Massoud A F, Hindmarsh P C, Matthews D R, Brook C G
London Centre for Paediatric Endocrinology and Metabolism, Middlesex Hospital, London, UK.
Clin Endocrinol (Oxf). 1996 May;44(5):555-62. doi: 10.1046/j.1365-2265.1996.722543.x.
Hexarelin is a synthetic six-amino-acid compound capable of releasing GH in animals and in man. Its mechanism of action is not understood and little is known about the GH response after repeated administration. The aim of this study was to determine the GH response to the administration of two intravenous boluses of hexarelin, growth hormone releasing hormone (GHRH) or hexarelin with GHRH.
Single boluses of hexarelin (1 microgram/kg), GHRH-(1-29)-NH2 (1 microgram/kg) or hexarelin with GHRH-(1-29)-NH2 were administered intravenously. Each study was performed on two further occasions, with a second bolus being administered 60 or 120 minutes after the first. A control study was performed giving saline intravenously. Studies were performed in a random order.
Six healthy adult males (25.4-34.1 years) were studied.
Serum GH was measured by radioimmunoassay. GH secretion rates were derived from the measured serum GH concentrations using the technique of deconvolution analysis.
The peak GH secretion rate following the first intravenous bolus of hexarelin was greater than that following the first bolus of GHRH-(1-29)-NH2 (P < 0.001), and was greatest following the administration of hexarelin with GHRH-(1-29)-NH2 (P < 0.001). The coadministration of the two secretagogues resulted in peak GH secretion rates significantly greater than the arithmetic sum of those following their isolated administration (P = 0.001), demonstrating synergism. Compared to saline, the administration of a second bolus of hexarelin, GHRH-(1-29)-NH2 or both resulted in significant further GH secretion (P = 0.02, P = 0.002, P = 0.03, respectively). The administration of a second bolus of hexarelin or hexarelin with GHRH-(1-29)-NH2 120 minutes after the first bolus resulted in lower peak GH secretion rates (P = 0.03). The reductions in peak GH secretion rates following the 60-minute boluses were not statistically significant. The peak GH secretion rates following the first GHRH-(1-29)-NH2 boluses were similar to those following the 60 and 120-minute GHRH-(1-29)-NH2 boluses (P = NS). Irrespective of the interval between the boluses of hexarelin with GHRH-(1-29)-NH2, the peak GH secretion rates following the second boluses were not significantly different from the arithmetic sum of those following the administration of the second boluses of hexarelin or GHRH-(1-29)-NH2, indicating loss of synergism on repeated administration.
This study shows that hexarelin is a potent GH secretagogue active after two successive doses; the magnitude of the GH response to the second dose was influenced by the dosing interval. Hexarelin and GHRH-(1-29)-NH2 are synergistic, a property which is lost after repeated administration. These findings may help our understanding of GHRPs and may have implications for the potential use of hexarelin and other GHRPs as therapeutic agents.
生长激素释放肽-6是一种合成的六氨基酸化合物,能够在动物和人类体内释放生长激素(GH)。其作用机制尚不清楚,且关于重复给药后的GH反应知之甚少。本研究的目的是确定静脉注射两次生长激素释放肽-6、生长激素释放激素(GHRH)或生长激素释放肽-6与GHRH联合给药后的GH反应。
静脉注射单次剂量的生长激素释放肽-6(1微克/千克)、GHRH-(1-29)-NH2(1微克/千克)或生长激素释放肽-6与GHRH-(1-29)-NH2。每项研究在另外两个时间点进行,在第一次给药后60或120分钟给予第二次推注。进行了一项静脉注射生理盐水的对照研究。研究按随机顺序进行。
研究了6名健康成年男性(25.4 - 34.1岁)。
通过放射免疫分析法测量血清GH。使用反卷积分析技术从测得的血清GH浓度得出GH分泌率。
首次静脉注射生长激素释放肽-6后的GH分泌峰值率大于首次注射GHRH-(1-29)-NH2后的峰值率(P < 0.001),且在生长激素释放肽-6与GHRH-(1-29)-NH2联合给药后最大(P < 0.001)。两种促分泌素联合给药导致的GH分泌峰值率显著大于其单独给药后的峰值率算术和(P = 0.001),表明存在协同作用。与生理盐水相比,第二次注射生长激素释放肽-6、GHRH-(1-29)-NH2或两者均导致显著的进一步GH分泌(分别为P = 0.02、P = 0.002、P = 0.03)。在第一次推注后120分钟给予第二次生长激素释放肽-6推注或生长激素释放肽-6与GHRH-(1-29)-NH2联合推注导致较低的GH分泌峰值率(P = 0.03)。60分钟推注后GH分泌峰值率的降低无统计学意义。首次GHRH-(1-29)-NH2推注后的GH分泌峰值率与60分钟和120分钟GHRH-(1-29)-NH2推注后的峰值率相似(P = 无显著性差异)。无论生长激素释放肽-6与GHRH-(1-29)-NH2推注之间的间隔如何,第二次推注后的GH分泌峰值率与第二次注射生长激素释放肽-6或GHRH-(1-29)-NH2后的峰值率算术和无显著差异,表明重复给药后协同作用消失。
本研究表明,生长激素释放肽-6是一种在连续两次给药后有活性的强效GH促分泌素;对第二次剂量的GH反应幅度受给药间隔影响。生长激素释放肽-6与GHRH-(1-29)-NH2具有协同作用,这一特性在重复给药后丧失。这些发现可能有助于我们理解生长激素释放肽,并可能对生长激素释放肽-6和其他生长激素释放肽作为治疗药物的潜在用途具有启示意义。
