Motor Pattern Selection via Inhibition of Parallel Pathways

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Volume 17, Number 13, Issue of July 1, 1997 pp. 4965-4975
Copyright ©1997 Society for Neuroscience

Motor Pattern Selection via Inhibition of Parallel Pathways

Received March 14, 1997; revised April 14, 1997; accepted April 16, 1997.
Dawn M. Blitz and Michael P. Nusbaum
Department of Neuroscience, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104
Motor pattern selection from a multifunctional neural network often results from direct synaptic and modulatory actions ofdifferent projection neurons onto neural network components. Lesswell documented is the presence and function of interactions amongdistinct projection neurons innervating the same network. In thestomatogastric nervous system of the crab Cancer borealis, severaldistinct projection neurons that influence the pyloric and gastricmill rhythms have been studied. These rhythms are generated byoverlapping subsets of identified neurons in the stomatogastricganglion (STG). One of these identified projection neurons isthe modulatory proctolin neuron (MPN). We showed previously thatMPN stimulation excites the pyloric rhythm by its excitatory actionson STG neurons. In contrast to its excitatory actions on the pyloricrhythm, we have now found that MPN inhibits the gastric mill rhythm.This inhibition does not occur within the STG, but instead resultsfrom MPN-mediated inhibition of two previously identified projectionneurons within the commissural ganglia. These projection neuronsinnervate the STG and, via their actions on STG neurons, theyelicit the gastric mill rhythm as well as modify the pyloric rhythmin a manner distinct from MPN. By inhibiting these projectionneurons, MPN removes excitatory drive to gastric mill neuronsand elicits an MPN-specific pyloric rhythm. Motor pattern selectionby MPN therefore results from both a direct modulation of STGnetwork activity and an inhibition of competing pathways.

Key words: stomatogastric nervous system; crustacea; projection neurons; neuromodulation; Cancer borealis

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Volume 17, Number 13, Issue of July 1, 1997 pp. 4965-4975 Copyright ©1997 Society for Neuroscience

Motor Pattern Selection via Inhibition of Parallel Pathways

Volume 17, Number 13, Issue of July 1, 1997 pp. 4965-4975
Copyright ©1997 Society for Neuroscience