Regulation of proopiomelanocortin messenger ribonucleic acid levels in the ovine fetal anterior pituitary in vitro

Abstract

Parturition in sheep is dependent upon maturation of the fetal hypothalamo-pituitary-adrenocortical (HPA) axis. Anterior pituitary expression of the ACTH precursor, proopiomelanocortin (POMC), increases during the final days of gestation in spite of exponentially increasing fetal plasma cortisol levels. Lesion of the hypothalamic paraventricular nucleus prevents the late gestation increase in POMC mRNA. The purpose of this study was to examine glucocorticoid, corticotropin releasing factor (CRF) and arginine vasopressin (AVP) regulation of POMC mRNA levels in fetal anterior pituitary corticotropes in vitro and to address potential interactions between glucocorticoids and neuropeptides in regulating POMC. Anterior pituitaries from fetal sheep at two gestational ages (dGA; 118–125 dGA, n=9; 140–144 dGA, n=7) were enzymatically dispersed. POMC mRNA levels were determined at 24, 48 and 72 h post-dispersion. CRF, AVP and dexamethasone (DEX) regulation of POMC mRNA were determined at 24 and 72 h post-dispersion. The capacity of CRF and AVP to modulate DEX suppression of POMC mRNA levels was also examined. POMC mRNA was elevated at 24 h ( P<0.01) and 48 h ( P<0.05) post-dispersion compared to 0 h (immediately post-dispersion) in 140–144 dGA but not 118–125 dGA corticotropes. DEX suppressed POMC mRNA in a dose-dependent manner (when administered at 24 h post-dispersion) in the 140–144 dGA anterior pituitary cells but not 118–125 dGA anterior pituitary cells. Administration of DEX (10 nM) at 0 h prevented the increase in POMC mRNA levels observed at 24 h post dispersion in the 140–144 dGA group. Neither CRF nor AVP (administered at either 24 or 72 h post-dispersion) altered POMC mRNA levels in either 118–125 or 140–144 dGA anterior pituitary cells. Continuous exposure of anterior pituitary cells with either CRF or AVP (50 pM) through 96 h increased ( P<0.05) POMC mRNA. No synergistic or additive effects were observed with CRF and AVP. Four hour pretreatment with CRF but not AVP (100 nM at 24 h post-dispersion) attenuated ( P<0.05) DEX suppression of POMC mRNA levels in 140–144 dGA corticotropes. In conclusion, our results indicate that direct glucocorticoid suppression of POMC expression in fetal sheep initiates between ∼120 and ∼140 dGA, coincident with the period of gestation when fetal plasma cortisol is exponentially rising. Further, while short duration exposure of fetal corticotropes to either CRF or AVP had no effect on POMC mRNA, CRF appears capable of interfering with glucocorticoid suppression of POMC mRNA. The latter observation provides a potential mechanism via which the fetal PVN may counter rising fetal plasma cortisol concentrations resulting in the previously observed late gestation increase in anterior pituitary POMC mRNA.