The nicotinic activation of the denervated sympathetic neuron of the rat

Abstract

Nicotinic responses to endogenous acetylcholine and to exogenously applied agonists have been studied in the intact or denervated rat sympathetic neuron in vitro, by using the two-microelectrode voltage-clamp technique. Preganglionic denervation resulted in progressive decrease of the synaptic current (excitatory postsynaptic current, EPSC) amplitude, which disappeared within 24 h. These effects were accompanied by changes in ion selectivity of the nicotinic channel (nAChR). The extrapolated EPSC null potential (equilibrium potential for acetylcholine action, ESyn) shifted from a mean value of −15.9±0.7 mV, in control, to −7.4±1.6 mV, in denervated neurons, indicating a decrease of the permeability ratio for the main components of the synaptic current (PK/PNa) from 1.56 to 1.07. The overall properties of AChRs were investigated by applying dimethylphenylpiperazinium or cytisine and by examining the effects of endogenous ACh, diffusing within the ganglion after preganglionic tetanization in the presence of neostigmine. The null potentials of these macrocurrents (equilibrium potential for dimethylphenylpiperazinium action, EDMPP; and equilibrium potential for diffusing acetylcholine, EACh, respectively) were evaluated by applying voltage ramps and from current–voltage plots. In normal neurons, ESyn (−15.9±0.7 mV) was significantly different from EDMPP (−26.1±1.0) and EACh (−31.1±3.3); following denervation, nerve-evoked currents displayed marked shifts in their null potentials (ESyn=−7.4±1.6 mV), whereas the amplitude and null potential of the agonist-evoked macrocurrents were unaffected by denervation and its duration (EDMPP=−26.6±1.2 mV). It is suggested that two populations of nicotinic receptors, synaptic and extrasynaptic, are present on the neuron surface, and that only the synaptic type displays sensitivity to denervation.