胰高血糖素是肌肉运动期间肝糖原分解和糖异生的主要调控因子。
Glucagon is a primary controller of hepatic glycogenolysis and gluconeogenesis during muscular work.
作者信息
Wasserman D H, Spalding J A, Lacy D B, Colburn C A, Goldstein R E, Cherrington A D
机构信息
Department of Molecular Physiology and Biophysics, Vanderbilt University School of Medicine, Nashville, Tennessee 37232.
出版信息
Am J Physiol. 1989 Jul;257(1 Pt 1):E108-17. doi: 10.1152/ajpendo.1989.257.1.E108.
The effects of the exercise-induced rise in glucagon were studied during 2.5 h of treadmill exercise in 18-h fasted dogs. Five dogs were studied during paired experiments in which pancreatic hormones were clamped at basal levels during a control period (using somatostatin and intraportal hormone replacement), then altered during exercise to stimulate the normal exercise-induced fall in insulin, while glucagon was 1) increased to mimic its normal exercise-induced rise (SG) and 2) maintained at a basal level (BG). Six additional dogs were studied as described with saline infusion alone (C). Gluconeogenesis (GNG) and glucose production (Ra) were measured using tracers [( 3-3H]glucose and [U-14C]alanine) and arteriovenous differences. Glucose fell slightly during exercise in C and was infused in SG and BG so as to mimic the response in C. Glucagon rose from 60 +/- 3 and 74 +/- 5 pg/ml to 118 +/- 14 and 122 +/- 17 pg/ml with exercise in C and SG and was unchanged from basal in BG (67 +/- 6 pg/ml). In C, SG, and BG, insulin fell during exercise by 5 +/- 1, 6 +/- 1, and 6 +/- 1 microU/ml. Ra rose from 3.3 +/- 0.2 and 3.0 +/- 0.2 mg.kg-1.min-1 to 8.6 +/- 0.8 and 9.5 +/- 1.5 mg.kg-1.min-1 with exercise in C and SG, but from only 3.0 +/- 0.2 to 5.5 +/- 0.8 mg.kg-1.min-1 in BG. GNG increased by 248 +/- 38 and 183 +/- 75% with exercise in C and SG but by only 56 +/- 21% in BG. Intrahepatic gluconeogenic efficiency was also enhanced by the rise in glucagon increasing by 338 +/- 55 and 198 +/- 52% in C and SG but by only 54 +/- 46% in BG. The rise in hepatic fractional alanine extraction was 0.38 +/- 0.04 and 0.33 +/- 0.04 during exercise in C and SG and only 0.08 +/- 0.06 in BG. Ra was increased beyond that which could be explained by effects on GNG alone, hence hepatic glycogenolysis must have also been enhanced by the rise in glucagon. In conclusion, in the dog, the exercise-induced rise in glucagon 1) controls approximately 65% of the increase in Ra, 2) increases hepatic glycogenolysis and GNG, and 3) enhances GNG by stimulating precursor extraction by the liver and precursor conversion to glucose within the liver.
在禁食18小时的犬只中,研究了跑步机运动2.5小时期间运动诱导的胰高血糖素升高的影响。在配对实验中对5只犬进行了研究,在对照期(使用生长抑素和门静脉内激素替代)将胰腺激素钳制在基础水平,然后在运动期间改变激素水平以刺激正常运动诱导的胰岛素下降,同时胰高血糖素:1)升高以模拟其正常运动诱导的升高(SG组);2)维持在基础水平(BG组)。另外6只犬只仅输注生理盐水进行研究(C组)。使用示踪剂[(3-3H]葡萄糖和[U-14C]丙氨酸)以及动静脉差异测量糖异生(GNG)和葡萄糖生成(Ra)。C组运动期间葡萄糖略有下降,SG组和BG组输注葡萄糖以模拟C组的反应。C组和SG组运动时,胰高血糖素从60±3和74±5 pg/ml升至118±14和122±17 pg/ml,BG组与基础值无变化(67±6 pg/ml)。在C组、SG组和BG组中,运动期间胰岛素分别下降5±1、6±1和6±1 μU/ml。C组和SG组运动时,Ra从3.3±0.2和3.0±0.2 mg·kg-1·min-1升至8.6±0.8和9.5±1.5 mg·kg-1·min-1,而BG组仅从3.0±0.2升至5.5±0.8 mg·kg-1·min-1。C组和SG组运动时GNG分别增加248±38%和183±75%,而BG组仅增加56±21%。胰高血糖素升高还增强了肝内糖异生效率,C组和SG组分别增加338±55%和198±52%,而BG组仅增加54±46%。C组和SG组运动期间肝内丙氨酸提取分数的升高分别为0.38±0.04和0.33±0.04,BG组仅为0.08±0.06。Ra的增加超出了仅由对GNG的影响所能解释的范围,因此胰高血糖素升高必定也增强了肝糖原分解。总之,在犬中,运动诱导的胰高血糖素升高:1)控制了约65%的Ra增加;2)增加肝糖原分解和GNG;3)通过刺激肝脏提取前体以及肝脏内前体转化为葡萄糖来增强GNG。
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