Evidence for Two Oxygen-Sensitive Chemoreceptor Loci in Channel Catfish,Ictalurus punctatus

Abstract

Sodium cyanide (NaCN) was used as a chemical probe to help localize externally and internally oriented oxygen-Sensitive chemoreceptors and to identify the reflex effects they control in anesthetized, spontaneously breathing channel catfish (Ictalurus punctatus). Fish responded rapidly to NaCN (500μg) given in the inspired water flow (external NaCN) with transient bradycardia and a more prolonged stimulation ofgill ventilation frequency ( ) and opercularpressure amplitude ( ). Internal injections of NaCN (50 μg), given via the dorsal aorta, stimulated and after about a 42-s latency but had no effect on heart rate ( ). Injections of NaCN (50 μg) into the ventral aorta significantly reduced the latency of response, stimulating and in 9-16s. Cardiovascular and ventilatory variables returned topreinjection levels within 30 min. These results suggest that cardiovascular and ventilatory reflex responses to hypoxia in channel catfish are mediated by both externally and internally oriented O₂-sensitive chemoreceptors. Externally oriented chemoreceptors appear to monitor the O₂ tension of the inspired water and elicit bradycardia and hyperpnea when stimulated by aquatic hypoxia or external NaCN. Internal O₂-sensitive chemoreceptors appear to respond to changes in blood O₂ stimulus levels, in orjust downstream from the gills, and reflexively increase gill ventilation when stimulated by hypoxemia.