty, G. A Colditz, and W. C Willett Dietary choline and betaine assessed by food-frequency questionnaire in relation to plasma total homocysteine concentration in the Framingham Offspring Study. Am. J. Clinical Nutrition, April 1, 2006; 83(4): 905 - 911. [Abstract] [Full Text] [PDF]

				S. C. Larsson, N. Hakansson, E. Giovannucci, and A. Wolk Folate intake and pancreatic cancer incidence: a prospective study of Swedish women and men. J Natl Cancer Inst, March 15, 2006; 98(6): 407 - 413. [Abstract] [Full Text] [PDF]

				H. Jang, J. B. Mason, and S.-W. Choi Genetic and Epigenetic Interactions between Folate and Aging in Carcinogenesis J. Nutr., December 1, 2005; 135(12): 2967S - 2971S. [Abstract] [Full Text] [PDF]

				Y.-I. Kim Nutritional Epigenetics: Impact of Folate Deficiency on DNA Methylation and Colon Cancer Susceptibility J. Nutr., November 1, 2005; 135(11): 2703 - 2709. [Abstract] [Full Text] [PDF]

				J. Kotsopoulos, A. Medline, R. Renlund, K.-J. Sohn, R. Martin, S. W. Hwang, S. Lu, M. C. Archer, and Y.-I. Kim Effects of dietary folate on the development and progression of mammary tumors in rats Carcinogenesis, September 1, 2005; 26(9): 1603 - 1612. [Abstract] [Full Text] [PDF]

				J. M. Stempak, K.-J. Sohn, E.-P. Chiang, B. Shane, and Y.-I. Kim Cell and stage of transformation-specific effects of folate deficiency on methionine cycle intermediates and DNA methylation in an in vitro model Carcinogenesis, May 1, 2005; 26(5): 981 - 990. [Abstract] [Full Text] [PDF]

				M. Liu, Y. Ge, D. C. Cabelof, A. Aboukameel, A. R. Heydari, R. Mohammad, and L. H. Matherly Structure and Regulation of the Murine Reduced Folate Carrier Gene: IDENTIFICATION OF FOUR NONCODING EXONS AND PROMOTERS AND REGULATION BY DIETARY FOLATES J. Biol. Chem., February 18, 2005; 280(7): 5588 - 5597. [Abstract] [Full Text] [PDF]

				Y.-I. Kim Will mandatory folic acid fortification prevent or promote cancer? Am. J. Clinical Nutrition, November 1, 2004; 80(5): 1123 - 1128. [Abstract] [Full Text] [PDF]

				C. D. Davis and E. O. Uthus DNA Methylation, Cancer Susceptibility, and Nutrient Interactions Experimental Biology and Medicine, November 1, 2004; 229(10): 988 - 995. [Abstract] [Full Text] [PDF]