Abstract
The neuropathic glycosphingolipidoses are a subgroup of lysosomal storage disorders for which there are no effective therapies. A potential approach is substrate reduction therapy using inhibitors of glucosylceramide synthase (GCS) to decrease the synthesis of glucosylceramide and related glycosphingolipids that accumulate in the lysosomes. Genz-529468, a blood-brain barrier-permeant iminosugar-based GCS inhibitor, was used to evaluate this concept in a mouse model of Sandhoff disease, which accumulates the glycosphingolipid GM2 in the visceral organs and CNS. As expected, oral administration of the drug inhibited hepatic GM2 accumulation. Paradoxically, in the brain, treatment resulted in a slight increase in GM2 levels and a 20-fold increase in glucosylceramide levels. The increase in brain glucosylceramide levels might be due to concurrent inhibition of the non-lysosomal glucosylceramidase, Gba2. Similar results were observed with NB-DNJ, another iminosugar-based GCS inhibitor. Despite these unanticipated increases in glycosphingolipids in the CNS, treatment nevertheless delayed the loss of motor function and coordination and extended the lifespan of the Sandhoff mice. These results suggest that the CNS benefits observed in the Sandhoff mice might not necessarily be due to substrate reduction therapy but rather to off-target effects.
Highlights
Sandhoff disease, or type 2 GM2 gangliosidosis, is caused by mutations in the HEXB gene and the resultant deficiency in bhexosaminidase activity
Glycosphingolipidoses that do not present with neuropathic disease can be treated effectively by enzyme-replacement therapy (ERT) by periodic intravenous infusions of the respective recombinant enzymes [2,3]
The formulations of Genz-529468 and NB-DNJ used in these studies were active at inhibiting non-CNS glucosylceramide synthase (GCS) despite using a 6-fold lower dose of Genz-529468
Summary
Type 2 GM2 gangliosidosis, is caused by mutations in the HEXB gene and the resultant deficiency in bhexosaminidase activity. This deficiency causes aberrant lysosomal accumulation of the ganglioside GM2, b-N-acetylgalactosamineterminal glycolipids and b-N-acetylglucosamine-terminal oligosaccharides [1]. Glycosphingolipidoses that do not present with neuropathic disease (such as type 1 Gaucher disease and Fabry disease) can be treated effectively by enzyme-replacement therapy (ERT) by periodic intravenous infusions of the respective recombinant enzymes [2,3]. Preclinical studies with a GCS inhibitor have shown that SRT is potentially therapeutic in Fabry disease [8]
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