Stability of enzymatic indicators of metabolic and neuronal activity in post-ganglionic neurons supplying the urinary tract of aged rats

Abstract

Aged post-ganglionic neurons supplying the urinary tract exhibit stability in their metabolic and functional status, as demonstrated by quantification of enzyme histochemical reaction products. The major pelvic and thirteenth thoracic (T13) ganglia from 4- and 24-month-old male Wistar rats were incubated under standardized conditions to demonstrate succinate dehydrogenase, NADH-tetrazolium reductase and cytochrome oxidase activities. The amount of reaction product for each enzyme, localized in neuronal perikarya throughout the ganglia, was quantified by microdensitometry. Comparison of mean totals demonstrated stability of all three enzymes with age in both the major pelvic and T13 ganglia and in target organs. Also, the distribution and range of reaction product densities were similar. In both ganglia, the number of NADH-tetrazolium reductase-stained neurons per unit area was reduced in the aged animals. Additionally, nicotinic (DMPP) and muscarinic (McN-A-343) agonists were used to mimic the effects of preganglionic stimulation in the major pelvic ganglia before performing enzyme histochemical reaction. Quantification of these activities demonstrated that the response of aged neurons to preganglionic stimulation was unchanged. These results indicate an overall metabolic stability in post-ganglionic autonomic neurons innervating the urinary tract and in their targets in aged rats. © 1998 Chapman & Hall