Abstract
The effects of ET-1 and ET-3 on ventilation and carotid chemosensory discharge have been studied in rats anaesthetised with pentotarbitone. Autoradiographic studies were also performed in vitro to investigate the binding of [ 125I]ET-1 to rat carotid body, nodose ganglion and brain stem. ET-1 caused a dose-related hyperventilation that was abolished by cutting both carotid sinus nerves. Recordings of chemosensory discharge from the carotid sinus nerve confirmed that ET-1 caused chemoexcitation. ET-3 had only slight effects. The hyperventilation evoked by ET-1 was antagonised by the ETA receptor antagonist FR139317, but responses to hypoxia (10% oxygen) and to cyanide were unaffected. [ 125I]ET-1 bound to the carotid body, the nodose ganglion and to the brain stem, particularly in the region of the nucleus tractus solitarii. ET-1 binding in the carotid body was displaceable by FR139317, which is consistent with the functional evidence for ETA receptors in the carotid body. The effects of ET-1 on ventilation, coupled with the presence of ET binding sites in areas involved in respiratory and cardiovascular regulation, is consistent with a physiological role for ET in the control of respiration, but our evidence suggests that ET is not crucial for chemotransduction in acute hypoxia.
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