Iron overload in Africa. Interaction between a gene and dietary iron content

Volume 326:95-100		January 9, 1992		Number 2

Iron overload in Africa. Interaction between a gene and dietary iron content

V Gordeuk, J Mukiibi, SJ Hasstedt, W Samowitz, CQ Edwards, G West, S Ndambire, J Emmanual, N Nkanza, Z Chapanduka, and et al.

Add to Personal Archive

Add to Citation Manager

Notify a Friend

E-mail When Cited

PubMed Citation

Abstract

BACKGROUND AND METHODS. In contrast to hemochromatosis, which in white populations is inherited through a gene linked to the HLA locus, iron overload in sub-Saharan Africa is believed to result solely from increased dietary iron derived from traditional home-brewed beer. To examine the hypothesis that African iron overload also involves a genetic factor, we used likelihood analysis to test for an interaction between a gene (the hypothesized iron-loading locus) and an environmental factor (increased dietary iron) that determines transferrin saturation and unsaturated iron-binding capacity. We studied 236 members of 36 African families chosen because they contained index subjects with iron overload. Linkage to the HLA region was tested with use of lod scores. RESULTS. In the index subjects, increased iron was present in both hepatocytes and cells of the mononuclear-phagocyte system. Among family members with increased dietary iron due to the consumption of traditional beer, transferrin saturation in serum was distributed bimodally, with 56 normal values (less than 60 percent saturation) and 44 elevated values; the mean serum ferritin concentration was five times higher in the subjects with elevated transferrin saturation (P less than 0.005). The pedigree analysis provided evidence of both a genetic effect (P less than 0.005) and an effect of increased dietary iron (P less than 0.005) on transferrin saturation and unsaturated iron-binding capacity. In the most likely model, increased dietary iron raised the mean transferrin saturation from 30 to 81 percent and lowered the mean unsaturated iron-binding capacity from 38 to 13 mumol per liter in subjects heterozygous for the iron-loading locus. The hypothesis of tight linkage to HLA was rejected. CONCLUSIONS. Iron overload in Africa may be caused by an interaction between the amount of dietary iron and a gene distinct from any HLA-linked gene.

Source Information

University of Zimbabwe School of Medicine, Harare.

This article has been cited by other articles:

