In amphibians, thyrotropin-releasing hormone (TRH) is a potent stimulator of alpha-melanotropin (alpha-MSH) secretion, so TRH plays a major role in the neuroendocrine regulation of skin-color adaptation. We have recently cloned a third type of TRH receptor in Xenopus laevis (xTRHR3) that has not yet been characterized in any other vertebrate species. In the present study, we have examined the distribution of the mRNAs encoding proTRH and the three receptor subtypes (xTRHR1, xTRHR2, and xTRHR3) in the frog CNS and pituitary, and we have investigated the effect of background color adaptation on the expression of these mRNAs. A good correlation was generally observed between the expression patterns of proTRH and xTRHR mRNAs. xTRHRs, including the novel receptor subtype xTRHR3, were widely expressed in the telencephalon and diencephalon, where two or even three xTRHR mRNAs were often simultaneously observed within the same brain structures. In the pituitary, xTRHR2 was expressed selectively in the distal lobe, and xTRHR3 was found exclusively in the intermediate lobe. Adaptation of frog skin to background illumination had no effect on the expression of proTRH and xTRHRs in the brain. In contrast, adaptation of the animals to a white background provoked an 18-fold increase in xTRHR3 mRNA concentration in the intermediate lobe of the pituitary. These data demonstrate that, in amphibians, the effect of TRH on alpha-MSH secretion is mediated through the novel receptor subtype xTRHR3.
Rat thyrotropin-releasing hormone (TRH) prohormone contains five copies of the TRH progenitor sequence Gln-His-Pro-Gly linked together by connecting sequences whose biological activity is unknown. Both the predicted connecting peptide prepro-TRH-(160-169) (Ps4) and TRH are predominant storage forms of TRH precursor-related peptides in the hypothalamus. To determine whether Ps4 is co-released with TRH, rat median eminence slices were perifused in vitro. Infusion of depolarizing concentrations of KCI induced stimulation of release of Ps4-and TRH-like immunoreactivity. The possible effect of Ps4 on thyrotropin release was investigated in vitro using quartered anterior pituitaries. Infusion of Ps4 alone had no effect on thyrotropin secretion but potentiated TRH-induced thyrotropin release in a dosedependent manner. In addition, the occurrence of specific binding sites for '251-labeled Tyr-Ps4 in the distal lobe of the pituitary was demonstrated by binding analysis and autoradiographic localization. These findings indicate that these two peptides that arise from a single multifunctional precursor, the TRH prohormone, act in a coordinate manner on the same target cells to promote hormonal secretion. These data suggest that differential processing of the TRH prohormone may have the potential to modulate the biological activity of TRH.
Based on the deduced amino acid sequence of rat TRH prohormone (pro-TRH), proteolytic processing of this polyprotein precursor is expected to produce, beside TRH, several other novel peptides. These peptides should correspond to connecting segments flanking the repeated TRH progenitor sequence and to various C- and/or N-terminally extended forms of TRH. The profile of the endogenous products of the TRH system was studied in rat brain using multiple RIAs coupled to molecular sieve filtration and HPLC separations. In extracts from the rat hypothalamus, TRH and two pro-TRH-connecting peptides, prepro-TRH-(160-169) and prepro-TRH-(178-199) were detected in molar ratios corresponding to those expected for a nearly complete processing of the prohormone molecule. In the olfactory bulb, pro-TRH is processed differently, since peptides containing TRH at their N-termini, [pGlu172] prepro-TRH-(172-199) and [pGlu154]prepro-TRH-(154-169), were found to be major end products along with prepro-TRH-(160-169) and prepro-TRH-(178-199). The dissimilarity in tissue content suggests that differential processing of TRH precursor by various enzymatic pathways may act as a regulating mechanism for TRH and TRH-related activities. The cellular localization of C-terminally extended forms of TRH in rat olfactory bulb was examined by the indirect immunoperoxidase method, using antisera directed against prepro-TRH-(160-169) and pre-pro-TRH-(178-199). Cell bodies and nerve fibers were detected in the glomerular and external plexiform layers of the main olfactory bulb. The presence of extended forms of TRH in interneurons and middle tufted cells of the main olfactory bulb suggests that in light of the recent biological properties described for prepro-TRH-(160-169), these peptides may act as neuromodulators for olfactory epithelium inputs or neurotransmitters within more rostrally located olfactory areas in the forebrain.
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