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The Journal of Neurophysiology Vol. 83 No. 1 January 2000, pp. 367-373
Copyright ©2000 by the American Physiological Society
1The Nobel Institute for Neurophysiology, Department of Neuroscience, Karolinska Institutet, SE-171 77 Stockholm, Sweden; 2A. N. Belozersky Institute of Physico-Chemical Biology, Moscow State University, Moscow 119 899, Russia; and 3Institute of Neurobiology, San Juan, Puerto Rico 00901
Deliagina, T. G.,
G.
N. Orlovsky,
A. I. Selverston, and
Y. I. Arshavsky.
Neuronal Mechanisms for the Control of Body Orientation in
Clione II. Modifications in the Activity of Postural
Control System. J. Neurophysiol. 83: 367-373, 2000. The marine mollusk Clione
limacina, when swimming, can stabilize different body
orientations in the gravitational field. The stabilization is based on
the reflexes initiated by activation of the statocyst receptor cells
and mediated by the cerebro-pedal interneurons that produce excitation
of the motoneurons of the effector organs; tail and wings. Here we
describe changes in the reflex pathways underlying different modes of
postural activity; the maintenance of the head-up orientation at low
temperature, the maintenance of the head-down orientation at higher
temperature, and a complete inactivation of the postural mechanisms
during defense reaction. Experiments were performed on the
CNS-statocyst preparation. Spike discharges in the axons of different
types of neurons were recorded extracellularly while the preparation was rotated in space through 360° in different planes. We
characterized the spatial zones of activity of the tail and wing
motoneurons and the CPB3 interneurons mediating the effects of
statocyst receptor cells on the tail motoneurons. This was done at
different temperatures (10 and 20°C). The "fictive" defense
reaction was evoked by electrical stimulation of the head nerve. At
10°C, a tilt of the preparation evoked activation in the tail
motoneurons and wing retractor motoneurons contralateral to the tilt
and in the wing locomotor motoneurons ipsilateral to the tilt. At
20°C, the responses in the tail motoneurons and in the wing retractor
motoneurons occurred reversed; these neurons were now activated with
the ipsilateral tilt. In the wing locomotor motoneurons the responses
at 20°C were suppressed. During the defense reaction, gravitational
responses in all neuron types were suppressed. Changes in the chains of
tail reflexes most likely occurred at the level of connections from the
statocyst receptor cells to the CPB3 interneurons. The changes in
gravitational reflexes revealed in the present study are sufficient to
explain the corresponding modifications of the postural behavior in
Clione.
This article has been cited by other articles:
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T. G. Deliagina, G. N. Orlovsky, A. I. Selverston, and Y. I. Arshavsky Asymmetrical Effect of GABA on the Postural Orientation in Clione J Neurophysiol, September 1, 2000; 84(3): 1673 - 1676. [Abstract] [Full Text] [PDF]
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