EVIDENCE FOR THE BIOSYNTHESIS OF MANNOSYLPHOSPHORYLDOLICHOL AND N-ACETYLGLUCOSAMINYLPYROPHOSPHORYLDOLICHOL BY AN AXOLEMMA-ENRICHED MEMBRANE PREPARATION FROM BOVINE WHITE MATTER

An axolemma-enriched membrane fraction prepared by an improved procedure from bovine white matter catalyzes the enzymatic transfer of ¹⁴C]mannose and N-acetyl¹⁴C]glucosamine from their nucleotide derivatives into a mannolipid and an N-acetylglucosaminyl lipid in the presence of exogenous dolichyl monophosphate. The labeled glycolipid products have the chemical and chromatographic characteristics of mannosylphosphoryldolichol and N-acetylglucosaminylpyrophosphoryldolichol. The initial rates of synthesis of the glycolipids by the axolemma-enriched membrane fraction have been compared with the initial rates of glycolipid formation catalyzed by a microsomal preparation and myelin in the presence or absence of dolichyl monophosphate. Essentially no glycolipid synthesis was observed when either GDP-¹⁴C]mannose or UDP-N-acetyl¹⁴C]glucosamine were incubated with myelin in the presence or absence of exogenous dolichyl monophosphate. A comparison of the initial rates of synthesis of the glycolipids using endogenous acceptor lipid revealed that the rate of formation of mannolipid was 7 times faster for the microsomal membranes than the axolemma-enriched membranes. In the presence of an amount of dolichyl monophosphate approaching saturation the initial rate of glycolipid synthesis was markedly enhanced for both membrane preparations. However, due to a more dramatic enhancement in the axolemma-enriched membranes the initial rate of mannolipid synthesis was only approx. 2.5 times greater in the microsomal membranes. A similar observation was made when the initial rates of N-acetylglucosaminyl lipid synthesis were compared for axolemma-enriched and microsomal preparations in the presence and absence of exogenous dolichyl monophosphate. These studies indicate that the axolemma-enriched membranes have a relatively lower content of dolichyl monophosphate than the microsomal membranes although the difference in the amount of mannosyltransferase is only two to three-fold lower. The presence of a sugar nucleotide pyrophosphatase activity capable of degrading GDP-mannose and UDP-N-acetylglucosamine has also been demonstrated in the axolemma-enriched membrane fraction.