Role of axons in membrane phospholipid synthesis in rat sympathetic neurons

Abstract

The axonal synthesis of phospholipids has been demonstrated in compartmented cultures of rat sympathetic neurons. In this model of neuron culture, metabolic events occurring in distal axons were studied independently of those occurring in cell bodies. Using radiolabeled tracers the axonal biosynthesis of the major membrane phospholipids and fatty acids but not cholesterol was detected. The capacity of axons for synthesis of phosphatidycholine (PC), the major membrane lipid, was confirmed by the demonstration that key enzymes of PC biosynthesis were present in distal axons. A double-labeling experiment showed that at least 50% of axonal PC was synthesized locally in axons, with the remainder being made in cell bodies and transported into axons. The requirement of axonal PC synthesis for axonal elongation was investigated. When PC biosynthesis in distal axons alone was inhibited by two independent approaches (deprivation of choline or addition of the inhibitor hexadecylphosphocholine) axonal growth was markedly retarded. Our experiments demonstrated that PC synthesis in cell bodies was neither necessary nor sufficient for growth of distal axons, whereas local synthesis of PC in distal axons was required for normal axonal elongation.