Transneuronally transported wheat germ agglutinin labels glia as well as neurons in the rat visual system

Abstract

Following intraocular injection in adult rats of ¹²⁵I‐labeled wheat germ agglutinin (I‐WGA), the ultrastructural distribution of label in the superior colliculus and lateral geniculate was examined by electron microscope auto‐radiography. Three days after injection, 5.4% of the label in the lateral geniculate was associated with neuronal perikarya, and 3.6% was associated with glial perikarya. The corresponding figures for the superior colliculus were 5.1% and 0.8%. When the data were expressed as number of grains per μm² cytoplasm, there was no statistically significant difference between the grain density over neuronal or glial cytoplasm in either the lateral geniculate or the superior colliculus, A statistical analysis of the distance between the silver grains and the cell membranes showed that in both neurons and glia, the observed labeling was the product of internalized I‐WGA and not the result of scatter from the neuropil or from label bound to the surface of the cells. These results indicate that much of the WGA released from axons and axon terminals is not confined to a specific “transsynaptic” pathway, but produces a generalized labeling of nearby cells, much like a microinjection of WGA into the region.