A possible role of Golgi membrane-associated galactosyltransferase in the formation of zymogen granule glycoproteins

A galactosyltransferase activity in smooth microsomes and Golgi membrane-rich fractions from rat pancreas glycosylated endogenous acceptors during incubation with UDP-¹⁴C]galactose in the absence of exogenous glycoproteins. To evaluate the role of this activity in secretion, the endogenous products were partially characterized. Galactose-labeled fractions were sequentially extracted in 0.2 m NaHCO₃ and 0.25 m NaBr to prepare membranes and soluble acceptors. Bound radioactivity was equally distributed between these two fractions. Analysis by polyacrylamide gel electrophoresis in sodium dodecyl sulfate indicated that the particulate galactose-labeled polypeptides were distinct from the soluble galactose acceptors. Rabbit antisera against highly purified zymogen granule membranes precipitated approximately 40% of the radioactivity of the particulate fraction when solubilized in nonionic detergents. In polyacrylamide gels, the galactose-labeled species of the immunoprecipitate migrated with zymogen granule membrane glycoproteins. Rabbit antisera against secretory proteins cross-reacted with less than 5% of the galactose-labeled soluble acceptors. Mature zymogen granule membranes neither contained detectable galactosyltransferase activity nor served as galactosyltransferase acceptors. These results suggest that galactosyltransferase activity associated with membranes derived from the Golgi complex glycosylated zymogen granule membrane precursors. Analysis of ¹⁴C]galactolipids did not implicate lipid intermediates in this process.