Responses of ganglioglomerular nerve activity to respiratory stimuli in the cat

Abstract

We studied the responses of the ganglioglomerular nerve (GGN) efferents to brief periods of hypoxia and hypercapnia and to several levels of steady-state arterial PO2 and PCO2 and to intravascular injection of cyanide in thirteen anesthetized cats. The cats breathed spontaneously. A branch of the GGN which was cut close to the carotid body was divided into several filaments, and the activity of each filament was tested until clean and identifiable action potentials were obtained. The GGN efferent activity, breath-by-breath inspiratory volume, tracheal PO2 and PCO2 and arterial blood pressure were recorded simultaneously. We found that the GGN contained spontaneously active fibers which showed a range of responses to the respiratory stimuli. Fifty-eight percent of the filaments with dominant cardiovascular rhythm showed the least response to blood gas stimuli. Forty-two percent showed clear responses to hypoxia and hypercapnia. These responses developed slowly with the onset of the stimulus but decreased promptly with the withdrawal of the stimulus. These GGN efferents were also promptly stimulated by sodium cyanide. The steady-state response curve to hypoxia was hyperbolic and to hypercapnia it was linear. Some of these fibers showed stronger respiratory rhythms than others. The responses of these GGN efferents were associated with the respiratory responses to hypoxia and hypercapnia. For the same respiratory drive, however, the steady-state hypoxic stimulus elicited a greater GGN response than did hypercapnia.