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首页> 外文OA文献 >Improved stability, insulin-releasing activity and antidiabetic potential of two novel N-terminal analogues of gastric inhibitory polypeptide: N-acetyl-GIP and pGlu-GIP
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Improved stability, insulin-releasing activity and antidiabetic potential of two novel N-terminal analogues of gastric inhibitory polypeptide: N-acetyl-GIP and pGlu-GIP

机译:两种新型的胃抑制多肽新的N末端类似物(N-乙酰-GIP和pGlu-GIP)具有更高的稳定性,胰岛素释放活性和抗糖尿病潜力

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Aims/hypothesis: This study examined the plasma stability, biological activity and antidiabetic potential of two novel N-terminally modified analogues of gastric inhibitory polypeptide (GIP).Methods: Degradation studies were carried out on GIP, N-acetyl-GIP (Ac-GIP) and N-pyroglutamyl-GIP (pGlu-GIP) in vitro following incubation with either dipeptidylpeptidase IV or human plasma. Cyclic adenosine 3'5' monophosphate (cAMP) production was assessed in Chinese hamster lung fibroblast cells transfected with the human GIP receptor. Insulin-releasing ability was assessed in vitro in BRIN-BD11 cells and in obese diabetic (ob/ob) mice.Results: GIP was rapidly degraded by dipeptidylpeptidase IV and plasma (t1/2 2.3 and 6.2 h, respectively) whereas Ac-GIP and pGlu-GIP remained intact even after 24 h. Both Ac-GIP and pGlu-GIP were extremely potent (p<0.001) at stimulating cAMP production (EC50 values 1.9 and 2.7 nmol/l, respectively), almost a tenfold increase compared to native GIP (18.2 nmol/l). Both Ac-GIP and pGlu-GIP (10–13–10–8 mmol/l) were more potent at stimulating insulin release compared to the native GIP (p<0.001), with 1.3-fold and 1.2-fold increases observed at 10–8 mol/l, respectively. Administration of GIP analogues (25 nmol/kg body weight, i.p.) together with glucose (18 mmol/kg) in (ob/ob) mice lowered (p<0.001) individual glucose values at 60 min together with the areas under the curve for glucose compared to native GIP. This antihyperglycaemic effect was coupled to a raised (p<0.001) and more prolonged insulin response after administration of Ac-GIP and pGlu-GIP (AUC, 644±54 and 576±51 ng·ml–1·min, respectively) compared with native GIP (AUC, 257±29 ng·ml–1·min).Conclusion/interpretation: Ac-GIP and pGlu-GIP, show resistance to plasma dipeptidylpeptidase IV degradation, resulting in enhanced biological activity and improved antidiabetic potential in vivo, raising the possibility of their use in therapy of Type II (non-insulin-dependent) diabetes mellitus.
机译:目的/假设:本研究检查了两种新型的胃抑制性多肽(GIP)的N端修饰的新型类似物的血浆稳定性,生物学活性和抗糖尿病潜力。方法:在GIP,N-乙酰基GIP(Ac-与二肽基肽酶IV或人血浆孵育后,在体外进行GIP)和N-焦谷氨酰-GIP(pGlu-GIP)的研究。在用人GIP受体转染的中国仓鼠肺成纤维细胞中评估了环状腺苷3'5'单磷酸酯(cAMP)的产生。在BRIN-BD11细胞和肥胖(ob / ob)小鼠中评估了胰岛素释放能力。结果:二肽基肽酶IV和血浆迅速降解GIP(分别为t1 / 2 2.3和6.2 h),而Ac-GIP即使在24小时后,pGlu-GIP仍保持完整。 Ac-GIP和pGlu-GIP在刺激cAMP产生时都非常有效(p <0.001)(EC50值分别为1.9和2.7 nmol / l),与天然GIP(18.2 nmol / l)相比增加了近十倍。与天然GIP相比,Ac-GIP和pGlu-GIP(10–13–10–8 mmol / l)在刺激胰岛素释放方面更有效(p <0.001),在10时观察到增加1.3倍和1.2倍分别为–8 mol / l。在(ob / ob)小鼠中施用GIP类似物(25 nmol / kg体重,ip)以及葡萄糖(18 mmol / kg)降低了60分钟时个体葡萄糖值(p <0.001)以及曲线下面积葡萄糖与天然GIP相比。与给予Ac-GIP和pGlu-GIP后相比,这种抗高血糖作用与升高的(p <0.001)和更长的胰岛素反应(AUC,分别为644±54和576±51 ng·ml–1·min)相比较。天然GIP(AUC,257±29 ng·ml–1·min)。结论/解释:Ac-GIP和pGlu-GIP对血浆二肽基肽酶IV降解具有抗性,从而增强了生物活性并提高了体内体内的抗糖尿病潜力,从而提高了将其用于治疗II型(非胰岛素依赖型)糖尿病的可能性。

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