Dynamics of the transganglionic movement of horseradish peroxidase in primary sensory neurons

Abstract

The dynamics of horseradish peroxidase (HRP) transport in primary sensory neurons were studied in rats by demonstration of the reaction product in spinal nerves, spinal ganglia, dorsal roots and in the spinal cord at different survival times after applcation of the enzyme to the transected sciatic nerve and to the spinal cord. Using tetramethylbenzidine as the chromogen according to Mesulam (1978), transganglionic transport of HRP was shown in both the disto-proximal direction after peripheral application, and proximo-distal direction after central application. Significant differences in staining intensity between the central and peripheral processes of primary sensory neurons were found after all survival times used in this study. After peripheral application the number of labeled axons and the staining intensity were higher in spinal nerves than in dorsal roots; an inverse situation occurred after central application. These differences as well as the time sequences in staining of different parts of primary sensory neurons suggest that HRP applied to a peripheral nerve and to the spinal cord, respectively, enters the perikarya of spinal ganglion cells in any case before continuing its movement in a cellulifugal direction. Lysosomal degradation of the major portion of the applied HRP is supposed. However, in the post-perikaryal portion of a considerable number of neurons HRP-transport still occurs to a varying extent, thus resulting in labeling of nerve endings. In some neurons a post-perikaryal transport could not be detected light microscopically. The transport rates differ: the calculated transport rate of disto-proximal, cellulipetal movement in the fastest transporting neurons was 7.5 mm/h, that of the disto-proximal cellulifugal movement 2.5 to 3 mm/h.