Differential expression of the human glucocerebrosidase-coding gene

Abstract

Gaucher disease is an inborn error of sphingolipid metabolism. It is due to decreased enzymatic activity of glucocerebrosidase (GCase) which causes accumulation of glucocerebrosides, mainly in cells of the reticulo-endothelial system. The disorder is clinically heterogenous and can include central nervous system signs. However, the manifestations of the disease in most cases are restricted to a limited number of cell types and organs. This could be explained by highly differential expression of the human gcs gene. To test this notion, the level of GCase-specific mRNA was determined in different human cell lines by hybridizing Northern blots to a human GCase-specific cDNA probe or by using the RNase protection method. It was found that epithelial cells exhibit high levels of GCase mRNA while skin fibroblasts and promyelocytes show intermediate steady-state levels of this RNA. Macrophages have low steady-state levels of GCase mRNA and in B-cells it is hardly detectable. Moreover, when B-cells or skin fibroblasts were transfected with a vector harbouring the bacterial cat gene coupled to the human gcs gene promoter, the levels of CAT expressed in each cell type were directly correlated to the amount of endogenous GCase RNA. Comparison of the GCase mRNA levels in Gaucher-versus non-Gaucher-derived cells revealed that in Gaucher cells this RNA is always more abundant than in the corresponding non-Gaucher counterparts, suggesting the involvement of a feed-back mechanism sensitive to the levels of actual enzymatic activity.