Clark R G, Carlsson L M, Robinson I C
Division of Neurophysiology and Neuropharmacology, National Institute for Medical Research, London.
J Endocrinol. 1988 Nov;119(2):201-9. doi: 10.1677/joe.0.1190201.
The negative-feedback effects of GH on its own secretion were studied in conscious male and female rats bearing indwelling double-bore venous cannulae. Intravenous infusions of human GH (hGH; 20-60 micrograms/h) or somatostatin (SS; 10 micrograms/h) were given while frequent serial microsamples of blood were withdrawn using an automatic blood-sampling system. In both sexes, i.v. infusions of hGH for 6 h inhibited endogenous GH secretory pulses, with a slow onset of the inhibition. There was no rebound GH secretion immediately following the removal of the hGH infusion, but spontaneous GH secretion gradually returned to normal. Infusions of hGH did not inhibit the pituitary GH response to repeated GH-releasing factor (GRF) injections (1 microgram) given i.v. every 40 min to female rats. By contrast, infusions of SS, which also blocked spontaneous GH release, dramatically reduced the GH responses to serial GRF injections. When SS Infusions were stopped, the subsequent GRF-induced GH secretory responses were enhanced. These results show that GH can inhibit its own release when given by i.v. infusion to conscious male and female rats. Since GH responses to GRF are maintained during a GH infusion, the feedback effect of GH is unlikely to be exerted directly on the pituitary or by increasing SS release. Our results are consistent with the idea that GH feedback in the conscious rat involves an inhibition of GRF release.
在留置双腔静脉插管的清醒雄性和雌性大鼠中研究了生长激素(GH)对其自身分泌的负反馈作用。使用自动采血系统频繁采集连续微量血样的同时,静脉输注人GH(hGH;20 - 60微克/小时)或生长抑素(SS;10微克/小时)。在两性中,静脉输注hGH 6小时可抑制内源性GH分泌脉冲,抑制作用起效缓慢。停止输注hGH后,没有立即出现GH分泌反弹,但GH自发分泌逐渐恢复正常。静脉输注hGH并不抑制垂体对每40分钟静脉注射一次(1微克)生长激素释放因子(GRF)的雌性大鼠的GH反应。相比之下,同样能阻断GH自发释放的SS输注,显著降低了对连续GRF注射的GH反应。当停止输注SS时,随后GRF诱导的GH分泌反应增强。这些结果表明,静脉输注GH给清醒的雄性和雌性大鼠时,GH可抑制其自身释放。由于在GH输注期间对GRF的GH反应得以维持,GH的反馈作用不太可能直接作用于垂体或通过增加SS释放来发挥。我们的结果与清醒大鼠中GH反馈涉及抑制GRF释放的观点一致。
