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J Neurophysiol (November 1, 2002). 10.1152/jn.00178.2002
Submitted on 11 March 2002
Accepted on 22 July 2002
Laboratoire de Neurobiologie des Réseaux, United Mixte de Recherche 5816, Centre National de la Recherche Scientifique, Université Bordeaux 1, Biologie Animale, Bât B2, 33405 Talence Cedex, France
Le Bon-Jego, Morgane and
Daniel Cattaert.
Inhibitory Component of the Resistance Reflex in the Locomotor
Network of the Crayfish. J. Neurophysiol. 88: 2575-2588, 2002. The aim of this study was to investigate the
inhibitory components of a resistance reflex in the walking system of
the crayfish. This study was performed using an in vitro preparation of
several thoracic ganglia including motor nerves and the proprioceptor that codes movements of the second joint (coxo-basipodite chordotonal organ
CBCO). Sinusoidal movements were imposed on the CBCO, and intracellular responses were recorded from levator (Lev) and depressor (Dep) motoneurons (MNs). We found that in MNs that oppose the imposed
movements (e.g., the Lev MNs during the imposed downward movement), the
response consists in a depolarization resulting from the summation of
excitatory postsynaptic potentials (EPSPs). A movement in the opposite
direction resulted in hyperpolarization during which inhibitory
postsynaptic potentials (IPSPs) summated. The inhibitory pathway to
each MN is oligosynaptic (i.e., composed of a small number of neurons
in series) and involves spiking interneurons because it was blocked in
the presence of a high-divalent cation solution. The IPSPs were
mediated by a chloride conductance because their amplitude was
sensitive to the chloride concentration of the bathing solution and
because they were blocked by the chloride channel blocker, picrotoxin.
Resistance reflex IPSPs related to single CBCO neurons could be
identified. These unitary IPSPs were blocked in the presence of
3-mercapto-propionic acid, an inhibitor of gamma-amino-butyric acid
(GABA) synthesis, indicating that they are mediated by GABA. In
addition to this GABAergic pathway, electrical stimulation of the CBCO
sensory nerve induced compound IPSPs that were blocked by glutamate
pyruvate transaminase (GPT), indicating the presence of glutamatergic
inhibitory pathways. These glutamatergic interneurons do not appear to
be involved in the resistance reflex, however, as GPT did not block the
unitary IPSPs. Functionally, the resistance reflex is mainly supported by movement-coding CBCO sensory neurons. We demonstrate that such movement-coding CBCO neurons produce both monosynaptic EPSPs in the MNs
opposing imposed movements and oligosynaptic IPSPs in the antagonistic
motoneurons. These results highlight the similarities between the
inhibitory pathways in resistance reflex of the crayfish and in the
stretch reflex of vertebrates mediated by Ia inhibitory interneurons.
This article has been cited by other articles:
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  A. A. V. Hill and D. Cattaert Recruitment in a heterogeneous population of motor neurons that innervates the depressor muscle of the crayfish walking leg muscle J. Exp. Biol., February 15, 2008; 211(4): 613 - 629. [Abstract] [Full Text] [PDF]
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 D. Le Ray, D. Combes, C. Dejean, and D. Cattaert In Vivo Analysis of Proprioceptive Coding and Its Antidromic Modulation in the Freely Behaving Crayfish J Neurophysiol, August 1, 2005; 94(2): 1013 - 1027. [Abstract] [Full Text] [PDF]
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 M. Le Bon-Jego, D. Cattaert, and E. Pearlstein Serotonin Enhances the Resistance Reflex of the Locomotor Network of the Crayfish through Multiple Modulatory Effects that Act Cooperatively J. Neurosci., January 14, 2004; 24(2): 398 - 411. [Abstract] [Full Text] [PDF]
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