Responses of Reticulospinal Neurons in the Lamprey to Lateral Turns

Responses of Reticulospinal Neurons in the Lamprey to Lateral Turns

The Nobel Institute for Neurophysiology, Department of Neuroscience, Karolinska Institute, Stockholm, Sweden Submitted 28 August 2006; accepted in final form 30 October 2006 When swimming, the lamprey maintains a definite orientation of its body in the vertical planes, in relation to the gravity vec...

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Bibliographic Details
Published in:Journal of neurophysiology Vol. 97; no. 1; pp. 512 - 521
Main Authors: Karayannidou, A, Zelenin, P. V, Orlovsky, G. N, Deliagina, T. G
Format: Journal Article
Language:English
Published: United States Am Phys Soc 01-01-2007
Subjects:
Action Potentials - physiology
Animals
Efferent Pathways - physiology
Lampreys - anatomy & histology
Lampreys - physiology
Locomotion - physiology
Medicin och hälsovetenskap
Motor Neurons - physiology
Orientation - physiology
Photic Stimulation
Physical Stimulation
Reflex
Reticular Formation - physiology
Rotation
Spinal Cord - physiology
Swimming - physiology
Vestibular Nuclei - physiology
Vestibule, Labyrinth - physiology
Visual Perception - physiology
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Summary:The Nobel Institute for Neurophysiology, Department of Neuroscience, Karolinska Institute, Stockholm, Sweden Submitted 28 August 2006; accepted in final form 30 October 2006 When swimming, the lamprey maintains a definite orientation of its body in the vertical planes, in relation to the gravity vector, as the result of postural vestibular reflexes. Do the vestibular-driven mechanisms also play a role in the control of the direction of swimming in the horizontal (yaw) plane, in which the gravity cannot be used as a reference direction? In the present study, we addressed this question by recording responses to lateral turns in reticulospinal (RS) neurons mediating vestibulospinal reflexes. In intact lampreys, the activity of axons of RS neurons was recorded in the spinal cord by implanted electrodes. Vestibular stimulation was performed by periodical turns of the animal in the yaw plane (60° peak to peak). It was found that the majority of responding RS neurons were activated by the contralateral turn. By removing one labyrinth, we found that yaw responses in RS neurons were driven mainly by input from the contralateral labyrinth. We suggest that these neurons, when activated by the contralateral turn, will elicit the ipsilateral turn and thus will compensate for perturbations of the rectilinear swimming caused by external factors. It is also known that unilateral eye illumination elicits a contralateral turn in the yaw plane (negative phototaxis). We found that a portion of RS neurons were activated by the contralateral eye illumination. By eliciting an ipsilateral turn, these neurons could mediate the negative phototaxis. Address for reprint requests and other correspondence: T. G. Deliagina, The Nobel Institute for Neurophysiology, Department of Neuroscience, Karolinska Institute, SE-17177, Stockholm, Sweden (E-mail: Tatiana.Deliagina{at}ki.se )
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ISSN:0022-3077
1522-1598
DOI:10.1152/jn.00912.2006