Hostname: page-component-78c5997874-m6dg7 Total loading time: 0 Render date: 2024-11-17T19:53:34.229Z Has data issue: false hasContentIssue false
  • English
  • Français

Micronutrients and cancer

Published online by Cambridge University Press:  07 March 2007

I. T. Johnson
I. T. Johnson*
Affiliation:
Institute of Food Research, Norwich Research Park, Colney, Norwich, NR4 7UA, UK
*
Corresponding author: I. T. Johnson, fax +44 1603 255167, email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Adverse dietary factors account for approximately 30% of all cancers. Overconsumption of energy is undoubtedly one of the major risk factors, but dietary composition is also very important. In particular, a low consumption of fruits and vegetables appears to double the risk of carcinomas of the lung and alimentary tract. Epidemiological studies suggest that high plasma levels of Se, carotenoids and ascorbic acid are protective against cancer. However, intervention studies with antioxidant nutrients have given mixed results, and it has not been established that the benefits of a high intake of fruits and vegetables are invariably related to the prevention of oxidative DNA damage. Folic acid supplementation appears to protect against colo-rectal neoplasia, probably by preventing mutations associated with the repair of uracil mis-incorporation. However, there are indications from animal studies that exposure to high levels of folic acid at certain stages of development may lead to epigenetic effects that are, as yet, poorly understood. There seems little doubt that micronutrients contribute to the protective effects of plant foods against cancers of the lung and alimentary tract, but it has not been established that these benefits can be achieved using supplements.

Keywords

DietAntioxidantsSeleniumFolateCancer
Type
Symposium on ‘Micronutrient interactions and public health’
Information
Proceedings of the Nutrition Society , Volume 63 , Issue 4 , November 2004 , pp. 587 - 595
Copyright
Copyright © The Nutrition Society 2004

References

Alpha-Tocopherol Beta Carotene Cancer Prevention Study Group (1994) The effect of vitamin E and beta carotene on the incidence of lung cancer and other cancers in male smokers. New England Journal of Medicine 330, 10291035.Google Scholar
Al-Taie, OH, Seufert, J, Karvar, S, Adolph, C, Mork, H, Scheurlen, M, Kohrle, J & Jakob, F (2003) Selenium supplementation enhances low selenium levels and stimulates glutathione peroxidase activity in peripheral blood and distal colon mucosa in past and present carriers of colon adenomas. Nutrition and Cancer 46, 125130.Google Scholar
Ambs, S, Hussain, SP, Marrogi, AJ & Harris, CC (1999) Cancer-prone oxyradical overload disease. IARC Scientific Publications 150, 295302.Google Scholar
Ames, BN (1999) Micronutrient deficiencies. A major cause of DNA damage. Annals of the New York Academy of Sciences 889, 87106.Google Scholar
Ames, BN (2001) DNA damage from micronutrient deficiencies is likely to be a major cause of cancer. Mutation Research 475, 720.Google Scholar
Ames, BN & Wakimoto, P (2002) Are vitamin and mineral deficiencies a major cancer risk. Nature Reviews Cancer 2, 694704.CrossRefGoogle ScholarPubMed
Bandera, EV, Freudenheim, JL, Marshall, JR, Zielezny, M, Priore, RL, Brasure, J, Baptiste, M & Graham, S (1997) Diet and alcohol consumption and lung cancer risk in the New York State Cohort (United States). Cancer Causes and Control 8, 828840.CrossRefGoogle ScholarPubMed
