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

Simonetta Costa; Angelo Minucci; Amit Kumawat; Maria De Bonis; Giorgia Prontera; Mariannita Gelsomino; Milena Tana; Eloisa Tiberi; Alberto Romano; Antonio Ruggiero; Stefano Mastrangelo; Giuseppe Palumbo; Giulia Palumbo; Valentina Giorgio; Maria Elisabetta Onori; Martino Bolognesi; Carlo Camilloni; Lucio Luzzatto; Giovanni Vento

doi:10.1111/bjh.19775

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

Simonetta Costa, Angelo Minucci, Amit Kumawat, Maria De Bonis, Giorgia Prontera, Mariannita Gelsomino, Milena Tana, Eloisa Tiberi, Alberto Romano, Antonio Ruggiero, Stefano Mastrangelo, Giuseppe Palumbo, Giulia Palumbo, Valentina Giorgio, Maria Elisabetta Onori, Martino Bolognesi, Carlo Camilloni, Lucio Luzzatto, Giovanni Vento

Risultato della ricerca: Contributo in rivista › Articolo › peer review

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.

Lingua originale	Inglese
pagine (da-a)	N/A-N/A
Rivista	British Journal of Haematology
DOI	https://doi.org/10.1111/bjh.19775
Stato di pubblicazione	Pubblicato - 2024

Keywords

G6PD
G6PD deficiency
chronic haemolytic disorder
class A variant
molecular dynamics simulations

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10.1111/bjh.19775

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Costa, S., Minucci, A., Kumawat, A., De Bonis, M., Prontera, G., Gelsomino, M., Tana, M., Tiberi, E., Romano, A., Ruggiero, A., Mastrangelo, S., Palumbo, G., Palumbo, G., Giorgio, V., Onori, M. E., Bolognesi, M., Camilloni, C., Luzzatto, L., & Vento, G. (2024). Pathogenic G6PD variants: Different clinical pictures arise from different missense mutations in the same codon. British Journal of Haematology, N/A-N/A. https://doi.org/10.1111/bjh.19775

@article{f93ac3e7c5944c14aaebe31bbd4a4b47,

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

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.",

keywords = "G6PD, G6PD deficiency, chronic haemolytic disorder, class A variant, molecular dynamics simulations, G6PD, G6PD deficiency, chronic haemolytic disorder, class A variant, molecular dynamics simulations",

author = "Simonetta Costa and Angelo Minucci and Amit Kumawat and Maria De Bonis and Giorgia Prontera and Mariannita Gelsomino and Milena Tana and Eloisa Tiberi and Alberto Romano and Antonio Ruggiero and Stefano Mastrangelo and Giuseppe Palumbo and Giulia Palumbo and Valentina Giorgio and Onori, {Maria Elisabetta} and Martino Bolognesi and Carlo Camilloni and Lucio Luzzatto and Giovanni Vento",

year = "2024",

doi = "10.1111/bjh.19775",

language = "English",

pages = "N/A--N/A",

journal = "British Journal of Haematology",

issn = "0007-1048",

publisher = "John Wiley and Sons Inc.",

}

Costa, S, Minucci, A, Kumawat, A, De Bonis, M, Prontera, G, Gelsomino, M, Tana, M, Tiberi, E, Romano, A, Ruggiero, A , Mastrangelo, S, Palumbo, G, Palumbo, G, Giorgio, V, Onori, ME, Bolognesi, M, Camilloni, C, Luzzatto, L & Vento, G 2024, 'Pathogenic G6PD variants: Different clinical pictures arise from different missense mutations in the same codon', British Journal of Haematology, pagg. N/A-N/A. https://doi.org/10.1111/bjh.19775

TY - JOUR

T1 - Pathogenic G6PD variants: Different clinical pictures arise from different missense mutations in the same codon

AU - Costa, Simonetta

AU - Minucci, Angelo

AU - Kumawat, Amit

AU - De Bonis, Maria

AU - Prontera, Giorgia

AU - Gelsomino, Mariannita

AU - Tana, Milena

AU - Tiberi, Eloisa

AU - Romano, Alberto

AU - Ruggiero, Antonio

AU - Mastrangelo, Stefano

AU - Palumbo, Giuseppe

AU - Palumbo, Giulia

AU - Giorgio, Valentina

AU - Onori, Maria Elisabetta

AU - Bolognesi, Martino

AU - Camilloni, Carlo

AU - Luzzatto, Lucio

AU - Vento, Giovanni

PY - 2024

Y1 - 2024

N2 - 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.

AB - 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.

KW - G6PD

KW - G6PD deficiency

KW - chronic haemolytic disorder

KW - class A variant

KW - molecular dynamics simulations

KW - G6PD

KW - G6PD deficiency

KW - chronic haemolytic disorder

KW - class A variant

KW - molecular dynamics simulations

UR - http://hdl.handle.net/10807/297447

U2 - 10.1111/bjh.19775

DO - 10.1111/bjh.19775

M3 - Article

SN - 0007-1048

SP - N/A-N/A

JO - British Journal of Haematology

JF - British Journal of Haematology

ER -

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

Abstract

Keywords

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