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The Journal of Neuroscience, September 15, 2002, 22(18):8324-8333

Gustatory Processing in Thoracic Local Circuits of Locusts

Stephen M. Rogers and Philip L. Newland

Centre for Neuroscience, School of Biological Sciences, University of Southampton, Southampton SO16 7PX, United Kingdom

Recent reviews highlight a longstanding controversy about how different taste qualities are coded in the CNS. To address this issue, we have analyzed gustatory coding in the relatively simple and accessible nervous system of the locust, in which neural responses and gustatory elicited behavior are readily comparable. The intracellular responses of a population of spiking local interneurons in the metathoracic ganglion that receive monosynaptic inputs from chemosensory afferents were analyzed in response to stimulation with droplets of four behaviorally relevant chemicals: sodium chloride, sucrose, lysine glutamate, and nicotine hydrogen tartrate. There was a significant positive correlation between chemical concentration and response duration and the number of spikes evoked in 81% of interneurons sampled. The threshold of sensitivity to different chemicals varied but was consistent between all interneurons tested, being most sensitive to nicotine hydrogen tartrate and least sensitive to sucrose. Each interneuron responded similarly to specific chemicals at single concentrations. Interneurons that responded phasically to one chemical responded similarly to others, whereas interneurons that responded phasotonically to one stimulus also did so to others. Hindleg motor neurons also responded in a concentration-dependent manner to all test chemicals. Therefore, we found no interneurons or motor neurons that responded only to specific chemicals. We discuss the responses of the local circuit neurons in relation to the known chemically evoked behavioral responses of locusts and suggest that the aversiveness of a chemical, rather than its identity, is encoded directly in the local circuits.

Key words: chemosensory processing; taste; local circuits; spiking local interneuron; motor neuron; withdrawal reflex; grasshopper

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Copyright © 2002 Society for Neuroscience  0270-6474/02/22188324-10$05.00/0

This article has been cited by other articles:

				P. L. Newland and P. Yates Nitric Oxide Modulates Salt and Sugar Responses via Different Signaling Pathways Chem Senses, April 1, 2008; 33(4): 347 - 356. [Abstract] [Full Text] [PDF]

				S. M. Rogers, T. Matheson, E. Despland, T. Dodgson, M. Burrows, and S. J. Simpson Mechanosensory-induced behavioural gregarization in the desert locust Schistocerca gregaria J. Exp. Biol., November 15, 2003; 206(22): 3991 - 4002. [Abstract] [Full Text] [PDF]

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