Role of Extra‐Ovarian Oestrogens in the Regulation of Gonadotropin Releasing Hormone mRNA Expression in the Rat Brain

To further understand the role of oestrogens in the regulation of gonadotropin releasing hormone (GnRH) mRNA expression in the female rat brain, the effect of EM‐652.HCl, a pure anti‐oestrogen, was studied in intact and ovariectomized rats as well as in rats chronically treated with a GnRH agonist d ‐trp 6 , des‐Gly‐NH 2 10 GnRH ethylamide (GnRH‐A), a treatment which blocks ovarian steroidogenesis. Quantitative in situ hybridization was used to measure GnRH mRNA at the cellular level in the preoptic‐anterior hypothalamic area. It was found that, 49 weeks after ovariectomy (OVX), the number of silver grains per cell corresponding to GnRH mRNA was increased by 34%. Long‐term administration (49 weeks) of EM‐652.HCl to OVX rats resulted in a further increase (11% over the levels measured in OVX rats) in the hybridization signal. By contrast, in intact female rats, treated during 52 weeks with EM‐652.HCl, a 49% increase in the GnRH hybridization signal was detected. In rats treated with GnRH‐A during the same period, a 20% decrease in GnRH mRNA was observed. When EM‐652.HCl was administered concomitantly with GnRH‐A, a further 63% increase over the mRNA levels recorded in GnRH‐A treated rats was found. Thus, long‐term treatment with the anti‐oestrogen EM‐652.HCl can upregulate GnRH mRNA expression in intact female rats, OVX rats and female rats chronically treated with a GnRH‐A. It is suggested that the pure anti‐oestrogen EM‐652.HCl can exert an influence on the oestrogen feedback mechanism involved in the regulation of GnRH neuronal activity by neutralizing the action of locally produced or low circulating levels of oestrogens remaining after OVX or GnRH‐A treatment.