8 Growth hormone releasing hormone

Ashley Grossman M.O., Savage G.M. Besser
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引用次数: 13

Abstract

Human growth hormone releasing hormone (GHRH) was originally extracted from two pancreatic tumours in patients with acromegaly, and is now known to consist of a 44 residue amidated peptide or its C-terminal-shortened derivatives. The sequence of rat GHRH has also been determined; this 43 residue peptide shows approximately 70% homology with human GHRH, and is located mainly in the arcuate nucleus of the hypothalamus. Pulsatile GH release in the rat is principally a consequence of the pulsatile release of hypothalamic GHRH, although this appears to be associated with a transient suppression of somatostatin release. Exogenous GHRH specifically increases circulating GH in many species, and in the long term may increase growth.

In normal man, several analogues of GHRH have been shown to be safe, sensitive and specific stimuli to GH release; although there may be a variable prolactin response, this is usually of small magnitude. Continuous infusion of GHRH leads to a decrement in responsiveness, due at least in part to changes in hypothalamic somatostatin. The GH response to GHRH is also modulated by obesity, blood sugar, free fatty acids, and GH itself. Many children with ‘GH deficiency’ (idiopathic, radiation-induced, or secondary to hypothalamopituitary tumours) respond to intravenous GHRH with an acute rise in serum GH.

Early studies also indicate that long-term therapy with subcutaneous GHRH may increase growth velocity in some of these children. It is concluded that analogues of GHRH are useful in the investigation of the hypothalamopituitary axis, and may be important in the therapy of short stature.

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8生长激素释放激素
人类生长激素释放激素(GHRH)最初是从肢端肥大症患者的两个胰腺肿瘤中提取的,现在已知由44个残基修饰肽或其c端缩短衍生物组成。大鼠GHRH序列也已确定;该43残基肽与人类GHRH的同源性约为70%,主要位于下丘脑弓状核。大鼠的搏动性GH释放主要是下丘脑GHRH搏动性释放的结果,尽管这似乎与生长抑素释放的短暂抑制有关。在许多物种中,外源性GHRH特异性地增加循环GH,长期来看可能会促进生长。在正常男性中,一些GHRH类似物已被证明对GH释放是安全、敏感和特异性的刺激;虽然可能有不同的催乳素反应,但通常是小幅度的。持续输注GHRH导致反应性降低,至少部分原因是下丘脑生长抑素的变化。生长激素对GHRH的反应也受肥胖、血糖、游离脂肪酸和生长激素本身的调节。许多患有“生长激素缺乏症”的儿童(特发性、辐射诱发的或继发于下丘脑垂体肿瘤)对静脉注射GHRH有反应,血清生长激素急剧升高。早期研究还表明,长期皮下GHRH治疗可能会增加这些儿童的生长速度。因此,GHRH类似物在下丘脑垂体轴的研究中是有用的,并且在矮小的治疗中可能是重要的。
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