d-Glyceric aciduria (DGA) due to d-glycerate kinase deficiency (DGKD) is a rare autosomal-recessive inborn error of metabolism that is usually linked to the metabolism of fructose and serine. We describe a Moroccan patient with DGKD whose metabolic defect has been characterized by metabolite studies, sequencing of genomic DNA and by studies on the RNA level. Since birth the index patient presented with severe muscular hypotonia, joint hypermobility and tremor. Enantioselective analysis showed elevated d-glyceric acid in the urine of the patient, but not in that of his parents. DNA analysis revealed homozygosity in the GLYCTK gene for c.517G>T [p.(Val173Leu)], the first mutation reported for exon 3 of this gene, as well as for the c.530-4A>G polymorphism. RNA studies suggest that none of these sequence variants affects splicing. The mother was heterozygous for both sequence variants, the father heterozygous for the first one and homozygous for the polymorphism, which further supports that c.517G>T is the functionally relevant nucleotide change. The conservation of GLYCTK throughout evolution suggests an important biological role of this enzyme, although it is not known yet how mutations are linked to clinical features. Future studies should investigate the molecular defect in a more general way and search for additional roles of GLYCTK beyond its established role in catabolism of serine and fructose.
Keywords: GLYCTK; Inborn error of metabolism; Organic aciduria; Splicing; d-Glycerate kinase deficiency; d-Glyceric aciduria.
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