Cholinergic and electrical synapses between synergistic spinal motoneurones in the Xenopus laevis embryo.

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Cholinergic and electrical synapses between synergistic spinal motoneurones in the Xenopus laevis embryo.

R Perrins and A Roberts

School of Biological Sciences, University of Bristol, UK.

1. To investigate central motoneurone synapses within the spinalcord of a simple vertebrate, the Xenopus embryo, simultaneousintracellular recordings were made from fifty-five pairs ofspinal motoneurones. 2. Chemical synapses were found betweenseventeen out of thirty-five pairs on the same side of the spinalcord. Current-evoked spikes in the presynaptic neurone led tofast depolarizing postsynaptic potentials (PSPs) in the postsynapticneurone at latencies of 0.5-1.5 ms. The PSPs had an averageamplitude of 7 mV, a rise time of 8 ms and a half-fall timeof 18 ms. 3. The presynaptic motoneurone was always the morerostral of the pair. No excitatory connections were found whichcrossed the cord. The fast PSPs were blocked by 10 microM mecamylaminebut not by 1 mM kynurenic acid, so were mediated by nicotinicacetylcholine receptors (nAChRs). These are the first unitaryexcitatory postsynaptic potentials (EPSPs) mediated by nAChRsrecorded intracellularly within the vertebrate central nervoussystem. 4. Bidirectional electrical synapses were found betweenfive pairs of motoneurones. All these pairs were on the sameside of the spinal cord and less than 70 microns apart. Eachneurone responded in a graded manner to either hyperpolarizingor depolarizing current injected into the other. 5. Since motoneuronesare rhythmically active during swimming, both chemical and electricalsynapses will add to the fast on-cycle excitation underlyingspiking activity in other motoneurones. This may increase thereliability and local synchrony of synergistic motoneurone firingduring locomotion.

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