Accumulation of glucosylceramide and glucosylsphingosine (psychosine) in cerebrum and cerebellum in infantile and juvenile Gaucher disease

Abstract

Three major clinical variants of Gaucher disease have been defined: Type I, chronic nonneuronopathic; Type II, acute neuronopathic; and Type III, subacute neuronopathic. In a search for the underlying molecular basis of the neurological manifestations, the concentration and composition of cholesterol, phospholipids, neutral glycosphingolipids, and gangliosides were examined in cerebral and cerebellar cortices of five cases of Type II, eight cases of Type III, and one case of presumed Type I/III. In Type II the concentration of glucosylceramide was 140-530 mumol/kg in cerebral cortex and 51-450 mumol/kg in cerebellar cortex, the highest values found in the most fulminant cases. These concentrations were 20-80 times greater than normal in cerebral cortex and 5-40 times normal in cerebellar cortex. In type III the concentration of glucosylceramide was 37-65 and 59-1750 mumol/kg in cerebral and cerebellar cortex, respectively. The highest concentrations were found in the cerebellum of patients who had survived splenectomy for several years. The ceramide composition of the accumulated glucosylceramide suggested that brain gangliosides were the major precursors of the glucosylceramide in brains of Type II but in cerebellar cortex in Type III was partly of extracerebral origin. The levels of lactosylceramide and oligohexaosylceramides were slightly raised in all brain specimens from the Gaucher cases. The ganglioside concentration was normal, whereas there was a certain increase in the proportion of GM2 and GM3 gangliosides. The brain glycosphingolipid changes in the Type I/III case were similar but slightly less than those in Type III cases of corresponding age. Glucosylsphingosine (psychosine), never detected in normal human brain, was demonstrated in brains from all the Gaucher cases. The psychosine concentration was highest in Type II cases, 3.8-8.8 and 3.9-12.3 mumol/kg in cerebral and cerebellar cortex, respectively, with the highest values found in the most fulminant cases. In type III the psychosine concentration varied more widely, 0.8-4.6 and 1.4-6.3 mumol/kg in cerebral and cerebellar cortex, respectively. The lowest value, 0.7 mumol/kg, was found in the Type I/III case. Our method detected psychosine down to 0.01 mumol/kg, which means that the concentration of psychosine was increased at least 100- to 1000-fold in Gaucher grey matter. We suggest that the accumulation of the cell-toxic substance psychosine is the basis for the extensive neuronal cell loss in Gaucher disease, which is most striking in Type II disease.