Rapid induction of sodium appetite modifies taste-evoked activity in the rat nucleus of the solitary tract

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Rapid induction of sodium appetite modifies taste-evoked activity in the rat nucleus of the solitary tract

Stuart A. McCaughey¹ and Thomas R. Scott²

¹ Monell Chemical Senses Center, Philadelphia, Pennsylvania 19104; and ² Department of Psychology, University of Delaware, Newark, Delaware 19716

Sodium-deprived rats develop a salt appetite and show changes in gustatory responses to NaCl in the periphery and brain stem;salt-sensitive neurons respond less to hypertonic NaCl than docorresponding cells in replete controls. By administering DOCAand renin, we generated a need-free sodium appetite quickly enoughto permit us to monitor the activity of individual neurons inthe nucleus of the solitary tract before and after its creation,permitting a more powerful within-subjects design. Subjects receivedDOCA pretreatment followed by an intracerebroventricular infusionof renin. In animals that were tested behaviorally, this resultedin elevated intake of 0.5 M NaCl. In neural recordings, renincaused decreased responding to hypertonic NaCl across all neuronsand in the salt-sensitive neurons that were most responsive toNaCl before infusion. Most sugar-sensitive cells, in contrast,gave increased phasic responses to NaCl. These results confirmthat sodium appetite is accompanied by decreased responding toNaCl in salt-sensitive neurons, complemented by increased activityin sugar-sensitive cells, even when created rapidly and independentlyofneed.

salt; NaCl; salt appetite

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