Effect of chromatolysis upon the incorporation of L-4,5-(3H)-leucine into axotomized neurons

Abstract

Autoradiography was used to compare the rate of protein synthesis in neurons which showed different types of neuronal change after axotomy. Different types of axon reaction were obtained after crush lesion of the facial nerve in rats and young rabbits and after evulsion of the facial nerve in rats. The incorporation of (3H)-leucine into protein was determined after intraperitoneal injection by counting silver grains over facial neurons in autoradiograms prepared from paraffin sections. Crush lesion of the facial nerve in rats was followed by barely discernible changes in the neurons, no chromatolysis, and full functional recovery. The lesion caused a significant transitory increase in the protein synthesis. After nerve evulsion, the same neurons showed a severe central chromatolysis and ultimate nerve cell disintegration. The protein synthesis was unchanged during the early chromatolytic phase after evulsion and decreased at later stages. Crush lesion of the facial nerve in young rabbits was followed by severe central chromatolysis, full functional recovery, and no loss of neurons. There was a moderate increase in the protein synthesis during chromatolysis and a further increase during the phase of recovery. It is concluded that regeneration after axotomy is accompanied by an increase in protein synthesis, regardless of the type of morphologic change in the neurons. Chromatolysis is not a prerequisite for this increase, and the chromatolytic response per se seems to be of minor importance for the extent of incorporation of (3H)-leucine into neuronal proteins.