Baron, JA, Beach, M, Mandel, JS, van, Stolk, RU, Haile & RW, Sandler RS et al. (1999) Calcium supplements for the prevention of colorectal adenomas. Calcium Polyp Prevention Study Group. New England Journal of Medicine 340, 101107.Google Scholar
Benito, E, Stiggelbout, A, Bosch, FX, Obrador, A, Kaldor, J, Mulet, M & Munoz, N (1991) Nutritional factors in colorectal cancer risk: a case-control study in Majorca. International Journal of Cancer 49, 161167.CrossRefGoogle Scholar
Bird, CL, Swendseid, ME, Witte, JS, Shikany, JM, Hunt, IF, Frankl, HD, Lee, ER, Longnecker, MP & Haile, RW (1995) Red cell and plasma folate, folate consumption, and the risk of colorectal adenomatous polyps. Cancer Epidemiology Biomarkers and Prevention 4, 709714.Google Scholar
Bjelland, S & Seeberg, E (2003) Mutagenicity, toxicity and repair of DNA base damage induced by oxidation. Mutation Research 531, 3780.CrossRefGoogle ScholarPubMed
Block, G, Patterson, B & Subar, A (1992) Fruit, vegetables, and cancer prevention: a review of the epidemiological evidence. Nutrition and Cancer 18, 129.Google Scholar
Bodmer, WF (1994) Cancer genetics. British Medical Bulletin 50, 517526.Google Scholar
Bodmer, WF & Tomlinson, I (1996) Population genetics of tumours. Ciba Foundation Symposium 197, 181189.Google Scholar
Breuer-Katschinski, B, Nemes, K, Marr, A, Rump, B, Leiendecker, B, Breuer, N & Goebell, H (2001 a) Colorectal adenomas and diet: a case-control study. Colorectal Adenoma Study Group. Digestive Diseases and Sciences 46, 8695.Google Scholar
Breuer-Katschinski, B, Nemes, K, Marr, A, Rump, B, Leiendecker, B, Breuer, N & Goebell, H (2001 b) Relation of serum antioxidant vitamins to the risk of colorectal adenoma. Digestion 63, 4348.CrossRefGoogle Scholar
Caan, BJ, Coates, AO, Slattery, ML, Potter, JD, Quesenberry, CP Jr & Edwards, SM (1998) Body size and the risk of colon cancer in a large case-control study. International Journal of Obesity and Related Metabolic Disorders 22, 178184.CrossRefGoogle Scholar
Clark, LC, Combs, GF, Jr, Turnbull, BW, Slate, EH, Chalker & DK, Chow J et al. (1996) Effects of selenium supplementation for cancer prevention in patients with carcinoma of the skin. A randomized controlled trial. Nutritional Prevention of Cancer Study Group. Journal of the American Medical Association 276, 19571963.CrossRefGoogle ScholarPubMed
Collins, AR (2002) The comet assay. Principles, applications, and limitations. Methods in Molecular Biology 203, 163177.Google ScholarPubMed
Connelly, AE, Satia-Abouta, J, Martin, CF, Keku, TO, Woosley, JT, Lund, PK & Sandler, RS (2003) Vitamin C intake and apoptosis in normal rectal epithelium. Cancer Epidemiology Biomarkers and Prevention 12, 559565.Google Scholar
Doll, R & Peto, R (1981) The causes of cancer: quantitative estimates of avoidable risks of cancer in the United States today. Journal of the National Cancer Institute 66, 11911308.CrossRefGoogle ScholarPubMed
Duhl, DM, Vrieling, H, Miller, KA, Wolff, GL & Barsh, GS (1994) Neomorphic agouti mutations in obese yellow mice. Nature Genetics 8, 5965.CrossRefGoogle ScholarPubMed
el-Bayoumy, K, Chae, YH, Upadhyaya, P, Meschter, C, Cohen, LA & Reddy, BS (1992) Inhibition of 7,12-dimethylbenz(a)anthracene-induced tumors and DNA adduct formation in the mammary glands of female Sprague-Dawley rats by the synthetic organoselenium compound, 1,4-phenylenebis(methylene)selenocyanate. Cancer Research 52, 24022407.Google Scholar
el-Bayoumy, K, Upadhyaya, P, Chae, YH, Sohn, OS, Rao, CV, Fiala, E & Reddy, BS (1995) Chemoprevention of cancer by organoselenium compounds. Journal of Cellular Biochemistry 22, 92100 Suppl..Google Scholar
