Effects of Cholinergic Substances on Plasticity of Synapses in Olfactory Bulb of the Pike Esox lucius

Abstract

An electrophysiological and morphometric study of effects of cholinergic substances on orthodromic potential (OP), induction of long-term post-tetanic potentiation (PTP), and potentiated OP in olfactory bulb (OB) of intact pike was carried out. The final effect of endogenous ACh on relay neurons of the OB was found to be inhibitory. Activation of M1-like cholinoreceptors (ChR) was shown to play the key role in induction of long-term PTP. In response to tetanization of olfactory nerve (ON) after pirenzepine-induced inhibition of M1-like ChR, no potentiation appears and the length of cross-section of axo-dendritic synapse active zone (AZ) does not change in the OB glomerular neuropil. Tetanization of ON after inhibition of M2-like ChR by gallamine leads to the appearance of short-term PTP transformed later into long-term PTP accompanied by a significant decrease of length of cross-sections of axo-dendritic synapse AZ. Effects of both increase of endogenous ACh concentration by eserine (0.1 μM) and blockade of M2-like ChR by gallamine (10 μM) on potentiated OP were manifested as a decrease of its amplitude to control level. The obtained data allow considering that endogenous ACh in the pike OB has a pronounced effect on induction, development, and stabilization of the long-term PTP. This holds equally true to both functional and morphological manifestations of plasticity of axo-dendritic synapses of the glomerular neuropil.