Hypophysiotropic somatostatin (SRIF) and growth hormone-releasing hormone (GHRH) neurons are primarily involved in the neurohormonal control of growth hormone (GH) secretion. They are located in periventricular (PEV) ...
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Hypophysiotropic somatostatin (SRIF) and growth hormone-releasing hormone (GHRH) neurons are primarily involved in the neurohormonal control of growth hormone (GH) secretion. They are located in periventricular (PEV) and arcuate (ARC) hypothalamic nuclei, respectively, but their connectivity is not well defined. To better understand the neuronal network involved in the control of GH secretion, connections from PEV to ARC neurons were reconstructed in vitro and neuronal phenotypes assessed by single-cell multiplex RT-PCR. Of 814 stimulated PEV neurons, monosynaptic responses were detected in only 45 ARC neurons. Monosynaptic excitatory currents were detected in 29 ARC neurons and inhibitory currents in 16, indicating a 2/1 ratio for excitatory versus inhibitory connections. Galanin (GAL), NPY, pro-opiomelanocortin (POMC), and SRIF mRNAs were detected in neurons from both nuclei but GHRH mRNA almost exclusively in ARC. Among the five SRIF receptors, only sst1 and sst2 were expressed, in 94% of ARC and 59% of PEV neurons, respectively. Of 128 theoritical combinations between neuropeptides and sst receptors, only 22 were represented in PEV and 25 in ARC. For PEV neurons, neuropeptide phenotypes did not influence excitatory connections. However, the occurrence of presynaptic sst receptors on GAL and SRIF PEV neurons significantly increased their probability of connection to ARC neurons. GHRH ARC neurons expressing sst2, but not sst1, receptors were always connected with PEV neurons. Physiological responses to sst1 (CH-275) or sst2 (Octreotide) agonists were always correlated with the detection of respective sst mRNAs. In conclusion, 1) SRIF-modulated excitatory transmission develops in vitro from PEV to ARC neurons, 2) ARC GHRH neurons bearing sst2 receptors appears directly controlled by fast glutamatergic transmission from PEV neurons simultaneously expressing one to four neuropeptides, 3) GHRH neurons bearing sst1 receptors lack this control, and 4) these results sugg
作者:
Nillni, EASteinmetz, RPescovitz, OHBrown Univ
Rhode Isl Hosp Sch Med Dept MedDiv Endocrinol Providence RI 02903 USA Indiana Univ
James Whitcomb Riley Hosp Children Dept PediatHerman B Wells Ctr Pediat Res Sect Pediat Endocrinol & Physiol Indianapolis IN 46202 USA Indiana Univ
James Whitcomb Riley Hosp Children Dept Physiol Indianapolis IN 46202 USA
The prepro-GH-releasing hormone (prepro-GHRH;12.3 kDa) precursor, like other neuropeptide precursors, undergoes proteolytic cleavage to give rise to mature GHRH, which is the primary stimulatory regulator of pituitary...
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The prepro-GH-releasing hormone (prepro-GHRH;12.3 kDa) precursor, like other neuropeptide precursors, undergoes proteolytic cleavage to give rise to mature GHRH, which is the primary stimulatory regulator of pituitary GH secretion. In this study we present the first model of in vitro pro-GHRH processing. Using pulse-chase analysis, we demonstrate that at least five peptide forms in addition to GHRH are produced. The pro-GHRH (after removal of its signal peptide, 10.5 kDa) is first processed to an 8.8-kDa intermediate form that is cleaved to yield two products: the 5.2-kDa GHRH and GHRH-related peptide (GHRH-RP;3.6 kDa). GHRH-RP is a recently described peptide derived from proteolytic processing of pro-GHRH that activates stem cell factor, a factor known to be essential for hemo-poiesis;spermatogenesis, and melanocyte function. Further cleavage results in a 3.5-kDa GHRH and a 2.2-kDa product of GHRH-RP. Like GHRH, there is GHRH-RP immunostaining in hypothalamic neurons in the median eminence as detected by immunohistochemistry and immunoelectron microscopy. Based on deduced amino acid sequences of the pro-GHRH processing products, several peptides were synthesized and tested for their ability to stimulate the cAMP second messenger system. GHRH, GHRH-RP, and one of these peptides [prepro-GHRH-(75-92)-NH2] all significantly stimulated the PKA pathway. This work delineates a new model of pro-GHRH processing and demonstrates that novel peptides derived from this processing may have biological action.
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