| Abstract: | Human acid beta-glucosidase (glucosylceramidase; EC 3.2.1.45) cleaves the glycosidic bonds of glucosyl ceramide and synthetic beta-glucosides. Conduritol B epoxide (CBE) and its brominated derivative are mechanism-based inhibitors which bind covalently to the catalytic site of acid beta-glucosidase. Procedures using brominetritiated CBE and monospecific anti-human placental acid beta-glucosidase IgG were developed to determine the molar concentrations of functional acid beta-glucosidase catalytic sites in pure placental enzyme preparations from normal sources; kcat values then were calculated from Vmax = Et]kcat using glucosyl ceramide substrates with dodecanoyl (2135 +/- 45 min-1) and hexanoyl (3200 +/- 410 min-1) fatty acid acyl chains and 4-alkyl-umbelliferyl beta-glucoside substrates with methyl (2235 +/- 197 min-1), heptyl (1972 +/- 152 min-1), nonyl (2220 +/- 247 min-1), and undecyl (773 +/- 44 min-1) alkyl chains. The respective kcat values for acid beta-glucosidase in a crude normal splenic preparation were about 60% of these values. In comparison, the kcat values of the mutant splenic acid beta-glucosidase from two Type 1 Ashkenazi Jewish Gaucher disease (AJGD) patients were about 1.5-3-fold decreased and had Km values for each substrate which were similar to those for the normal acid beta-glucosidase. The interaction of the normal and Type 1 AJGD enzymes with CBE in a 1:1 stoichiometry conformed to a model with reversible EI complexes formed prior to covalent inactivation. With CBE, the equal kmax values (maximal rate of inactivation) for the normal (0.051 +/- 0.009 min-1) and Type 1 AJGD (0.058 +/- 0.016 min-1) enzymes were consistent with the minor differences in kcat. In contrast, the Ki value (dissociation constant) (839 +/- 64 microM) for the Type 1 AJGD enzymes was about 5 times the normal Ki value (166 +/- 57 microM). These results indicated that the catalytically active Type 1 AJGD acid beta-glucosidase had nearly normal hydrolytic capacity and suggested an amino acid substitution in or near the acid beta-glucosidase active site leading to an in vivo instability of the mutant enzymatic activity. |