Ferraroni, M, La Vecchia, C, D'Avanzo, B, Negri, E, Franceschi, S, Decarli, A (1994) Selected micronutrient intake and the risk of colorectal cancer. British Journal of Cancer 70, 11501155.Google Scholar
Fiala, ES, Staretz, ME, Pandya, GA, El-Bayoumy, K & Hamilton, SR (1998) Inhibition of DNA cytosine methyltransferase by chemopreventive selenium compounds, determined by an improved assay for DNA cytosine methyltransferase and DNA cytosine methylation. Carcinogenesis 19, 597604.Google Scholar
Finley, JW, Davis, CD & Feng, Y (2000) Selenium from high selenium broccoli protects rats from colon cancer. Journal of Nutrition 130, 23842389.CrossRefGoogle ScholarPubMed
Frosst, P, Blom, HJ, Milos, R, Goyette, P, Sheppard, CA, Matthews, RG, Boers, GJ, den, Heijer, M, Kluijtmans, LA, van den, Heuvel, LP & Rozen, RA (1995) A candidate genetic risk factor for vascular disease: a common mutation in methylenetetrahydrofolate reductase. Nature Genetics 10, 111113.CrossRefGoogle ScholarPubMed
Giovannucci, E (2002) Epidemiologic studies of folate and colorectal neoplasia: a review. Journal of Nutrition 132 2350S – 2355S.Google Scholar
Giovannucci, E, Stampfer, MJ, Colditz, GA, Rimm, EB, Trichopoulos, D, Rosner, BA, Speizer, FE & Willett, WC (1993) Folate, methionine, and alcohol intake and risk of colorectal adenoma. Journal of the National Cancer Institute 85, 875884.CrossRefGoogle ScholarPubMed
Greenberg, ER, Baron, JA, Tosteson, TD, Freeman, DH Jr, Beck, GJ, Bond, JH et al. (1994) A clinical trial of antioxidant vitamins to prevent colorectal adenoma. Polyp Prevention Study Group. New England Journal of Medicine 331, 141147.Google Scholar
Hartman, TJ, Woodson, K, Stolzenberg-Solomon, R, Virtamo, J, Selhub, J, Barrett, MJ & Albanes, D (2001) Association of the B-vitamins pyridoxal 5'-phosphate (B(6)), B(12), and folate with lung cancer risk in older men. American Journal of Epidemiology 153, 688694.Google Scholar
Hecht, SS (1999) Tobacco smoke carcinogens and lung cancer. Journal of the National Cancer Institute 91, 11941210.CrossRefGoogle ScholarPubMed
Helbock, HJ, Beckman, KB, Shigenaga, MK, Walter, PB, Woodall, AA, Yeo, HC & Ames, BN (1998) DNA oxidation matters: the HPLC-electrochemical detection assay of 8-oxo-deoxyguanosine and 8-oxo-guanine. Proceedings of the National Academy of Sciences USA 95, 288293.Google Scholar
Hofseth, LJ, Saito, S, Hussain, SP, Espey, MG, Miranda, KM & Araki, Y et al. (2003) Nitric oxide-induced cellular stress and p53 activation in chronic inflammation. Proceedings of the National Academy of Sciences USA 100, 143148.Google Scholar
Hofstad, B, Almendingen, K, Vatn, M, Andersen, SN, Owen, RW, Larsen, S & Osnes, M (1998) Growth and recurrence of colorectal polyps: a double-blind 3-year intervention with calcium and antioxidants. Digestion 59, 148156.Google Scholar
Hussain, SP, Hofseth, LJ & Harris, CC (2003) Radical causes of cancer. Nature Reviews Cancer 3, 276285.Google Scholar
International Agency for Research on Cancer (1998) Carotenoids. IARC Handbooks of Cancer Prevention, 2 Lyon, France: IARC Press.Google Scholar
International Agency for Research on Cancer (2003) Fruit and Vegetables. IARC Handbooks of Cancer Prevention, 8 Lyon, France: IARC Press.Google Scholar
Issa, JP (2000 a) The epigenetics of colorectal cancer. Annals of the New York Academy of Sciences 910, 140153.Google Scholar
Issa, JP (2000 b) The epigenetics of colorectal cancer. Discussion. Annals of the New York Academy of Sciences 910, 153155.Google Scholar
