Effects of "non-quantal" acetylcholine on miniature endplate currents in mice

Abstract

The possibility of postsynaptic potentiation (PSP) and desensitization developing due to nonquantal acetylcholine (ACh) secretion was investigated in mouse diaphragm with reference to time-amplitude relationships of miniature endplate currents (MEPC). The H effect (which characterizes nonquantal secretion (NS) of ACh) fell to zero over 3 h under the action of armine-induced inhibition of acetylcholinesterase (AChE) at a temperature of 20°C. A decline in the decay time constant (τ) of MEPC unaccompanied by observable alteration in MEPC amplitude occurred at the same time. This accelerated decay of MEPC was not observed in the absence of NS (the early stages of denervation). Start of NS did not show any effect on maximum retardation of MEPC decay due to AChE inhibition, indicating that no PSP sets in under the effects of non-quantal secretion. The effect of decline in τ accelerated with a rise in temperature; it could be reproduced with neostigmine replacing armine, while τ remained unchanged in the time spells investigated with AChE in its active state. Non-quantal ACh is not thought to produce substantial retardation of MEPC decay, although it does bring about desensitization, signs of which may be partially masked owing to concurrent onset of PSP.