Decreased tetanic contracture of rat skeletal muscle induced by pyridostigmine

Abstract

The purpose of this study was to compare the effects of various regimens of pyridostigmine administration on the contractile strength of skeletal muscle. Rats were exposed to pyridostigmine according to 3 dosing schedules: 2 mglkg ip daily, 5 mg/kg • d by sc infusion, and 25 mg/kg • d by sc infusion. After 1, 4, 10, and 20 d of exposure, measurements were made of muscle tension during tetanic stimulation, and of muscle mass, erythrocyte acetylcholinesterase activity, and body weight. Pyridostigmine produced a dose‐dependent decrement in the contracture generated during tetanic stimulation. Peak effect was observed after 4 d of exposure but remained depressed after 20 d. The magnitude of the decrement correlated with the frequency of the tetanic stimulation (from 20 to 100 Hz). Muscle tension at the end of the tetanic stimulus was affected to a greater extent than the initial tension. The 25‐mg/kg infusion of pyridostigmine significantly depressed erythrocyte acetylcholinesterase activity throughout the study and also decreased body weight on d 1–4. No change in muscle mass was observed in any treatment group. These results show that pyridostigmine exposure results in decrements in skeletal muscle contracture that are dose‐dependent, frequency‐dependent, and time‐dependent. The effect is probably not the result of muscle wasting and does not correlate well with erythrocyte acetylcholinesterase inhibition. The results are consistent with effects of pyridostigmine, both presynaptically and postsynaptically, at the neuromuscular junction that affect neurotransmitter release and receptor responsiveness.