The developmental profile of the corticotropin releasing factor receptor (CRF2) in rat brain predicts distinct age-specific functions.

Corticotropin releasing factor (CRF) activates two known receptor types, CRF1, and CRF2. In the adult rat brain, CRF2 has a distinct distribution pattern, suggesting that it may mediate functions exclusive of CRF1. The goal of this study was to determine the age-dependent distribution of CRF2-messenger RNA (CRF2-mRNA) in the rat brain. Brains from rats sacrificed under stress-free conditions on fetal days (F) 15, 16, 17 and 19, and postnatal days 1, 3, 5, 7, 9, 12, 15, 25, 49, and 90 (adult) were analyzed using semiquantitative in situ hybridization histochemistry. The onset and distribution of CRF2-mRNA in the developing rat brain revealed important differences from the adult expression pattern: earliest expression of CRF2-mRNA was observed in the ventromedial hypothalamus (VMH) on F16. High levels of CRF2-mRNA were present in the fronto-parietal cortex in the fetal and early postnatal brain but not later. Conversely, no CRF2-mRNA was detectable in the ventroposterior (lateral and medial) thalamic nuclei prior to postnatal day 7. Distinct developmental profiles of CRF2-mRNA were also observed in the lateral septum, medial, basal and cortical amygdala nuclei, and in several hippocampal fields. In conclusion, CRF2 is expressed in the hypothalamus on F16, prior to the detection of CRF itself in the paraventricular nucleus. The differential levels and distributions of CRF2-mRNA in hypothalamic and limbic brain regions indicate a precise regulation of this receptor's expression during development, as shown for CRF1. Regulation of the levels of CRF2 may modulate the effects of CRF (and related ligands) on target neurons, consistent with differential maturation of the functions mediated by this receptor.

CRF2 alpha and CRF2 beta receptor mRNAs are differentially distributed between the rat central nervous system and peripheral tissues.

We have recently described the cloning and characterization of a novel corticotropin-releasing factor receptor subtype (CRF2) from rat brain that exists in two alternatively spliced forms, CRF2 alpha and CRF2 beta. These forms differ in their N-terminal coding sequence which results in the production of two distinct receptors of 411 and 431 amino acids, respectively. To assess whether these two forms might represent distinct targets for CRF action, RNase protection and in situ hybridization studies were performed using specific N-terminal cRNA probes. The results showed a differential distribution of the mRNAs for these two receptor forms in the rat. The mRNA for CRF2 alpha is found almost exclusively in the brain, particularly in the hypothalamus, lateral septum, and olfactory bulb, whereas the mRNA for CRF2 beta appears to be both in the brain and in the periphery, with the greatest abundance in the heart and skeletal muscle. Thus, the data suggest that these alternatively spliced forms of the CRF2 receptor may represent functionally distinct CRF receptors. In addition, it highlights the importance of probe specificity for in situ hybridization studies.