Ultrastructure of axonal reaction in red nucleus of cat.

Described here are ultrastructural changes in neurons of feline red nucleus exhibiting axon reaction after unilateral rubropsinal tratotomy at the C-2 level and surviving 2 to 65 days. Ultrastructural alterations included neurofilamentous hyperplasia; proliferation of smooth ER; temporary disappearance of organized granular ER with partial substitution by haphazardly arranged, broad cisternal profiles; loss of rosette ribosomes and occurrence of single ribonucleoprotein granules or an intercisternal amorphous density; increased numbers of subsurface cisterns and allied structures, often disposed in stacks; vesiculation and vacuolation of Golgi cisternae; prevalence of autophagic bodies derived in part from Golgi complexes; probable mitochondrial hyperplasia and various qualitative changes in these organelles; an increase in lipofuscin. Dendritic changes paralleled those of perikarya save that proliferation of subsurface cisterns and autophagic bodies was absent. Abnormalities of myelinated axons and boutons occurred and may have originated from retrograde degeneration of cortical neurons induced by lateral funiculotomy. Some perikarya were devoid of axosomatic boutons. Ultrastructural changes varied with the length of postoperative survival and were, at least partly, reversible. Chromatolysis was detectable light microscopically before ultrastructural abnormality appeared. The bearing of transneuronal mechanisms on axon reaction of central neurons and the protective effect of section of axons beyond the site of origin of collaterals are discussed.