G6PD deficiency results from mutations in the X-linked G6PD gene. More than 200 variants are associated with enzyme deficiency: each one of them may either cause predisposition to haemolytic anaemia triggered by exogenous agents (class B variants), or may cause a chronic haemolytic disorder (class A variants). Genotype–phenotype correlations are subtle. We report a rare G6PD variant, discovered in a baby presenting with severe jaundice and haemolytic anaemia since birth: the mutation of this class A variant was found to be p.(Arg454Pro). Two variants affecting the same codon were already known: G6PD Union, p.(Arg454Cys), and G6PD Andalus, p.(Arg454His). Both these class B variants and our class A variant exhibit severe G6PD deficiency. By molecular dynamics simulations, we performed a comparative analysis of the three mutants and of the wild-type G6PD. We found that the tetrameric structure of the enzyme is not perturbed in any of the variants; instead, loss of the positively charged Arg residue causes marked variant-specific rearrangement of hydrogen bonds, and it influences interactions with the substrates G6P and NADP. These findings explain severe deficiency of enzyme activity and may account for p.(Arg454Pro) expressing a more severe clinical phenotype.

Pathogenic G6PD variants: Different clinical pictures arise from different missense mutations in the same codon / S. Costa, A. Minucci, A. Kumawat, De , M. Bonis, G. Prontera, M. Gelsomino, M. Tana, E. Tiberi, A. Romano, A. Ruggiero, S. Mastrangelo, G. Palumbo, V. Giorgio, M.E. Onori, M. Bolognesi, C. Camilloni, L. Luzzatto, G. Vento. - In: BRITISH JOURNAL OF HAEMATOLOGY. - ISSN 0007-1048. - (2024), pp. 1-10. [Epub ahead of print] [10.1111/bjh.19775]

Pathogenic G6PD variants: Different clinical pictures arise from different missense mutations in the same codon

A. Kumawat;M. Bolognesi;C. Camilloni;
2024

Abstract

G6PD deficiency results from mutations in the X-linked G6PD gene. More than 200 variants are associated with enzyme deficiency: each one of them may either cause predisposition to haemolytic anaemia triggered by exogenous agents (class B variants), or may cause a chronic haemolytic disorder (class A variants). Genotype–phenotype correlations are subtle. We report a rare G6PD variant, discovered in a baby presenting with severe jaundice and haemolytic anaemia since birth: the mutation of this class A variant was found to be p.(Arg454Pro). Two variants affecting the same codon were already known: G6PD Union, p.(Arg454Cys), and G6PD Andalus, p.(Arg454His). Both these class B variants and our class A variant exhibit severe G6PD deficiency. By molecular dynamics simulations, we performed a comparative analysis of the three mutants and of the wild-type G6PD. We found that the tetrameric structure of the enzyme is not perturbed in any of the variants; instead, loss of the positively charged Arg residue causes marked variant-specific rearrangement of hydrogen bonds, and it influences interactions with the substrates G6P and NADP. These findings explain severe deficiency of enzyme activity and may account for p.(Arg454Pro) expressing a more severe clinical phenotype.
chronic haemolytic disorder; class A variant; G6PD; G6PD deficiency; molecular dynamics simulations;
Settore PHYS-06/A - Fisica per le scienze della vita, l'ambiente e i beni culturali
Settore BIOS-07/A - Biochimica
2024
18-set-2024
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1109008
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