Beutler, E., West, C. (2005). Hematologic differences between African-Americans and whites: the roles of iron deficiency and {alpha}-thalassemia on hemoglobin levels and mean corpuscular volume. Blood 106: 740-745 [Abstract] [Full Text]
Mainous, A. G. III, Gill, J. M., Everett, C. J. (2005). Transferrin Saturation, Dietary Iron Intake, and Risk of Cancer. Ann Fam Med 3: 131-137 [Abstract] [Full Text]
Kasvosve, I., Delanghe, J. R, Gomo, Z. A., Gangaidzo, I. T, Khumalo, H., Langlois, M. R, Moyo, V. M, Saungweme, T., Mvundura, E., Boelaert, J. R, Gordeuk, V. R (2002). Effect of transferrin polymorphism on the metabolism of vitamin C in Zimbabwean adults. Am. J. Clin. Nutr. 75: 321-325 [Abstract] [Full Text]
McLaren, C. E., Li, K.-T., Gordeuk, V. R., Hasselblad, V., McLaren, G. D. (2001). Relationship between transferrin saturation and iron stores in the African American and US Caucasian populations: analysis of data from the third National Health and Nutrition Examination Survey. Blood 98: 2345-2351 [Abstract] [Full Text]
Lyon, E., Frank, E. L. (2001). Hereditary Hemochromatosis Since Discovery of the HFE Gene. Clin. Chem. 47: 1147-1156 [Abstract] [Full Text]
Kasvosve, I., Delanghe, J. R., Gomo, Z. A.R., Gangaidzo, I. T., Khumalo, H., Wuyts, B., Mvundura, E., Saungweme, T., Moyo, V. M., Boelaert, J. R., Gordeuk, V. R. (2000). Transferrin Polymorphism Influences Iron Status in Blacks. Clin. Chem. 46: 1535-1539 [Abstract] [Full Text]
Andrews, N. C. (1999). Disorders of Iron Metabolism. NEJM 341: 1986-1995 [Full Text]
Looker, A. C., Loyevsky, M., Gordeuk, V. R. (1999). Increased Serum Transferrin Saturation Is Associated with Lower Serum Transferrin Receptor Concentration. Clin. Chem. 45: 2191-2199 [Abstract] [Full Text]
Pietrangelo, A., Montosi, G., Totaro, A., Garuti, C., Conte, D., Cassanelli, S., Fraquelli, M., Sardini, C., Vasta, F., Gasparini, P. (1999). Hereditary Hemochromatosis in Adults without Pathogenic Mutations in the Hemochromatosis Gene. NEJM 341: 725-732 [Abstract] [Full Text]
Gangaidzo, I T, Moyo, V M, Saungweme, T, Khumalo, H, Charakupa, R M, Gomo, Z A R, Loyevsky, M, Stearman, R, Vaute, T L., Enquist, E G, Rouault, T A, Gordeuk, V R (1999). Iron overload in urban Africans in the 1990s. Gut 45: 278-283 [Abstract] [Full Text]
Horwitz, L. D, Rosenthal, E. A (1999). Iron-mediated cardiovascular injury. Vasc Med 4: 93-99 [Abstract]
Cappellini, M.D., Fargion, S.R., Sampietro, M., Graziadei, G., Fiorelli, G. (1998). Nontransfusional Iron Overload in Thalassemia Intermedia: Role of the Hemochromatosis Allele. Blood 92: 4479-4480 [Full Text]
Yang, Q., McDonnell, S. M., Khoury, M. J., Cono, J., Parrish, R. G. (1998). Hemochromatosis-Associated Mortality in the United States from 1979 to 1992: An Analysis of Multiple-Cause Mortality Data. ANN INTERN MED 129: 946-953 [Abstract] [Full Text]
Phatak, P. D., Sham, R. L., Raubertas, R. F., Dunnigan, K., O'Leary, M. T., Braggins, C., Cappuccio, J. D. (1998). Prevalence of Hereditary Hemochromatosis in 16 031 Primary Care Patients. ANN INTERN MED 129: 954-961 [Abstract] [Full Text]
Brittenham, G. M., Franks, A. L., Rickles, F. R. (1998). Research Priorities in Hereditary Hemochromatosis. ANN INTERN MED 129: 993-996 [Abstract] [Full Text]
Andrews, N. C., Levy, J. E. (1998). Iron Is Hot: An Update on the Pathophysiology of Hemochromatosis. Blood 92: 1845-1851 [Full Text]
Burke, W., Thomson, E., Khoury, M. J., McDonnell, S. M., Press, N., Adams, P. C., Barton, J. C., Beutler, E., Brittenham, G., Buchanan, A., Clayton, E. W., Cogswell, M. E., Meslin, E. M., Motulsky, A. G., Powell, L. W., Sigal, E., Wilfond, B. S., Collins, F. S. (1998). Hereditary Hemochromatosis: Gene Discovery and Its Implications for Population-Based Screening. JAMA 280: 172-178 [Abstract] [Full Text]
Gordeuk, V. R., McLaren, C. E., Looker, A. C., Hasselblad, V., Brittenham, G. M. (1998). Distribution of Transferrin Saturations in the African-American Population. Blood 91: 2175-2179 [Abstract] [Full Text]
Khumalo, H., Gomo, Z. A. R., Moyo, V. M., Gordeuk, V. R., Saungweme, T., Rouault, T. A., Gangaidzo, I. T. (1998). Serum transferrin receptors are decreased in the presence of iron overload. Clin. Chem. 44: 40-44 [Abstract] [Full Text]
Cazzola, M., Bergamaschi, G., Tonon, L., Arbustini, E., Grasso, M., Vercesi, E., Barosi, G., Bianchi, P. E., Cairo, G., Arosio, P. (1997). Hereditary Hyperferritinemia-Cataract Syndrome: Relationship Between Phenotypes and Specific Mutations in the Iron-Responsive Element of Ferritin Light-Chain mRNA. Blood 90: 814-821 [Abstract] [Full Text]
Moyo, V. M., Gangaidzo, I. T., Gomo, Z.A.R., Khumalo, H., Saungweme, T., Kiire, C.F., Rouault, T., Gordeuk, V. R. (1997). Traditional Beer Consumption and the Iron Status of Spouse Pairs From a Rural Community in Zimbabwe. Blood 89: 2159-2166 [Abstract] [Full Text]
McLaren, C. E (1996). Mixture models in haematology: a series of case studies. Stat Methods Med Res 5: 129-153 [Abstract]
Rouault, T. A. (1993). Hereditary Hemochromatosis. JAMA 269: 3152-3154 [Abstract]
Omara, F. O., Blakley, B. R., Wanjala, L. S. (1993). Hepatotoxicity Associated with Dietary Iron Overload in Mice. Hum Exp Toxicol 12: 463-467 [Abstract]

Comments and questions? Please contact us.