Chemical galactosylation of human liver tissue lysosomal alpha-glucosidase was carried out. As a result of the modification some physicochemical properties of the enzyme were altered, while its stability and catalytic activity were maintained. An ability of the galactosylated alpha-glucosidase to interact with asialoglycoprotein receptor from mice liver tissue was studied in vitro. The reaction required Ca2+. A specific inhibitor of the receptor, N-acetyl galactosamine, as well as high concentrations of native glycoproteins and neoglycoproteins containing terminal galactose inhibited the receptor binding of the 125I-galactosylated alpha-glucosidase. Native alpha-glucosidase was not bound with the receptor. Antireceptor antibodies inhibited similarly binding of both native ligand, asialoorosomucoid and the galactosylated alpha-glucosidase. These data on specific interaction between the galactosylated form of alpha-glucosidase and asialoglycoprotein receptor are discussed in connection with the problem of directed transport of the enzyme into liver parenchymatous cells by means of receptor-dependent endocytosis, which may be of importance in development of enzymotherapy of hereditary lysosomal enzymopathies.
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