Microtubule stability along mammalian peripheral nerves

Abstract

Microtubule (MT) number, axonal area, and MT density were examined in unmyelinated axons of rat cervical vagus nerve. Study of nerve regions proximal (1–5 mm) and distal (35–40 mm) to the nodosum ganglion in controls (incubation at 37°C for 1 h) showed that the number of MT per axon is significantly less in distal than in proximal nerve regions. Cooling (incubation at 0°C for 1 h) caused a significant reduction in the number of MT per axon in both nerve regions. The unmyelinated axons from both nerve regions showed a comparable reduction in MT number by cooling, indicating that axonal MT stability to cold was not significantly different between these two nerve regions. In these nerves no detectable changes were found in cross-axonal area of unmyelinated axons between distal and proximal nerve regions. In another experimental series, in distal nerve regions (35–40 mm from the nodosum ganglion) the number of MT was not further reduced in nerves incubated at 0°C by increasing the incubation time. Similar results were obtained from colchicine treated nerves (incubation at 37°C, with 10 mM colchicine for 1 and 2 h). Distal nerve regions (35–40 mm from the nodosum ganglion) showed a similar reduction in the number of MT per axon when nerves were incubated at 0°C or with colchicine, suggesting that this drug, as well as cold, may be affecting a similar population of axonal MT, i.e., MT susceptible to anti-MT agents. These results indicate that approximately one-half of the axonal MT are stable to cold as well as to colchicine in rat unmyelinated axons.