Neurotransmitter release and its facilitation in crayfish muscle

Abstract

Excitatory postsynaptic currents (EPSCs) were recorded extracellularly from synaptic spots on crayfish opener muscle fibers. Synapses on the proximal fiber bundle were characterized as fast, with a relatively high quantal-release ratem of 0.2–5 and a low twin-pulse facilitationF _s of 1.1–3, at 13.5 mM [Ca]₀ and low (0.5/s) repetition rate. Unter the same conditions, distal “slow” synapses had a release ratem of 0.02–0.4 and a facilitationF _s of 2–4. When the [Ca]₀ was varied between 1.7 and 27 mM, release and facilitation were much less affected in proximal, fast synapses than in distal, slow ones. The average maximal slope of the log release to log [Ca]₀ relation was 1.5 in proximal, and 3.1 in distal synapses, while the average maximal facilitationF _s was 2.5 in proximal and 4.7 in distal synapses, respectively. Assuming saturation kinetics for entry of Ca into the terminal and release of transmitter, possible variations of parameters generating the fast-slow differentiation were explored. Excluding a number of possibilities, it was found that in addition to a higher maximal release level, fast synapses seem to have a higher resting [Ca]_i and/or a lower cooperativity of the release mechanism, as compared to slow synapses.