Progesterone Treatment That Either Blocks or Augments the Estradiol-induced Gonadotropin-releasing Hormone Surge is Associated with Different Patterns of Hypothalamic Neural Activation

Progesterone can either augment or inhibit the surge of gonadotropin-releasing hormone (GnRH) that drives the preovulatory luteinizing hormone (LH) surge. This study investigated the central mechanisms through which progesterone might achieve these divergent effects by examining the effects of exogenous steroids on the activation of GnRH neurons and non-GnRH-immunopositive cells in the preoptic area/anterior hypothalamus of steroid-treated ovariectomized ewes. Fos expression (an index of cellular activation) was examined during the estradiol-induced GnRH surge in ewes treated with progesterone using regimes that have been reported to either augment (progesterone pretreatment) or inhibit (progesterone treatment at the time of the surge-inducing estradiol increment) the GnRH surge. Control groups received either no progesterone pretreatment or no surge-inducing estradiol increment. Induction of an LH surge was associated with a significant (p < 0.0001) increase in the proportion of activated GnRH neurons, irrespective of whether ewes received progesterone pretreatment. However, the number of non-GnRH-immunopositive cells activated during the surge was significantly (p < 0.0001) increased in ewes that received the progesterone pretreatment. By contrast, the proportion of GnRH neurons and non-GnRH-immunopositive cells that expressed Fos was significantly (p < 0.0001) reduced in ewes in which the surge was inhibited by progesterone compared to ewes in which a surge was stimulated. These data indicate that (1) progesterone pretreatment increases the activation of non-GnRH cells during the estradiol-induced surge, but does not affect the proportion of GnRH neurons activated and (2) when administered concurrently with a surge-inducing estradiol increment, progesterone prevents the activation of GnRH neurons and non-GnRH cells that is normally associated with the estradiol-induced surge. Therefore, progesterone does not appear to augment the GnRH surge by increasing the proportion of GnRH neurons that are activated by estradiol, whereas inhibition of the GnRH surge involves prevention of the activation of GnRH neurons. Thus, the augmentation and inhibition of the GnRH surge by progesterone appear to be regulated via different effects on the GnRH neurosecretory system.