A case of childhood Pompe disease demonstrating phenotypic variability of p.Asp645Asn.

A six-year-old child presented at 8 months of age with proximal muscle weakness and mild cardiac hypertrophy. Some alpha-glucosidase activity was detected in muscle but not in fibroblasts. As none of the two pathogenic mutations, [c.1933G>A]+[c.2702T>A] (Asp645Asn/Leu901Gln), led to detectable alpha-glucosidase activity upon expression in COS cells, the phenotype of the patient remained unexplained. A functionally comparable set of mutations, Asp645Asn/insGnt2243, was reported previously to cause classic infantile Pompe disease [Biochem Biophys Res Commun 244 (1998) 921]. We conclude that secondary genetic or environmental factors can be decisive for the phenotypic outcome of classic infantile versus childhood Pompe disease, when the acid alpha-glucosidase activity is extremely low.

Twenty-two novel mutations in the lysosomal alpha-glucosidase gene (GAA) underscore the genotype-phenotype correlation in glycogen storage disease type II.

Patients with glycogen storage disease type II (GSDII, Pompe disease) suffer from progressive muscle weakness due to acid alpha-glucosidase deficiency. The disease is inherited as an autosomal recessive trait with a spectrum of clinical phenotypes. We have investigated 29 cases of GSDII and thereby identified 55 pathogenic mutations of the acid alpha-glucosidase gene (GAA) encoding acid maltase. There were 34 different mutations identified, 22 of which were novel. All of the missense mutations and two other mutations with an unpredictable effect on acid alpha-glucosidase synthesis and function were transiently expressed in COS cells. The effect of a novel splice-site mutation was investigated by real-time PCR analysis. The outcome of our analysis underscores the notion that the clinical phenotype of GSDII is largely dictated by the nature of the mutations in the GAA alleles. This genotype-phenotype correlation makes DNA analysis a valuable tool to help predict the clinical course of the disease.