Behavioral context-dependent modulation of descending statocyst pathways during free walking, as revealed by optical telemetry in crayfish.

Hama N.; Tsuchida Y.; Takahata M.

Title	en Behavioral context-dependent modulation of descending statocyst pathways during free walking, as revealed by optical telemetry in crayfish.
Creator	en Hama, N. en Tsuchida, Y. en Takahata, M. NRID 1000010111147
Accessrights	open access
Rights	en Reproduced with permission of the Company of Biologists.
Subject	Other en crayfish Other en statocyst Other en posture control Other en behavioral context Other en optical telemetry NDC 485
Description	Abstract en Crustacean posture control is based on a complex interaction between the statocyst input and other sensory inputs as well as the animal's behavioral context. We examined the effects of behavioral condition on the activity of descending statocyst pathways using an optical telemetry system that allowed underwater recording of neuronal signals from freely behaving crayfish. A functionally identified statocyst-driven interneuron that directionally responded to body tilting without a footboard and to tilting of the footboard was found to show complicated responses depending upon the ongoing behavior of the animal when it freely walked around in water on the aquarium floor. The spike firing frequency of the interneuron increased significantly during walking. When the animal stood or walked on the tilted floor, the interneuron activity represented the tilt angle and direction if the abdomen was actively flexed, but not if it was extended. Two other statocyst-driven descending interneurons were found to be affected differently by the animal's behavioral condition: the spike activity of one interneuron increased during walking, but its directional response on the tilted floor was completely absent during abdominal posture movements, whereas that of another interneuron was enhanced during abdominal extension only, representing the tilt angle and direction. The results obtained in this study provide the first experimental demonstration that crustacean postural control under natural conditions is dependent on very fine aspects of the animal's locomotor behavioral context, suggesting far more complex control mechanisms than those expected from the experimental data obtained in isolated and fixed animals.
Publisher	en The Company of Biologists Ltd
Date	Issued2007-06
Language	eng
Resource Type	journal article
Version Type	AM
Identifier	HDL http://hdl.handle.net/2115/28259
Relation	isVersionOf DOI https://doi.org/10.1242/jeb.002865 PMID 17562894
Journal	PISSN 0022-0949 EISSN 1477-9145 en Journal of Experimental Biology Volume Number210 Issue Number12 Page Start2199 Page End2211
File	fulltext JEB210-12.pdf 594.26 KB (application/pdf) Issued2007-06
Oaidate	2023-07-26