Jacob, RA, Aiello, GM, Stephensen, CB, Blumberg, JB, Milbury, PE, Wallock, LM & Ames, BN (2003) Moderate antioxidant supplementation has no effect on biomarkers of oxidant damage in healthy men with low fruit and vegetable intakes. Journal of Nutrition 133, 740743.Google Scholar
Jacobs, MM (1983) Selenium inhibition of 1,2-dimethylhydrazine-induced colon carcinogenesis. Cancer Research 43, 16461649.Google Scholar
Jatoi, A, Daly, BD, Kramer, G & Mason, JB (2001) Folate status among patients with non-small cell lung cancer: a case-control study. Journal of Surgical Oncology 77, 247252.Google Scholar
Jhaveri, MS, Wagner, C & Trepel, JB (2001) Impact of extracellular folate levels on global gene expression. Molecular Pharmacology 60, 12881295.Google Scholar
Johnson, I, Williamson, G & Musk, S (1994) Anticarcinogenic factors in plant foods: a new class of nutrients. Nutrition Research Reviews 7, 175204.Google Scholar
Johnson, IT (2001) Mechanisms and anticarcinogenic effects of diet-related apoptosis in the intestinal mucosa. Nutrition Research Reviews 14, 229256.Google Scholar
Khaw, KT, Bingham, S, Welch, A, Luben, R, Wareham, N, Oakes, S & Day, N (2001) Relation between plasma ascorbic acid and mortality in men and women in EPIC-Norfolk prospective study: a prospective population study. European Prospective Investigation into Cancer and Nutrition. Lancet 357, 657663.Google Scholar
Knekt, P, Marniemi, J, Teppo, L, Heliovaara, M & Aromaa, A (1998) Is low selenium status a risk factor for lung cancer. American Journal of Epidemiology 148, 975982.Google Scholar
Kono, S & Hirohata, T (1996) Nutrition and stomach cancer. Cancer Causes and Control 7, 4155.Google Scholar
La, Vecchia, C, Negri, E, Decarli, A, D'Avanzo, B, Gallotti, L, Gentile, A, Franceschi S (1988) A case-control study of diet and colo-rectal cancer in northern Italy. International Journal of Cancer 41, 492498.Google Scholar
Le, Marchand, L, Yoshizawa, CN, Kolonel, LN, Hankin, JH, Goodman MT (1989) Vegetable consumption and lung cancer risk: a population-based case-control study in Hawaii. Journal of the National Cancer Institute 81, 11581164.Google Scholar
Li, B, Taylor, PR, Li, JY, Dawsey, SM, Wang, W & Tangrea, JA et al. (1993) Linxian nutrition intervention trials. Design, methods, participant characteristics, and compliance. Annals of Epidemiology 3, 577585.Google Scholar
Loft, S & Poulsen, HE (1999) Markers of oxidative damage to DNA: antioxidants and molecular damage. Methods in Enzymology 300, 166184.CrossRefGoogle ScholarPubMed
Lu, J, Jiang, C, Kaeck, M, Ganther, H, Vadhanavikit, S, Ip, C & Thompson, H (1995) Dissociation of the genotoxic and growth inhibitory effects of selenium. Biochemical Pharmacology 50, 213219.Google Scholar
McKeown-Eyssen, G, Holloway, C, Jazmaji, V, Bright-See, E, Dion, P & Bruce, WR (1988) A randomized trial of vitamins C and E in the prevention of recurrence of colorectal polyps. Cancer Research 48, 47014705.Google Scholar
Marshall, JR (2001) Larry Clark's legacy: randomized controlled, selenium-based prostate cancer chemoprevention trials. Nutrition and Cancer 40, 7477.Google Scholar
Mayne, ST, Risch, HA, Dubrow, R, Chow, WH, Gammon, MD & Vaughan, TL et al. (2001) Nutrient intake and risk of subtypes of esophageal and gastric cancer. Cancer Epidemiology Biomarkers and Prevention 10, 10551062.Google ScholarPubMed
Møller, P & Loft, S (2002) Oxidative DNA damage in human white blood cells in dietary antioxidant intervention studies. American Journal of Clinical Nutrition 76, 303310.Google Scholar
Møller, P, Vogel, U, Pedersen, A, Dragsted, LO, Sandstrom, B & Loft, S (2003) No effect of 600 grams fruit and vegetables per day on oxidative DNA damage and repair in healthy nonsmokers. Cancer Epidemiology Biomarkers and Prevention 12, 10161022.Google Scholar
