Ionut Viorica, Liberty Idit F, Hucking Katrin, Lottati Maya, Stefanovski Darko, Zheng Dan, Bergman Richard N
Department of Physiology and Biophysics, Keck School of Medicine, University of Southern California, 1333 San Pablo St., Los Angeles CA 90033, USA.
Am J Physiol Endocrinol Metab. 2006 Oct;291(4):E779-85. doi: 10.1152/ajpendo.00106.2005. Epub 2006 May 23.
The insulinotropic intestinal hormone GLP-1 is thought to exert one of its effects by direct action on the pancreatic beta-cell receptors. GLP-1 is rapidly degraded in plasma, such that only a small amount of the active form reaches the pancreas, making it questionable whether this amount is sufficient to produce a direct incretin effect. The aim of our study was to assess, in a dog model, the putative incretin action of GLP-1 acting directly on the beta-cell in the context of postprandial rises in GLP-1 and glucose. Conscious dogs were fed a high-fat, high-carbohydrate meal, and insulin response was measured. We also infused systemic glucose plus GLP-1, or glucose alone, to simulate the meal test values of these variables and measured insulin response. The results were as follows: during the meal, we measured a robust insulin response (52 +/- 9 to 136 +/- 14 pmol/l, P < 0.05 vs. basal) with increases in portal glucose and GLP-1 but only limited increases in systemic glucose (5.3 +/- 0.1 to 5.7 +/- 0.1 mmol/l, P = 0.1 vs. basal) and GLP-1 (6 +/- 0 to 9 +/- 1 pmol/l, P = 0.5 vs. basal). Exogenous infusion of systemic glucose and GLP-1 produced a moderate increase in insulin (43 +/- 5 to 84 +/- 15 pmol/l, 43% of the meal insulin). However, infusion of glucose alone, without GLP-1, produced a similar insulin response (37 +/- 6 to 82 +/- 14 pmol, 53% of the meal insulin, P = 0.7 vs. glucose and GLP-1 infusion). In conclusion, in dogs with postprandial rises in systemic glucose and GLP-1, the hormone might not have a direct insulinotropic effect and could regulate glycemia via indirect, portohepatic-initiated neural mechanisms.
促胰岛素分泌的肠促胰素GLP - 1被认为通过直接作用于胰腺β细胞受体发挥其部分作用。GLP - 1在血浆中迅速降解,以至于只有少量活性形式到达胰腺,这使得该量是否足以产生直接的肠促胰素效应存疑。我们研究的目的是在犬模型中评估,在餐后GLP - 1和葡萄糖升高的情况下,GLP - 1直接作用于β细胞的假定肠促胰素作用。给清醒的犬喂食高脂高碳水化合物餐,并测量胰岛素反应。我们还输注全身性葡萄糖加GLP - 1或单独输注葡萄糖,以模拟这些变量的餐测值并测量胰岛素反应。结果如下:进餐期间,我们测量到胰岛素反应强烈(从52±9升至136±14 pmol/l,与基础值相比P < 0.05),门静脉葡萄糖和GLP - 1升高,但全身性葡萄糖(从5.3±0.1升至5.7±0.1 mmol/l,与基础值相比P = 0.1)和GLP - 1(从6±0升至9±1 pmol/l,与基础值相比P = 0.5)仅有限升高。外源性输注全身性葡萄糖和GLP - 1使胰岛素适度增加(从43±5升至84±15 pmol/l,为进餐时胰岛素的43%)。然而,单独输注葡萄糖而不添加GLP - 1产生了类似的胰岛素反应(从37±6升至82±14 pmol,为进餐时胰岛素的53%,与输注葡萄糖和GLP - 1相比P = 0.7)。总之,在餐后全身性葡萄糖和GLP - 1升高的犬中,该激素可能没有直接的促胰岛素分泌作用,可能通过间接的、门静脉 - 肝脏起始的神经机制调节血糖。
