Abstract
The lysosomal acid β-glucosidase GBA1 and the non-lysosomal β-glucosidase GBA2 degrade glucosylceramide (GlcCer) to glucose and ceramide in different cellular compartments. Loss of GBA2 activity and the resulting accumulation of GlcCer results in male infertility, whereas mutations in the GBA1 gene and loss of GBA1 activity cause the lipid-storage disorder Gaucher disease. However, the role of GBA2 in Gaucher disease pathology and its relationship to GBA1 is not well understood. Here, we report a GBA1-dependent down-regulation of GBA2 activity in patients with Gaucher disease. Using an experimental approach combining cell biology, biochemistry, and mass spectrometry, we show that sphingosine, the cytotoxic metabolite accumulating in Gaucher cells through the action of GBA2, directly binds to GBA2 and inhibits its activity. We propose a negative feedback loop, in which sphingosine inhibits GBA2 activity in Gaucher cells, preventing further sphingosine accumulation and, thereby, cytotoxicity. Our findings add a new chapter to the understanding of the complex molecular mechanism underlying Gaucher disease and the regulation of β-glucosidase activity in general.
Highlights
Gaucher disease is one of the most common lysosomal storage disorders in humans
We demonstrate that GBA2 activity depends on GBA1 activity, but not vice versa
GBA2 activity is down-regulated in the absence of GBA1 activity
Summary
APRIL 14, 2017 VOLUME 292 NUMBER 15 patients [2], all leading to the loss of enzyme activity, resulting in GlcCer accumulation in the lysosome. This is predominantly evident in tissue macrophages, which turn into massively enlarged “Gaucher” cells, causing an up to 25-fold increase in organ size (organomegaly) of liver and spleen [3, 4]. The GBA1 protein level in fibroblasts from Gaucher patients was significantly reduced compared with control cells with GBA1 expression being lowest in fibroblasts from type II patients (Fig. 1, J and K). Down-regulation of GBA2 activity in the absence of GBA1 activity is not due to a decrease in GBA2 mRNA or protein expression
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