AMBIENT-TEMPERATURE EFFECTS ON THERMOREGULATION AND ENDURANCE IN ANTICHOLINESTERASE-TREATED RATS

In sedentary animals, physostigmine (PH) administration resulted in a decreased core temperature that is ambient temperature (Ta) dependent. PH administration in rats exercising on a treadmill (26-degrees-C, 50% rh, 11 m/min, 6-degrees incline) decremented endurance and increased rate of rise of core temperature (heating rate, HR). This study was undertaken to examine the effects of Ta on the endurance and thermoregulatory decrements of PH-treated running rats. Adult male rats (510-530g) were given either 0.2ml saline (C) or 100 ug/kg physostigmine salicylate in 0.2 ml saline via tail vein 15 min prior to the start of running to exhaustion at 10, 15, 26, or 30-degrees-C. In both C- and PH-treated groups, endurance decreased and HR increased with increasing Ta from 15 to 30-degrees-C. At 15 and 26-degrees-C the C rats ran significantly (p<.05) longer and had significantly lower HR than the PH rats: C15 = 90+/-8 min, 0.022+/-0.006-degrees-C/min; C26 = 67+/-6, 0.051+/-0.007; PH15 = 57+/-5, 0.052+/-0.008; and PH26 = 43+/-6, 0.092+/-0.007. At 10 and 30-degrees-C there were no significant differences between C and PH-treated rats. A Ta of 30-degrees-C was too high for effective cooling in either group, and at 10-degrees-C both groups were able to dissipate heat despite the increased metabolic rate of the PH-treated rats. The PH-treated rat model of cholinergic drug effect is useful at a Ta of 15 and 26-degrees-C.