Although the anterior pituitary gland has been shown to be a site of oestrogen feedback in the non-human primate, the role of the hypothalamus as a site of ovarian steroid feedback in facilitating gonadotrophin release has not been ruled out. In the present study, LH release in response to 2·5 mg progesterone with oestradiol benzoate (OB; 10 μg or 30 μg) 30 h earlier was observed in the ovariectomized monkey. Then pentobarbitone sodium was administered to block the progesterone-induced LH response. Serum levels of LH, oestradiol (OE2) and progesterone were measured by radioimmunoassay.
In the first series of experiments a group of nine rhesus monkeys received subcutaneous implants of a small silicone elastomer capsule containing OE2. Two weeks later, either OB and oil, or OB and progesterone were injected sequentially. Oestradiol benzoate (10 μg) followed by oil 30 h later failed to cause any clear LH release, while 30 μg OB followed by oil induced a single peak of LH release with a peak latency of 16·5 ± 1·9 (s.e.m.) h after oil, and a duration of 69·8 ± 10·2 h. Regardless of the dose of OB, however, progesterone induced an LH release with two peaks in all animals. The peak latency (7·3 ±0·9 h) and the duration (19·3 ±1·3 h) of the first response with 30 μg OB + progesterone were virtually identical to those with 10 μg OB + progesterone (7·0 ±0·7 h, 18·0 ± 1·4 h respectively), whilst both components of the first response with 30 μg OB + progesterone were significantly shorter than those with 30 μg OB + oil (P < 0·001 for both). The peak latency of the second response with 30 μg OB + progesterone (42·7+ 4·8 h) was similar to that with 10 μg OB + progesterone (38·3 ±3·2 h), but the duration of the second response with 30 μg OB + progesterone (46·0 ± 1·7 h) was longer than that (35·7 ±3·2 h) with 10 μg OB + progesterone (P <0·02).
In the second series of experiments the same nine animals received an OE2-capsule implantation and 10 μg OB (subthreshold) injections before pentobarbitone and progesterone. Pentobarbitone was first given 6 h before progesterone and additional injections were made to maintain the anaesthetized state for 21·6 ± 1·3 h. This period was to cover the progesterone-induced first LH response. Pentobarbitone completely blocked the expected first response of the progesterone-induced LH release in six animals. In the remaining three animals an enhanced LH surge occurred, but it consisted of a single peak with long latency 16·0 ± 2·0 h) and duration (66·0 ± 10·5 h) and was essentially the same as that observed in animals treated with a suprathreshold dose (30 μg) of OB alone. Anaesthesia did not, on the other hand, alter the response of the pituitary gland to LH releasing hormone.
Therefore it was concluded that (1) sequential administration of oestrogen and progesterone induces an LH release with two phases in the ovariectomized monkey and (2) the facilitatory action of progesterone on the first phase of LH release requires the involvement of the brain.
