生长激素释放激素在体外和体内均被血浆快速酶解为一种在NH2末端被切割的无生物活性产物。
Rapid enzymatic degradation of growth hormone-releasing hormone by plasma in vitro and in vivo to a biologically inactive product cleaved at the NH2 terminus.
作者信息
Frohman L A, Downs T R, Williams T C, Heimer E P, Pan Y C, Felix A M
出版信息
J Clin Invest. 1986 Oct;78(4):906-13. doi: 10.1172/JCI112679.
Abstract
The effect of plasma on degradation of human growth hormone-releasing hormone (GRH) was examined in vitro and in vivo using high performance liquid chromatography (HPLC), radioimmunoassay (RIA), and bioassay. When GRH(1-44)-NH2 was incubated with human plasma, the t1/2 of total GRH immunoreactivity was 63 min (RIA). However, HPLC revealed a more rapid disappearance (t1/2, 17 min) of GRH(1-44)-NH2 that was associated with the appearance of a less hydrophobic but relatively stable peptide that was fully immunoreactive. Sequence analysis indicated its structure to be GRH(3-44)-NH2. Identity was also confirmed by co-elution of purified and synthetic peptides on HPLC. Biologic activity of GRH(3-44)-NH2 was less than 10(-3) that of GRH(1-44)-NH2. After intravenous injection of GRH(1-44)-NH2 in normal subjects, a plasma immunoreactive peak with HPLC retention comparable to GRH(3-44)-NH2 was detected within 1 min and the t1/2 of GRH(1-44)-NH2 (HPLC) was 6.8 min. The results provide evidence for GRH inactivation by a plasma dipeptidylaminopeptidase that could limit its effect on the pituitary.
摘要
利用高效液相色谱法(HPLC)、放射免疫分析法(RIA)和生物测定法,在体外和体内研究了血浆对人生长激素释放激素(GRH)降解的影响。当GRH(1 - 44)-NH2与人血浆一起温育时,总GRH免疫反应性的t1/2为63分钟(RIA)。然而,HPLC显示GRH(1 - 44)-NH2消失更快(t1/2为17分钟),这与一种疏水性较低但相对稳定且具有完全免疫反应性的肽的出现有关。序列分析表明其结构为GRH(3 - 44)-NH2。通过HPLC上纯化肽和合成肽的共洗脱也证实了其一致性。GRH(3 - 44)-NH2的生物活性小于GRH(1 - 44)-NH2的10^(-3)。在正常受试者静脉注射GRH(1 - 44)-NH2后,1分钟内检测到一个血浆免疫反应峰,其HPLC保留时间与GRH(3 - 44)-NH2相当,GRH(1 - 44)-NH2(HPLC)的t1/2为6.8分钟。这些结果为血浆二肽基氨基肽酶使GRH失活提供了证据,该酶可能会限制其对垂体的作用。
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