Long-Term Expression of Two Interacting Motor Pattern-Generating Networks in the Stomatogastric System of Freely Behaving Lobster

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Long-Term Expression of Two Interacting Motor Pattern-Generating Networks in the Stomatogastric System of Freely Behaving Lobster

Stefan Clemens, Denis Combes, Pierre Meyrand, and John Simmers

Laboratoire de Neurobiologie des Réseaux, Centre National de la Recherche Scientifique et Université de Bordeaux I, Unité Mixte de Recherche 5816, F-33120 Arcachon, France

Clemens, Stefan, Denis Combes, Pierre Meyrand, and John Simmers. Long-term expression of two interacting motor pattern-generatingnetworks in the stomatogastric system of freely behaving lobster.J. Neurophysiol. 79: 1396-1408, 1998. Rhythmic movements of thegastric mill and pyloric regions of the crustacean foregut arecontrolled by two stomatogastric neuronal networks that have beenintensively studied in vitro. By using electromyographic recordingsfrom the European lobster, Homarus gammarus, we have monitoredsimultaneously the motor activity of pyloric and gastric millmuscles for $<=$ 3 mo in intact and freely behaving animals. Bothpyloric and gastric mill networks are almost continuously activein vivo regardless of the presence of food. In unfed resting animalskept under "natural-like" conditions, the pyloric network expressesthe typical triphasic pattern seen in vitro but at considerablyslower cycle periods (2.5-3.5 s instead of 1-1.5 s). Gastric millactivity occurs at mean cycle periods of 20-50 s compared with5-10 s in vitro but may suddenly stop for up to tens of minutes,then restart without any apparent behavioral reason. When conjointlyactive, the two networks express a strict coupling that involvescertain but not all motor neurons of the pyloric network. Theposterior pyloric constrictor muscles, innervated by a total of8 pyloric (PY) motor neurons, are influenced by the onset of eachgastric mill medial gastric/lateral gastric(MG/LG) neuron powerstrokeburst, and for one cycle, PY neuron bursts may attain >300% oftheir mean duration. However, the duration of activity in thelateral pyloric constrictor muscle, innervated by the unique lateralpyloric (LP) motor neuron, remains unaffected by this perturbation.During this period after gastric perturbation, LP neuron and PYneurons thus express opposite burst-to-period relationships inthat LP neuron burst duration is independent of the ongoing cycleperiod, whereas PY neuron burst duration changes with period length.In vitro the same type of gastro-pyloric interaction is observed,indicating that it is not dependent on sensory inputs. Moreover,this interaction is intrinsic to the stomatogastric ganglion itselfbecause the relationship between the two networks persists aftersuppression of descending inputs to the ganglion. Intracellularrecordings reveal that thisgastro-pyloric interaction originatesfrom the gastric MG and LG neurons of the gastric network, whichinhibit the pyloric pacemaker ensemble. As a consequence, thepyloric PY neurons, which are inhibited by the pyloric dilator(PD) neurons of the pyloric pacemaker group, extend their activityduring the time that PD neuron is held silent. Moreover, thereis evidence for a pyloro-gastric interaction, apparently rectifying,from the pyloric pacemakers back to the gastric MG/LG neuron group.

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				R. Nargeot Long-Lasting Reconfiguration of Two Interacting Networks by a Cooperation of Presynaptic and Postsynaptic Plasticity J. Neurosci., May 1, 2001; 21(9): 3282 - 3294. [Abstract] [Full Text] [PDF]

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				N. L. Scholz NO/cGMP Signaling and the Flexible Organization of Motor Behavior in Crustaceans Integr. Comp. Biol., April 1, 2001; 41(2): 292 - 303. [Abstract] [Full Text] [PDF]

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