Abstract

In lactating female rats, tonically elevated glucocorticoid secretion is accompanied by blunted stress responsiveness, reduced expression of hypothalamic corticotropin-releasing factor (CRF) mRNA and modest increases in arginine vasopressin (AVP) expression in the paraventricular nucleus (PVN). To determine the relative contribution of CRF and AVP to parvocellular function, we performed selective CRF (CRF-Tx) or AVP (AVP-Tx) lesions in the PVN neurones of ovariectomized virgin or lactating females (day 2 of lactation) by using ricin A associated with monoclonal antibodies directed towards CRF or AVP. We also performed double immunohistochemical labelling of CRF and AVP in the PVN of control rats injected with immunoglobulin (Ig)Gs associated with the ricin A (IgG-Tx). Brains were collected 12 days after the lesion and processed for in situ hybridization of CRF and AVP mRNA or for double fluorescence CRF and AVP immunohistochemistry. We found that lactating females exhibit a high degree of CRF and AVP colocalization in parvocellular PVN neurones, hypothalamic processes and median eminence terminals compared to virgins. While CRF mRNA is significantly reduced in lactating rats, AVP mRNA and protein levels are greatly enhanced in parvocellular PVN neurones during lactation. Hypothalamic CRF or AVP ricin-A lesions significantly reduced both CRF and AVP expression (15-35% decrease) as well as peptide immunoreactivity in PVN neurones in both groups of females. The specificity of the lesions varied between virgins and lactators since in virgin females, AVP-Tx did not affect CRF mRNA expression whereas in lactating females, this same lesion significantly reduced CRF mRNA expression, suggesting that parvocellular PVN neurones are more sensitive to the effects of the lesions during lactation. In both virgins and lactators, lesion with CRF-Tx tended to increase AVP mRNA expression; however, in virgins, parvocellular PVN neurones were possibly compensating for the loss of CRF synthesis by increasing AVP expression and immunoreactivity. We conclude that lactation is associated with a high degree of CRF and AVP colocalization in parvoPVN neurones and that the increased AVP production in these neurones increases their sensitivity to immunotargeted lesions. The opposite regulation of CRF and AVP gene expression during lactation might provide a useful model to study differential sensitivity to glucocorticoid feedback or hypothalamic activation of transcription factors.

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