Breathing of awake goats during prolonged dysfunction of caudal M ventrolateral medullary neurons.

Abstract

Forster, H. V., L. G. Pan, T. F. Lowry, T. Feroah, W. M. Gershan, A. A. Whaley, M. M. Forster, and B. Sprtel. Breathing of awake goats during prolonged dysfunction of caudal M ventrolateral medullary neurons. J. Appl. Physiol.84(1): 129–140, 1998.—Cooling the caudal M ventrolateral medullary (VLM) surface for 30 s results in a sustained apnea in anesthetized goats but only a 30% decrease in breathing in awake goats. The purpose of the present study was to determine, in the awake state, the effect of prolonged (minutes, hours) caudal M neuronal dysfunction on eupneic breathing and CO₂ sensitivity. Dysfunction was created by ejecting excitatory amino acid receptor antagonists or a neurotoxin on the VLM surface through guide tubes chronically implanted bilaterally on a 10- to 12-mm²portion of the caudal M VLM surface of 12 goats. Unilateral and bilateral ejections (1 μl) of selective antagonists for N-methyl-d-aspartic acid or non- N-methyl-d-aspartic acid receptors had no significant effect on eupneic breathing or CO₂ sensitivity. Unilateral ejection of a nonselective excitatory amino acid receptor antagonist generally had no effect on eupneic breathing or CO₂ sensitivity. However, bilateral ejection of this antagonist resulted in a significant 2-Torr hypoventilation during eupnea and a significant reduction in CO₂ sensitivity to 60 ± 9% of control. Unilateral ejection of the neurotoxin kainic acid initially stimulated breathing; however, breathing then returned to near control with no incidence of apnea. After the kainic acid ejection, CO₂ sensitivity was reduced significantly to 60 ± 7% of control. We conclude that in the awake state a prolonged dysfunction of caudal M VLM neurons results in compensation by other mechanisms (e.g., carotid chemoreceptors, wakefulness) to maintain near-normal eupneic breathing, but compensation is more limited for maintaining CO₂ sensitivity.