New T530C mutation in the aspartoacylase gene caused Canavan disease with no correlation between severity and N-acetylaspartate excretion

Abstract

ObjectiveCanavan disease (OMIM 271900) is a severe autosomal recessive neurodegenerative disorder characterized by spongy degeneration of the brain and caused by mutations in the gene encoding for aspartoacylase (ASPA). The enzyme is responsible for the catalyses of the brain-specific compound N-acetylaspartate (NAA). Design and methodsWe report the case of two Egyptian sibling patients suspected of Canavan disease (CD) showing clinical deterioration, white matter degeneration, megalencephaly and severe intellectual impairment. The patients underwent magnetic resonance imaging (MRI) and biochemical analysis of NAA in biological fluid samples (serum and urine). Subsequently, in order to determine the mutation responsible for CD in these two sibs, a molecular biological examination was performed. ResultsMRI findings and quantification of high NAA excretion (1378.5 and 680.1μmolNAA/mmolcreatinine in urine of 4months and 4years old patients, respectively) confirmed the diagnosis of CD and prompted a search for the responsible mutation. The molecular biological analysis revealed homozygosity for the substitution T530C (Ile177Thr) in the exon 4 of the ASPA gene in both sibs.A total loss of enzymatic activity was also recorded. ConclusionsThe substitution T530C (Ile177Thr) results in a novel missense mutation causing a CD phenotype with severe clinical characteristics. This mutation was not previously described in the literature. In these two sibs, urinary concentration of NAA appears to correlate inversely to symptom severity and CD progression.