A. W. Schram scite author profile

The biosynthesis and maturation of glucocerebrosidase were studied in fibroblasts from patients with the neurological and non-neurological forms of Gaucher disease and in control cells. In control fibroblasts the precursor of glucocerebrosidase (62 -63 kDa), observed after a short pulse with [35S]methionine, was converted during the chase period to a 66-kDa intermediate form and, finally, to the 59-kDa mature protein. In fibroblasts from patients with the non-neurological phenotype of Gaucher disease (type 1) the same biosynthetic forms were seen as in control fibroblasts. These biosynthetic forms correspond to the three-banded pattern seen in control and Gaucher type 1 fibroblast extracts analysed by the immunoblotting procedure, or after electrophoresis and fluorography of extracts of such fibroblasts cultured for 5 days with [14C]leucine. The 59-kDa protein seen in type 1 fibroblasts was unstable and disappeared after a prolonged chase; this disappearance was not observed when the cells were grown in the presence of leupeptin. In fibroblasts from patients with the neurological forms of Gaucher disease (types 2 and 3) the 62.5-kDa precursor of glucocerebrosidase was present in near-normal amounts after a short pulse, but the 59-kDa form was not detected even when cells were cultured with leupeptin.

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Genetic heterogeneity in the cerebrohepatorenal (Zellweger) syndrome and other inherited disorders with a generalized impairment of peroxisomal functions. A study using complementation analysis.

Brul

Westerveld²,

Strijland³

et al. 1988

J. Clin. Invest.

158

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The occurrence of two immunologically distinguishable beta-glucocerebrosidases in human spleen

et al. 1985

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The beta-glucosidase activity in spleen from control subjects and patients with different clinical phenotypes of Gaucher's disease was characterized. The occurrence of a soluble non-specific beta-glucosidase with a neutral pH optimum and two membrane-associated beta-glucocerebrosidases with an acid pH optimum was demonstrated. The two beta-glucocerebrosidases can be distinguished on the basis of their ability to react with anti-(placental beta-glucocerebrosidase) antibodies bound to protein-A--Sepharose 4B beads. One of the splenic beta-glucocerebrosidases (form I) is precipitated by the immobilized antibodies and the other (form II) is not. The two forms also differ in binding affinity to concanavalin A, degree of stimulation of enzymic activity by taurocholate and isoelectric point. In contrast, the Km values of the two beta-glucocerebrosidases for natural and artificial substrates are similar and both are inhibited by conduritol B-epoxide. In spleen from three patients with type 1, one patient with type 2 and one patient with type 3 Gaucher's disease form I beta-glucocerebrosidase was found to be clearly deficient, whereas the activity of form II was 25-50% of that in control spleen. The non-specific, neutral beta-glucosidase was not deficient in these Gaucher spleens. The distinct biochemical and immunological properties of non-specific beta-glucosidase and the fact that normal levels of the enzyme are present in patients with Gaucher's disease indicate, in confirmation of previous reports, that non-specific beta-glucosidase is not related to beta-glucocerebrosidase.

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A. W. Schram

Purification and characterization of two lipoxygenase isoenzymes from germinating barley

Acid sphingomyelinase from human urine: purification and characterization

Biosynthesis and maturation of glucocerebrosidase in Gaucher fibroblasts

Genetic heterogeneity in the cerebrohepatorenal (Zellweger) syndrome and other inherited disorders with a generalized impairment of peroxisomal functions. A study using complementation analysis.

The occurrence of two immunologically distinguishable beta-glucocerebrosidases in human spleen

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