Does Prolactin Modify Testosterone Feedback in the Hamster? Suppression of Plasma Prolactin Inhibits Photoperiod-Induced Decreases in Testosterone Feedback Sensitivity*

Abstract

The hormonal changes during the photoperiodically driven annual reproductive cycle of the male golden hamster can be explained partially by a change in the sensitivity of the hypothalamo-pituitary axis to negative feedback by testosterone (T). The present studies test the hypothesis that the increases in plasma levels of LH and FSH that follow photostimulation are due to decreasing feedback sensitivity and examine if this change in sensitivity is dependent upon increasing PRL levels. Adult males were exposed to a lighting schedule of 5 h of light, 19 h of darkness (5:19) for 12 weeks to induce gonadal regression. The animals were castrated; treated with an inhibitor of PRL release, bromocriptine (CB-154), or oil; and received a Silastic capsule that was empty or filled with T. Subsequently, the animals were transferred to 14:10 and killed 9 or 31 days later. There were no significant changes in FSH and LH in animals receiving oil injections and empty implants between days 9 and 31, suggesting no steroid-independent changes in gonadotropin secretion during this time period. However, 4-mm T implants were more effective in suppressing LH and FSH levels on day 9 than on day 31. This suggests that there is a gradual decrease in feedback sensitivity to T following photostimulation. T was more effective in inhibiting LH and FSH levels in CB-154-treated than in oil-treated animals on both day 9 and day 31. Thus, increases in PRL release are instrumental in causing decreases in feedback sensitivity following photostimulation. (Endocrinology115: 2098–2103, 1984)