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Juvenile GM2 Gangliosidosis: A Model for Investigation of Small-molecule Therapies for Lysosomal Storage Diseases

Juvenile GM2 gangliosidosis (jGM2) is a group of inherited neurodegenerative diseases caused by deficiency of lysosomal β-hexosaminidase A (Hex A) resulting in GM2 ganglioside accumulation in brain. Like many other lysosomal storage diseases (LSDs), no specific treatment currently exists. In order to establish clinical outcomes for the investigation of potential therapies for jGM2, I collected comprehensive information on the natural history of the condition by studying retrospective and prospectively a cohort of 21 patients with the disease, and reviewing previously published reports of 134 patients. Several symptoms at disease onset, symptom latencies, and the survival curve were described. Genotype-phenotype correlations and neuroradiological findings were also studied. Based on pre-clinical results in animal models, we studied substrate reduction therapy (SRT), with miglustat, in a phase I/II clinical trial to assess its pharmacokinetics (PK), safety, tolerability in infantile and jGM2. Miglustat showed a PK profile similar to the one found in adult patients. The drug was found to be safe and well-tolerated in patients with jGM2, with diarrhea and weight loss being the most common drug-related adverse events. The analysis of efficacy showed that SRT was unable to arrest the full neurological progression of the condition; however, relative stabilization of cognitive function was noted, which was consistent with brain MRI findings. Because of the limited efficacy obtained with SRT, enzyme-enhancement therapy was considered to be an attractive alternative therapy for the late onset forms of GM2 gangliosidosis. Screening of a FDA-approved library of approved therapeutic compounds resulted in the identification of pyrimethamine, as a potential pharmacological chaperone for mutant forms of Hex A. Relative enhancements of enzyme activity and protein levels were observed in patient cells treated with therapeutic concentrations of drug. Applying the same principles, ambroxol was identified as a potential PC for mutant glucocerebrosidase (GCC), the lysosomal enzyme that when deficient causes Gaucher disease (GD). Significant increases of residual mutant GCC were observed in cultured patients cells with type 1 GD. In conclusion, principles developed in the course of studies on jGM2 were shown to be useful for the investigation of novel small-molecule therapies for LSDs, associated with significant neurodegeneration.

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:OTU.1807/16802
Date20 January 2009
CreatorsMaegawa, Gustavo Henrique Boff
ContributorsClarke, Joe T. R.
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
Languageen_ca
Detected LanguageEnglish
TypeThesis
Format9630007 bytes, application/pdf

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