Camacho Raul C, Pencek R Richard, Lacy D Brooks, James Freyja D, Wasserman David H
Department of Molecular Physiology & Biophysics, Vanderbilt University School of Medicine, Nashville, Tennessee, USA.
Diabetes. 2004 Feb;53(2):285-93. doi: 10.2337/diabetes.53.2.285.
Hyperinsulinemia during exercise in people with diabetes requiring exogenous insulin is a major clinical problem. The aim of this study was to assess the significance of portal vein versus arterial insulin to hepatic effects of hyperinsulinemia during exercise. Dogs had sampling (artery, portal vein, and hepatic vein) and infusion (vena cava and portal vein) catheters and flow probes (hepatic artery and portal vein) implanted >16 days before a study. Protocols consisted of equilibration (-130 to -30 min), basal (-30 to 0 min), and treadmill exercise (0-150 min) periods. Somatostatin was infused and glucagon and insulin were replaced in the portal vein to achieve basal arterial and portal vein levels at rest and simulated levels during the first 60 min of exercise. From 60 to 150 min of exercise, the simulated insulin infusion was sustained (C; n = 7), modified to selectively create a physiologic increment in arterial insulin (Pe; n = 7), or altered to increase arterial insulin as in Pe but with a concomitant increase in portal insulin (PePo; n = 7). Euglycemic clamps were performed in all studies. Portal and arterial insulin were 15 +/- 2 and 4 +/- 1 micro U/ml (mean +/- SE of all groups), respectively, at t = 60 min in all groups. Insulin levels were unchanged for the remainder of the exercise period in C. Arterial insulin was increased from 3 +/- 1 to 14 +/- 2 micro U/ml, whereas portal insulin did not change in Pe after t = 60 min. Arterial insulin was increased from 3 +/- 1 to 15 +/- 2 micro U/ml, and portal insulin was increased from 16 +/- 3 to 33 +/- 3 micro U/ml in PePo after t = 60 min. Endogenous glucose production (R(a)) rose similarly from basal during the first 60 min of exercise in all groups (mean +/- SE of all groups was from 2.2 +/- 0.1 to 6.8 +/- 0.5 mg. kg(-1). min(-1)). The increase in R(a) was sustained for the remainder of the exercise period in C. R(a) was suppressed by approximately 40%, but only after 60 min of hyperinsulinemia, and by approximately 20% after 90 min of hyperinsulinemia in Pe. In contrast, the addition of portal venous hyperinsulinemia caused approximately 90% suppression of R(a) within 20 min and for the remainder of the experiment in PePo. Measurements of net hepatic glucose output were similar to R(a) responses in all groups. Arterial free fatty acids (FFAs), a stimulus of R(a), were increased to 1,255 +/- 258 micro mol/l in C but were only 459 +/- 67 and 312 +/- 42 micro mol/l in Pe and PePo, respectively, by 150 min of exercise. Thus, during exercise, the exquisite sensitivity of R(a) to hyperinsulinemia is due entirely to portal venous hyperinsulinemia during the first 60 min, after which peripheral hyperinsulinemia may control approximately 20-40%, possibly as a result of inhibition of the exercise-induced increase in FFA.
对于需要外源性胰岛素治疗的糖尿病患者,运动期间的高胰岛素血症是一个主要的临床问题。本研究的目的是评估在运动期间门静脉胰岛素与动脉胰岛素对高胰岛素血症肝脏效应的意义。在研究前>16天,给犬植入采样(动脉、门静脉和肝静脉)和输注(腔静脉和门静脉)导管以及流量探头(肝动脉和门静脉)。实验方案包括平衡期(-130至-30分钟)、基础期(-30至0分钟)和跑步机运动期(0至150分钟)。输注生长抑素,并在门静脉中补充胰高血糖素和胰岛素,以达到静息时的基础动脉和门静脉水平以及运动最初60分钟期间的模拟水平。在运动60至150分钟期间,模拟胰岛素输注持续进行(C组;n = 7);进行调整以选择性地使动脉胰岛素产生生理性增加(Pe组;n = 7);或进行改变,使动脉胰岛素如Pe组那样增加,但同时门静脉胰岛素也增加(PePo组;n = 7)。所有研究均进行正常血糖钳夹。在所有组中,t = 60分钟时,门静脉和动脉胰岛素水平分别为15±2和4±1微U/ml(所有组的平均值±标准误)。在C组中,运动期其余时间胰岛素水平无变化。在Pe组中,t = 60分钟后,动脉胰岛素从3±1微U/ml增加至14±2微U/ml,而门静脉胰岛素无变化。在PePo组中,t = 60分钟后,动脉胰岛素从3±1微U/ml增加至15±2微U/ml,门静脉胰岛素从16±3微U/ml增加至33±3微U/ml。在运动的最初60分钟内,所有组的内源性葡萄糖生成(R(a))从基础水平开始均有相似程度的升高(所有组的平均值±标准误为从2.2±
