Abstract
The influence of altered endogenous GH status on somatostatin (somatotropin release-inhibiting hormone; SRIF) gene expression was studied in two transgenic mouse models. Transgenic dwarf mice carried the rat GH gene promoter fused to the diphtheria toxin A-chain gene, placing toxin expression under GH promoter control. As a result, the toxic product of the transgene ablated all GH-expressing cells, resulting in undetectable circulating GH, reduced weight (10.6 +/- 1.0 g for transgenic dwarfs vs. 29.5 +/- 1.7 g for controls; P less than 0.001), and no detectable somatotrophs. Transgenic giant mice contained a construction combining a widely expressed metallothionein promoter and the human GH-releasing hormone (hGHRF) structural gene. Transgene expression of hGHRF resulted in overproduction of endogenous mouse GH in the anterior pituitary and weight increases (42.7 +/- 2.7 g for giants vs. 29.5 +/- 1.7 g for controls; P less than 0.005). Using in situ hybridization, control mice, transgenic dwarfs, and transgenic giants were compared for levels of prepro-SRIF mRNA. Hybridization signal intensities for prepro-SRIF mRNA were similar in transgenic dwarfs to those in littermate nontransgenic mice in non-GH-regulating regions of the brain, such as cortex (control, 31 +/- 2 U; dwarf, 27 +/- 2) and reticulothalamic nucleus (control, 41 +/- 2 U; dwarfs, 39 +/- 3). Transgenic giant mice had hybridization intensity of SRIF mRNA similar to that of normals in cortex (controls, 31 +/- 2 U; giant, 27 +/- 1) and reticulothalamic nucleus (controls, 41 +/- 2 U; giant, 40 +/- 4). In the GH-regulating neurons of the anterior periventricular hypothalamus (PeN), prepro-SRIF mRNA signal in transgenic dwarf mice decreased to 60% of that in controls (88 +/- 13 U for dwarfs vs. 147 +/- 17 U for controls; P less than 0.01), although the numbers of mRNA-expressing cells in the PeN were not different between the transgenic dwarfs and controls (dwarfs, 69 +/- 6 cells; controls, 72 +/- 4 cells). The transgenic giant mice had 230% higher prepro-SRIF mRNA signal than control mice in the PeN (343 +/- 30 U in giants vs. 147 +/- 17 U in controls; P less than 0.001). Again, the numbers of mRNA-expressing cells were not different in giants (57 +/- 9) and normals (72 +/- 4). These results suggest that while the lack of endogenous GH is accompanied by a slight decrease in transcriptional expression of SRIF in the PeN, the overproduction of endogenous GH greatly stimulates hypothalamic SRIF steady state mRNA levels.
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