We have examined the effect on respiration of the steroid hormone progesterone, administered either intravenously or directly into the medulla oblongata in anesthetized and paralyzed male and female cats. The carotid sinus and vagus nerves were cut, and end-tidal Pco2 and temperature were kept constant with servo-controllers. Phrenic nerve activity was used to quantitate central respiratory activity.Repeated doses of progesterone (from 0.1 to 2.0 ,ug/kg, cumulative) caused a sustained (>45 min) facilitation of phrenic nerve activity in female and male cats; however, the response was much more variable in females. Progesterone injected into the region of nucleus tractus solitarii, a respiratory-related area in the medulla oblongata, also caused a prolonged stimulation of respiration. Progesterone administration at high concentration by both routes also caused a substantial hypotension. Identical i.v. doses of other classes of steroid hormones (17f8-estradiol, testosterone, and cortisol) did not elicit the same respiratory effect. Pretreatment with RU 486, a progesterone-receptor antagonist, blocked the facilitatory effect of progesterone. We conclude that progesterone acts centrally through a steroid receptor-mediated mechanism to facilitate respiration.It has been known since the turn of the century that women hyperventilate during pregnancy (1, 2) and during the luteal phase of the menstrual cycle (3). Because the level of circulating progesterone correlates positively with increased ventilation, progesterone has been proposed as the ventilatory stimulant in these conditions (4)-a contention further supported by studies in which exogenously administered progesterone caused hyperventilation in normal male subjects (5, 6) and in patients with breathing disorders (7-12).Even though many animal species hyperventilate during pregnancy when endogenous progesterone levels are elevated (13-15), most fail to respond in a like manner to exogenously administered progesterone under experimental conditions (5,(15)(16)(17). Such data has been interpreted to mean that progesterone is not the respiratory stimulant during pregnancy and the luteal phase of the menstrual cycle. However, a reasonable explanation exists for this apparent discrepancy. Estrogen levels increase during pregnancy, and estrogen causes induction, or upregulation, of progesterone receptors within certain regions of the brain (18,19 Respiratory feedback from the arterial chemoreceptors and the pulmonary mechanoreceptors was blocked by cutting the carotid sinus and vagus nerves. A dorsal laminectomy was performed in one cat, and the spinal cord was transected at C7/T1 to eliminate input from visceral or somatic receptors. One phrenic nerve root (C5) was exposed, cut distally, desheathed, and placed in a bipolar platinum recording electrode that was built into a small acrylic platform placed in a tissue well adjacent to the nerve. Because the electrode had no fixed external attachments (the electrical wires were flexible and moved freely), it was poss...
