Oxidant damage mediates variant red cell resistance to malaria (original) (raw)
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- Published: 01 July 1980
Nature volume 280, pages 245–247 (1979) Cite this article
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Abstract
IT is thought that the deleterious properties of thalassaemia (thal) and glucose-6-phosphate dehydrogenase deficiency (G6PD−) are balanced in the population by a conferred protection against malaria, and that some characteristic of the variant red cell acts directly to inhibit the invasion or intracellular development of the malaria parasite. Indeed, such is the case for sickle cell disorders1,2. Recently, Pasvol _et al._3, having shown that fetal haemoglobin (HbF) (in both fetal and adult cells) inhibits malaria parasite development, have suggested that the slight persistance of HbF in children with thal trait is responsible for the selective advantage of the thal gene. They have reported no difference in parasite development in the red cells of adult carriers of thal. Evidence is presented here that both _α_- and _β_-thal trait red cells from adults are refractory to parasite development because of oxidant sensitivity, and, furthermore, that fetal red cells and G6PD− cells are refractory for the same reason.
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References
- Friedman, M. J. Proc. natn. Acad. Sci. U.S.A. 75, 1994–1997 (1978).
Article ADS CAS Google Scholar - Pasvol, G., Weatherall, D. J. & Wilson, R. J. M. Nature 274, 701–703 (1978).
Article ADS CAS Google Scholar - Pasvol, G., Weatherall, D. J. & Wilson, R. J. M. Nature 270, 171–173 (1977).
Article ADS CAS Google Scholar - Etkin, N. & Eaton, J. in Erythrocyte Structure and Function (ed. Brewer, G. J.) 219–232. (Liss, New York, 1975).
Google Scholar - Beutler, E. J. Lab. clin. Med. 49, 84–95 (1957).
CAS PubMed Google Scholar - Stocks, J., Offerman, E. L., Modell, C. B. & Dormandy, T. L. Br. J. Haemat. 23, 713–724 (1972).
Article CAS Google Scholar - Trager, W. & Jensen, J. B. Science 193, 673–675 (1976).
Article ADS CAS Google Scholar - Motulsky, A. G. & Campbell-Kraut, J. M. in Proceedings of the Conference on Genetics, Polymorphism, and Geographic Variations in Disease (ed. Blumberg, B. S.) 159–180 (Grune-Stratton, New York, 1961).
Google Scholar - Massey, V., Palmer, G. & Ballou, D. in Flavins and Flavoproteins (ed. Kamin, H.) 349–361 (University Park Press, Baltimore, 1971).
Google Scholar - Misra, H. P. & Fridovich, I. J. biol. Chem. 247, 188–192 (1972).
CAS PubMed Google Scholar - Eckman, J. R. & Eaton, J. W. Nature 278, 754–756 (1979).
Article ADS CAS Google Scholar - Tappel, A. L. Vitam. Horm. 20, 493–510 (1962).
Article CAS Google Scholar - Eaton, J. W., Boraas, M. & Etkin, N. L. in Hemoglobin and Red Cell Structure and Function (ed. Brewer, G. J.) 121–130 (Plenum, New York, 1972).
Book Google Scholar - Cohen, G. in Erythrocyte Structure and Function (ed. Brewer, G. J.) 685–698 (Liss, New York, 1975).
Google Scholar - Livingstone, F. B. A. Rev. Genet. 5, 33–64 (1971).
Article Google Scholar - Martin, S. K. et al. Lancet i, 524–526 (1979).
Article Google Scholar - Cohen, G. & Hochstein, P. Science 134, 1756–1757 (1961).
Article ADS CAS Google Scholar - Trager, W. Acta Tropica 14, 289–301 (1957).
CAS PubMed Google Scholar - Alan, D. W., Johnson, G. J., Cadman, S. & Kaplan, M. E. J. Lab. clin. Med. 91, 321–327 (1978).
Google Scholar - Luzatto, L., Usanga, E. A. & Reddy, S. Science 164, 839–842 (1969).
Article ADS Google Scholar - Miller, A. & Smith, H. C. Br. J. Haemat. 19, 417–428 (1970).
Article CAS Google Scholar - Friedman, M. J., Roth, E. F., Nagel, R. L. & Trager, W. Exp Parasit. 47, 73–80 (1979).
Article CAS Google Scholar - Friedman, M. J. Blood 52, suppl. 1, 96 (1978).
Google Scholar
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Authors and Affiliations
- The Rockefeller University, New York, New York, 10021
MILTON J. FRIEDMAN
Authors
- MILTON J. FRIEDMAN
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FRIEDMAN, M. Oxidant damage mediates variant red cell resistance to malaria.Nature 280, 245–247 (1979). https://doi.org/10.1038/280245a0
- Received: 10 January 1979
- Accepted: 01 June 1979
- Published: 01 July 1980
- Issue date: 19 July 1979
- DOI: https://doi.org/10.1038/280245a0