Temperature effects on CO2-sensitive intrapulmonary chemoreceptors in the lizard, Tupinambis nigropunctatus

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Abstract

Body temperature (Tb) effects on CO2 responses of 17 intrapulmonary chemoreceptors (IPC) were investigated in 9 anesthetized (pentobarbital; 30 mg/kg) and unidirectionally ventilated tegu lizards (Tupinambis nigropunctatus). At 30°C, all IPC (n = 15) had a stable discharge pattern. At 20°C, IPC discharge (n = 14) was stable at high PCO2 but irregular at low PCO2 and often (1014) consisted of bursts of actively separated by one or more seconds of quiescence. Responses of IPC to static and dynamic changes in PCO2 were quantified at both Tb and the discharge rate vs PCO2 response curves were compared. Static discharge frequency (fstat) decreased as PCO2 increased at both Tb. At 20°C: (1) fstat was diminished at all PCO2 levels relative to 30°C; and (2) the slope of the fstatvs PCO2 relationship was markedly attenuated. The Q10 was 3.7 ± 0.5 and was independent of PCO2. The peak discharge associated with a step decrease in PCO2 (dynamic response; fdyn) also decreased as PCO2 increased. At 20°C: (1) fdyn was diminished at all PCO2 levels relative to 30°C; but (2) the slope of the fdynvs PCO2 relationship was similar at both Tb. The Q10 was 2.6 ± 0.3 and was significantly less than the Q10 of fstat (P < 0.05). Acute changes in Tb exert large effects on the CO2 response and discharge pattern of IPC; these effects on IPC may be important in ventilatory control at different Tb in lizards.

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