Onset of glucocorticoid responsiveness of anterior pituitary corticotrophs during development is scheduled by corticotropin-releasing factor.

Expression of the CRF gene in the hypothalamus and that of the POMC gene in the anterior pituitary are reduced during the first week of life in the rat. During this so-called stress nonresponsive period (SNRP), stimuli such as ether vapors, electroshocks, and hypoxia do not elicit ACTH secretion from the pituitary, as occurs later in development. The current hypothesis to explain the SNRP is an increased negative glucocorticoid feedback on POMC and CRF synthesis and/or release during this time. To test this hypothesis we studied the effects of adrenalectomy (ADX) on anterior pituitary POMC mRNA expression. In 7-day-old rats POMC mRNA levels were increased only 3-fold 48 h post-ADX, compared to a 7-fold increase in 14-day-old animals. This blunted effect of endogenous glucocorticoid removal on pituitary POMC mRNA could be due to decreased up-regulation of CRF after removal of glucocorticoids or normal up-regulation of CRF but decreased pituitary responsiveness to CRF relative to those in 14-day-old animals. Therefore, we studied in vitro beta-endorphin release from pituitaries obtained from 7- and 14-day-old rats. CRF stimulated basal beta-endorphin release to the same extent in pituitaries from both groups. The inhibition by corticosterone of CRF-stimulated beta-endorphin secretion was also indistinguishable in pituitaries obtained from 7- or 14-day-old rats. Since the responsiveness of the 7-day-old pituitary was normal, the blunted enhancement of POMC biosynthesis after ADX must be mediated at the level of the hypothalamus. Indeed, in situ hybridization showed that while in 14-day-old rats ADX induced a significant increase [190 +/- 10% (+/- SE) of control; n = 5; P less than 0.0005] in hypothalamic mRNA levels, ADX did not change the expression of the CRF gene in the paraventricular nucleus of 7-day-old rats, indicating a lack of glucocorticoid modulation of hypothalamic CRF synthesis. Finally, we studied the effects of 48 h CRF treatment on the post-ADX increase in POMC mRNA levels in 7-day-old rats. Daily injections of 200 ng CRF/rat induced an increase in anterior pituitary POMC mRNA concentrations [669 +/- 139% (+/- SE) of control; n = 6; P less than 0.02 vs. adrenalectomized vehicle-treated rats] comparable to that in adrenalectomized untreated 14-day-old rats. In conclusion, our data indicate that the glucocorticoid regulation of hypothalamic CRF gene expression is not mature during the first week of life, i.e. within the so-called SNRP.(ABSTRACT TRUNCATED AT 400 WORDS)