Excised cat carotid bodies and nerves were placed in a Lucite chamber through which saline flowed at different temperatures. Action potentials were recorded with a suction electrode. Glomus cells were impaled with microelectrodes and identified by ejecting Procion navy blue from the micropipette. Membrane potentials (MP) averaged 20 mV and input resistances (R0), 40 Momega. Cooling induced depolarization and decreased R0. This effect had a reversal potential of about -6 mV. [K+]0 did not affect MP, R0, or cooling effects. Lack of sodium increased MP, R0, and depressed cooling effects. Low chloride had opposite effects. Ca2+ and Mg2+ influenced MP and R0 but had little effects on temperature actions. Ouabain decreased MP and R0. Results indicate that glomus cells are exquisitely sensitive to temperature changes; their MP and R0 increase with high temperatures and decrease when temperature is lowered. These effects are mostly dependent on the external concentration of Cl- and Na+. Glomus cells may be the site of the intense metabolism of this tissue and thus contribute to the generation of chemosensory impulses.
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