Morgan, HD, Sutherland, HG, Martin, DI & Whitelaw, E (1999) Epigenetic inheritance at the agouti locus in the mouse. Nature Genetics 23, 314318.Google Scholar
Nyberg, F, Hou, SM, Pershagen, G & Lambert, B (2003) Dietary fruit and vegetables protect against somatic mutation in vivo, but low or high intake of carotenoids does not. Carcinogenesis 24, 689696.Google Scholar
Omenn, GS, Goodman, GE, Thornquist, MD, Balmes, J, Cullen, MR & Glass, A et al. (1996) Effects of a combination of beta carotene and vitamin A on lung cancer and cardiovascular disease. New England Journal of Medicine 334, 11501155.Google Scholar
Paspatis, GA, Kalafatis, E, Oros, L, Xourgias, V, Koutsioumpa, P & Karamanolis, DG (1995 a) Folate status and adenomatous colonic polyps. A colonoscopically controlled study. Diseases of the Colon and Rectum 38, 6467.Google Scholar
Paspatis, GA, Kalafatis, E, Oros, L, Xourgias, V, Koutsioumpa, P & Karamanolis, DG (1995 b) Folate status and adenomatous colonic polyps. A colonoscopically controlled study. Discussion. Diseases of the Colon and Rectum 38, 6768.Google Scholar
Pitot, HC & Dragan, YP (1994) The multistage nature of chemically induced hepatocarcinogenesis in the rat. Drug Metabolism Reviews 26, 209220.CrossRefGoogle ScholarPubMed
Poulsen, HE, Weimann, A & Loft, S (1999) Methods to detect DNA damage by free radicals: relation to exercise. Proceedings of the Nutrition Society 58, 10071014.Google Scholar
Rakyan, VK, Blewitt, ME, Druker, R, Preis, JI & Whitelaw, E (2002) Metastable epialleles in mammals. Trends in Genetics 18, 348351.CrossRefGoogle ScholarPubMed
Reid, ME, Duffield-Lillico, AJ, Garland, L, Turnbull, BW, Clark, LC & Marshall, JR (2002) Selenium supplementation and lung cancer incidence: an update of the nutritional prevention of cancer trial. Cancer Epidemiology Biomarkers and Prevention 11, 12851291.Google ScholarPubMed
Rosa, JG, Prokopczyk, B, Desai, DH, Amin, SG, El-Bayoumy, K (1998) Elevated 8-hydroxy-2'-deoxyguanosine levels in lung DNA of A/J mice and F344 rats treated with 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone and inhibition by dietary 1,4-phenylenebis(methylene)selenocyanate. Carcinogenesis 19, 17831788.Google Scholar
Rumi, G, Imre, I, Sulle, C, Sarudi, I, Kelemen, J & Lassu, Z (1992) Selenium in the blood of patients with colorectal cancer and neoplastic polyp. Acta Physiologica Hungarica 80, 275279.Google Scholar
Russo, MW, Murray, SC, Wurzelmann, JI, Woosley, JT & Sandler, RS (1997) Plasma selenium levels and the risk of colorectal adenomas. Nutrition and Cancer 28, 125129.CrossRefGoogle ScholarPubMed
Satia-Abouta, J, Galanko, JA, Martin, CF, Potter, JD, Ammerman, A & Sandler, RS (2003) Associations of micronutrients with colon cancer risk in African Americans and whites: results from the North Carolina Colon Cancer Study. Cancer Epidemiology Biomarkers and Prevention 12, 747754.Google Scholar
Schrauzer, GN, White, DA & Schneider, CJ (1977) Cancer mortality correlation studies. III: Statistical associations with dietary selenium intakes. Bioinorganic Chemistry 7, 2331.Google Scholar
Serafini, M, Bellocco, R, Wolk, A & Ekstrom, AM (2002) Total antioxidant potential of fruit and vegetables and risk of gastric cancer. Gastroenterology 123, 985991.Google Scholar
Shen, H, Wei, Q, Pillow, PC, Amos, CI, Hong, WK & Spitz, MR (2003) Dietary folate intake and lung cancer risk in former smokers: a case-control analysis. Cancer Epidemiology Biomarkers and Prevention 12, 980986.Google Scholar
