Both mutations in G6PD A — are necessary to produce the G6PD deficient phenotype

Abstract

The high prevalence of glucose 6-phosphate dehydrogenase (G6PD) deficiency in African populations is due almost entirely to the enzyme variant A —, which differs from the wild-type G6PD B by two amino acid replacements, 68 Val↑Met and 126 Asn↑Asp. The non-deficient polymorphic variant G6PD A contains only the mutation 126 Asn↑Asp. The frequencies of the G6PD A and of the G6PD A — genes in parts of Africa are both about 0.2. The 68 Val↑Met mutation has not been found in a B background. This could be because the 68 Val↑Met mutation happened to arise in an A gene in the first instance, or because the 68 Val↑Met mutation alone is not sufficient to cause G6PD deficiency. We have approached this question by producing G6PD B, A, A—, and G6PD 68 Val↑ Met in a bacterial expression system and analysing their biochemical properties. With each single mutation we found a slight decrease in both the specific activity and the yield of enzyme when compared to G6PD B. When both mutations were introduced together, there was a roughly additive effect on specific activity, but a much more drastic effect on enzyme yield (4% of normal). This synergistic effect was also demonstrated on thermal stability, especially at low NADP concentrations. Comparable results were produced when the replacement 119 Gln↑Glu was studied instead of 126 Asn↑Asp. We infer that the coexistence of the two mutations is responsible for enzyme deficiency in G6PD A — because they act synergistically in causing instability of the enzyme.