Glucose-6-phosphate dehydrogenase deficiency in the Han Chinese population: molecular characterization and genotype\u2013phenotype association throughout an activity distribution

Ying He,Yuhong Xu,Qiong Wang,Lifen Ling,Xionghao Chen,Yinhui Zhang

doi:10.1038/s41598-020-74200-y

Abstract

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is a common hereditary disorder in China. The existing prevalence and molecular epidemiology of G6PD deficiency in China were geographically limited. In this study, the spectrum of G6PD gene mutations was well characterized in a large and diverse population all over the country; and the correlation of genotype and enzyme activity phenotype was explored for the first time. The results showed that the overall prevalence of G6PD deficiency in China was 2.10% at the national level. The top six common mutations were c.1388 G>A, c.1376 G>T, c.95 A>G, c.392 G>T, c.871 G>A and c.1024 C>T, accounting for more than 90% of G6PD deficient alleles. Compound mutation patterns were frequently observed in females with severe deficiency. The distribution of G6PD activities depended on the type of mutation patterns and genders. Hemizygote, homozygote, and compound heterozygote were predominantly associated with severe G6PD deficiency, whereas heterozygotes with single mutation mainly presented moderate enzyme deficiency. A significant gap between G6PD activities in hemizygous and normal males was observed, and yet, the overall distribution of that in females carrying missense mutations was a continuum from G6PD severely deficient to normal. This is the first report of discussing the association between G6PD genetic variants in the Chinese and enzyme activity phenotypes.

Highlights

The existing prevalence and molecular epidemiology of Glucose-6-phosphate dehydrogenase (G6PD) deficiency in China were geographically limited
G6PD gene mutations, as well as the correlation between genotypes and enzyme activity phenotypes in the Chinese Han population, were well characterized through healthy adults originated from 21 provinces
The results showed that the top six frequency of G6PD gene variants in the Han Chinese were c.1376C>T, c.1388G>A, c.95A>G, c.392G>T, c.871G>A, and c.1024C>T

Summary

Introduction

The existing prevalence and molecular epidemiology of G6PD deficiency in China were geographically limited. A significant gap between G6PD activities in hemizygous and normal males was observed, and yet, the overall distribution of that in females carrying missense mutations was a continuum from G6PD severely deficient to normal. This is the first report of discussing the association between G6PD genetic variants in the Chinese and enzyme activity phenotypes. The inheritance of G6PD deficiency shows a typical X-linked pattern Males with this disorder will always be hemizygous, while females may be heterozygous or more rarely. Heterozygous females are genetic mosaics as a result of X-chromosome inactivation and may have normal or deficient enzyme activities, depending on the relative proportion of G6PD deficient red cells. More than 200 mutations in the G6PD gene have been described, most of which are single-base s ubstitutions[4]

Methods

Results

Conclusion