Abstract.
The non-spiking neurons 151 are present as bilateral pairs in each midbody ganglion of the leech nervous system and they are electrically coupled to several motorneurons. Intracellular recordings were used to investigate how these neurons process input from the mechanosensory P neurons in isolated ganglia. Induction of spike trains (15 Hz) in single P cells evoked responses that combined depolarizing and hyperpolarizing phases in cells 151. The phasic depolarizations, transmitted through spiking interneurons, reversed at around –20 mV. The hyperpolarization had two components, both reversing at around –65 mV, and which were inhibited by strychnine (10 µmol l–1). The faster component was transmitted through spiking interneurons and the slower component through a direct P-151 interaction. Short trains (<400 ms) of P cell spikes (15 Hz) evoked the phasic depolarizations superimposed on the hyperpolarization, while long spike trains (>500 ms) produced a succession of depolarizations that masked the hyperpolarizing phase. The amplitude and duration of the hyperpolarization reached their maximum at the initial spikes in a train, while the depolarizations persisted throughout the duration of the stimulus train. Both phases of the response were relatively unaffected by the spike frequency (5–25 Hz). The non-spiking neurons 151 processed the sensory signals in the temporal rather than in the amplitude domain.
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Marín-Burgin, A., Szczupak, L. Processing of sensory signals by a non-spiking neuron in the leech. J Comp Physiol A 186, 989–997 (2000). https://doi.org/10.1007/s003590000152
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DOI: https://doi.org/10.1007/s003590000152