Erythrocyte mosaicism occurs in females heterozygous for glucose-6-phosphate dehydrogenase deficiency. In blood from female children with acute Plasmodium falciparum malaria the parasite rate was 2 to 80 times higher in normal than in deficient erythrocytes. This may be the mechanism whereby the gene for glucose-6-phosphate dehydrogenase deficiency confers selective advantage against malaria to heterozygous females, and thus may have attained the polymorphic frequency occurring in populations living in areas with endemic malaria.
There is impressive evidence from geographical data, studies in the field and in vitro culture work that genetically determined deficiency of glucose 6-phosphate dehydrogenase (G6PD) confers relative protection against the human malaria parasite, Plasmodium falciparum. G6PD is encoded by an X-chromosome-linked gene, and protection phenomenon is manifested in heterozygous females who are genetic mosaics but, surprisingly, not in hemizygous males with complete deficiency. We have shown previously that the parasite, when passaged serially through G6PD-deficient red cells, undergoes adaptive changes that gradually improve its ability to multiply in these deficient cells. To explain the above paradox, we now show that this adaptive process is associated with, and may consist in, the induction of synthesis of a novel G6PD coded by Plasmodium falciparum.
We report that the mitotic inhibitor, vinblastin (VLB), is highly toxic to the malarial parasite, Plasmodium falciparum. In cultures in vitro growth is inhibited by SO$ at a VLB level of about 28 nM, and totally abolished at a level of 100 nM. By tests on synchronized cultures we have found that the effect of VLB takes place at the trophozoite stage. Colcemid also inhibits schizogony with somewhat different kinetics. By mutagenesis with nitrosoguanidine followed by VLB selection we have isolated a VLB-resistant mutant which exhibits cross-resistance to vincristine. These data suggest a critical role of microtubules in the asexual schizogonic cycle of P. falciparum.
Malaria(P. falciparum) Vinblastine Tub&n
Five electrophoretically slow-moving genetic variants of glucose 6-phosphate dehydrogenase are described: four are from Nigeria and one is from Togo. All variants have normal or moderately reduced activity, and they are not associated with adverse clinical or haematological manifestations. Three variants have been fully characterized and are different from all previously described ones. Two variants have been partially characterized and at least one of them is also probably new. The overall population incidence of sporadic variants of G6PD in the Nigerian population is 0-3%. In the course of this study a previously described ion-exchange chromatographic technique for the characterization of G6PD variants has been extensively evaluated. Data are given on ten different variants to demonstrate the high resolving power of this technique.
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