Speizer, FE, Colditz, GA, Hunter, DJ, Rosner, B & Hennekens, C (1999) Prospective study of smoking, antioxidant intake, and lung cancer in middle-aged women (USA). Cancer Causes and Control 10, 475482.Google Scholar
Stern, LL, Mason, JB, Selhub, J & Choi, SW (2000) Genomic DNA hypomethylation, a characteristic of most cancers, is present in peripheral leukocytes of individuals who are homozygous for the C677T polymorphism in the methylenetetrahydrofolate reductase gene. Cancer Epidemiology Biomarkers and Prevention 9, 849853.Google Scholar
Sun, CL, Yuan, JM, Lee, MJ, Yang, CS, Gao, YT, Ross, RK & Yu, MC (2002) Urinary tea polyphenols in relation to gastric and esophageal cancers: a prospective study of men in Shanghai, China. Carcinogenesis 23, 14971503.CrossRefGoogle ScholarPubMed
Tan, J, Zhu, W, Wang, W, Li, R, Hou, S, Wang, D & Yang, L (2002) Selenium in soil and endemic diseases in China. The Science of the Total Environment 284, 227235.Google Scholar
Teebor, GW, Boorstein, RJ & Cadet, J (1988) The repairability of oxidative free radical mediated damage to DNA: a review. International Journal of Radiation Biology 54, 131150.Google Scholar
Tseng, M, Murray, SC, Kupper, LL & Sandler, RS (1996) Micronutrients and the risk of colorectal adenomas. American Journal of Epidemiology 144, 10051014.Google Scholar
van den Brandt, PA, Goldbohm, RA, van't Veer, P, Bode, P, Dorant, E, Hermus, RJ, Sturmans, F (1993) A prospective cohort study on selenium status and the risk of lung cancer. Cancer Research 53, 48604865.Google Scholar
van, den, Brandt, PA, Zeegers, MP, Bode, P & Goldbohm, RA (2003) Toenail selenium levels and the subsequent risk of prostate cancer: a prospective cohort study. Cancer Epidemiology Biomarkers and Prevention 12, 866871.Google Scholar
van Zandwijk, N, Hirsch, FR (2003) Chemoprevention of lung cancer: current status and future prospects. Lung Cancer 42, S71S79 Suppl. 1.Google Scholar
Voorrips, LE, Goldbohm, RA, Brants, HA, van Poppel, GA, Sturmans, F, Hermus, RJ & van den Brandt, PA (2000) A prospective cohort study on antioxidant and folate intake and male lung cancer risk. Cancer Epidemiology Biomarkers and Prevention 9, 357365.Google Scholar
Waterland, RA & Jirtle, RL (2003) Transposable elements: targets for early nutritional effects on epigenetic gene regulation. Molecular and Cellular Biology 23, 52935300.Google Scholar
Wei, WQ, Abnet, CC, Qiao, YL, Dawsey, SM, Dong, ZW, Sun, XD, Fan, JH, Gunter, EW, Taylor, PR & Mark, SD (2004) Prospective study of serum selenium concentrations and esophageal and gastric cardia cancer, heart disease, stroke, and total death. American Journal of Clinical Nutrition 79, 8085.Google Scholar
West, DW, Slattery, ML, Robison, LM, Schuman, KL, Ford, MH, Mahoney, AW, Lyon, JL & Sorensen, AW (1989) Dietary intake and colon cancer: sex- and anatomic site-specific associations. American Journal of Epidemiology 130, 883894.Google Scholar
Whanger, PD (2004) Selenium and its relationship to cancer: an update dagger. British Journal of Nutrition 91, 1128.Google Scholar
Wickramasinghe, SN & Fida, S (1994) Bone marrow cells from vitamin B12- and folate-deficient patients misincorporate uracil into DNA. Blood 83, 16561661.Google Scholar
Willett, WC, Polk, BF, Morris, JS, Stampfer, MJ, Pressel, S, Rosner, B, Taylor, JO, Schneider, K & Hames, CG (1983) Prediagnostic serum selenium and risk of cancer. Lancet ii, 130134.Google Scholar
World Cancer Research Fund (1997) Food Nutrition and the Prevention of Cancer: A Global Perspective, 216251 Washington, DC: American Institute for Cancer Research.Google Scholar