Contribution of axonal transport to the renewal of myelin phospholipids in peripheral nerves. II. Biochemical study.

The classes of radioactive phospholipids appearing in the ciliary ganglion (CG) and especially in the myelin sheath of the intraorbital part of the oculomotor nerve (OMN) were determined after the intracerebral injection of [2-3H]glycerol and [methyl-14C]choline to chickens. Analysis of the radioactive compounds in water-soluble fractions and chloroform-methanol extracts was performed by thin-layer chromatography (TLC). The water-soluble content of the OMN and CG was much poorer in [2-3H]glycerol and metabolites than in [methyl-14C]choline and derivatives. All classes of glycerophospholipids were found to be axonally transported along the OMN and into the CG, but choline-phosphoglycerides (CPG) were largely predominant. In myelin fractions from the OMN, the specific radioactivity (SRA) of CPG labeled with [2-3H]glycerol reached a maximum earlier (40 h) than the SRA of CPG labeled with [methyl-14C]choline. A 25-fold enhancement of the [14C]SRA of sphingomyelin (SM) was observed between 12 h and 7 days. These results indicate that: (1) axonally transported phospholipids labeled with [2-3H]glycerol consist mainly of CPG; (2) small amounts of CPG are translocated from the axon to myelin; and (3) the progressive enrichment of myelin in [14C]CPG and, to a greater extent, SM draws attention to the importance of the base recycling for local synthesis of myelin phospholipids. Thus the axonal supply of Schwann cells with choline and the transfer of axonal phospholipids to myelin would probably contribute to the metabolic interdependence existing between neuron and glia.