Regulation of lordosis behaviour in the female rat by corticotropin-releasing factor, β-endorphin/corticotropin and luteinizing hormone-releasing hormone neuronal systems in the medial preoptic area

Abstract

The role of corticotropin-releasing factor (CRF) and opiocortin neuronal systems and a possible functional relationship between the two in the control of luteinizing hormone-releasing hormone (LH-RH) activity in the medial preoptic area (MPOA) for the regulation of lordosis behaviour were assessed in ovariectomised oestrogen-progesterone-treated female rats. Lordosis behaviour (assessed as the lordosis quotient) triggered by male mounting was significantly inhibited by either CRF or β-endorphin infused into the MPOA in animals treated with normal doses of oestradiol benzoate (OEP) (5 μg) and progesterone (500 μg). Saline-treated animals exhibited high levels of lordosis. The inhibition of lordosis produced by either CRF or β-endorphin could be reversed by LH-RH microinfusions into the MPOA. While naloxone pretreatment of the MPOA site prevented the inhibitory effects of β-endorphin, neither the opiate antagonist nor anti-β-endorphin-γ-globulin (even in high concentrations) infused into the MPOA was effective in completely preventing the inhibition of lordosis produced by CRF. These findings suggest that the inhibition of LH-RH neuronal activity and lordosis behaviour by CRF may be due to a direct action and may not be the result of activation of β-endorphin release. The possibility that the two peptidergic systems may act in a synergistic fashion is supported by the data showing that combined CRF-β-endorphin treatment in the MPOA completely abolished lordosis. This is further supported by the finding that CRF totally abolished lordosis in animals pretreated with anti-corticotropin (ACTH-γ-globulin although this result could suggest that CRF could preferentially stimulate the release of ACTH in the MPOA. Conversely, naloxone, anti-β-endorphin-γ-globulin, anti-CRF-γ-globulin and ACTH infused into the MPOA produced high levels of lordosis in female rats normally showing low levels of lordosis by treatment with low doses of OEB (2 μg) and normal doses of progesterone (500 μg). In each case the facilitation could be blocked by pretreatment of the MPOA site with a potent antagonist analogue of LH-RH. The results indicate the key role of LH-RH in the action of endogenous CRF, β-endorphin and ACTH in the regulation of lordosis behaviour. Each of these substances may act directly on the LH-RH neurone. The postulated presynaptic relationship between CRF and β-endorphin neuronal systems that seem to exist in the mediobasal hypothalamus and the central gray may be less predominant in the MPOA. The results, however, provide clear further evidence for the potent effects of CRF and opiocortin peptides in the regulation of LH-RH and reproduction.