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Mutations in GAA Gene in Tunisian Families with Infantile Onset Pompe Disease: Novel Mutation and Structural Modeling Investigations.

Olfa-Alila FersiHajer AloulouInes WerteniNadia MahfoudhImen ChabchoubHassen KammounLeila KeskesMongia HachichaNeila BelguithFaiza Fakhfakh
Published in: Journal of molecular neuroscience : MN (2020)
Pompe disease, a rare, autosomal, recessive, inherited, lysosomal storage disorder, is caused by mutations in the acid α-glucosidase (GAA) gene leading to a deficiency of the lysosomal GAA enzyme. Some GAA mutations eliminate all enzymatic activities, causing severe infantile Pompe disease; others allow residual GAA activity and lead to middle adulthood forms. Here, we report a cohort of 12 patients, belonging to 11 unrelated families, with infantile Pompe disease. The mutational analysis of GAA gene revealed a novel c.1494G > A (p.Trp498X) mutation in one patient and three known mutatio,ns including the c.1497G > A (p.Trp499X) mutation, in two patients, the c.1927G > A (p.Gly643Arg) mutation in one patient and the common c.236_246del (p.Pro79ArgfsX13) mutation in eight patients. The high prevalence of c.236_246del mutation in our cohort (58%) was supported by the existence of a common founder ancestor that was confirmed by its segregation of similar SNPs haplotype, including four intragenic SNPs of GAA gene. In addition, a 3D structure model and a docking were generated for the mutant p.Gly643Arg using the crystal structure of human GAA as template and the 4-methylumbelliferyl-α-D-glucopyranoside as substrate. The results showed that the arginine at position 643 caused electrostatic changes in neighboring regions, leading to the repulsion between the amino acids located in the catalytic cavity of the GAA enzyme, thus restricting access to its substrate. These structural defects could cause the impairment of the transport and maturation previously reported for p.Gly643Arg mutation.
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