糖原分解的抑制增强了清醒犬肝脏对糖异生前体的摄取。
Inhibition of glycogenolysis enhances gluconeogenic precursor uptake by the liver of conscious dogs.
作者信息
Shiota M, Jackson P A, Bischoff H, McCaleb M, Scott M, Monohan M, Neal D W, Cherrington A D
机构信息
Department of Molecular Physiology and Biophysics, Vanderbilt University School of Medicine, Nashville, Tennessee 37232-0615, USA.
出版信息
Am J Physiol. 1997 Nov;273(5):E868-79. doi: 10.1152/ajpendo.1997.273.5.E868.
We investigated the effect of inhibiting glycogenolysis on gluconeogenesis in 18-h-fasted conscious dogs with the use of intragastric administration of BAY R 3401, a glycogen phosphorylase inhibitor. Isotopic ([3-3H]glucose and [U-14C]alanine) and arteriovenous difference methods were used to assess glucose metabolism. Each study consisted of a 100-min equilibration, a 40-min control, and two 90-min test periods. Endogenous insulin and glucagon secretions were inhibited with somatostatin (0.8 microgram.kg-1.min-1), and the two hormones were replaced intraportally (insulin: 0.25 mU.kg-1.min-1; glucagon: 0.6 ng.kg-1.min-1). Drug (10 mg/kg) or placebo was given after the control period. Insulin and glucagon were kept at basal levels in the first test period, after which glucagon infusion was increased to 2.4 ng.kg-1.min-1; BAY R 3401 decreased tracer-determined endogenous glucose production [rate of glucose production (Ra): 14 +/- 1 to 7 +/- 1 mumol.kg-1.min-1] and net hepatic glucose output (11 +/- 1 to 3 +/- 2 mumol.kg-1.min-1) during test 1. It increased the net hepatic uptake of gluconeogenic substrates from 9.0 +/- 2.0 to 11.6 +/- 0.6 mumol.kg-1.min-1. Basal glycogenolysis was decreased by drug (9.1 +/- 0.7 to 1.5 +/- 0.2 mumol glucosyl U.kg-1.min-1). Placebo had no effect on Ra or the uptake of gluconeogenic precursors by the liver. The rise in glucagon increased Ra by 22 +/- 3 and by 8 +/- 2 mumol.kg-1.min-1 (at 10 min) in placebo and drug, respectively. The rise in glucagon caused little change in the net hepatic uptake (mumol.kg-1.min-1) of gluconeogenic substrates in placebo (8.2 +/- 0.6 to 9.0 +/- 1.0) but increased it markedly (11.6 +/- 0.6 to 15.4 +/- 1.0) in drug. Glucagon increased glycogenolysis by 22.1 +/- 2.5 and by 7.8 +/- 1.6 mumol.kg-1.min-1 in placebo and drug, respectively. The amount of glycogen (mumol glucosyl U/kg) synthesized from gluconeogenic carbon was four times higher in drug (48.6 +/- 9.7) than in placebo (11.3 +/- 1.7). We conclude that BAY R 3401 caused a marked reduction in basal and glucagon-stimulated glycogenolysis. As a result of these changes, there was an increase in the net hepatic uptake of gluconeogenic precursors and in glycogen synthesis.
我们利用胃内给予糖原磷酸化酶抑制剂BAY R 3401,研究了抑制糖原分解对18小时禁食清醒犬糖异生的影响。采用同位素([3-³H]葡萄糖和[U-¹⁴C]丙氨酸)和动静脉差法评估葡萄糖代谢。每项研究包括100分钟的平衡期、40分钟的对照期和两个90分钟的测试期。用生长抑素(0.8微克·千克⁻¹·分钟⁻¹)抑制内源性胰岛素和胰高血糖素分泌,并通过门静脉给予这两种激素替代物(胰岛素:0.25毫单位·千克⁻¹·分钟⁻¹;胰高血糖素:0.6纳克·千克⁻¹·分钟⁻¹)。在对照期后给予药物(10毫克/千克)或安慰剂。在第一个测试期,胰岛素和胰高血糖素维持在基础水平,之后将胰高血糖素输注量增加至2.4纳克·千克⁻¹·分钟⁻¹;在测试1期间,BAY R 3401降低了示踪剂测定的内源性葡萄糖生成[葡萄糖生成率(Ra):14±1降至7±1微摩尔·千克⁻¹·分钟⁻¹]和肝脏净葡萄糖输出(11±1降至3±2微摩尔·千克⁻¹·分钟⁻¹)。它使肝脏从糖异生底物的净摄取量从9.0±2.0增加至11.6±0.6微摩尔·千克⁻¹·分钟⁻¹。药物使基础糖原分解减少(从9.1±0.7降至1.5±0.2微摩尔葡萄糖基单位·千克⁻¹·分钟⁻¹)。安慰剂对Ra或肝脏对糖异生前体的摄取没有影响。胰高血糖素升高使安慰剂组和药物组的Ra分别增加22±3和8±2微摩尔·千克⁻¹·分钟⁻¹(在10分钟时)。胰高血糖素升高使安慰剂组肝脏从糖异生底物的净摄取量(微摩尔·千克⁻¹·分钟⁻¹)变化不大(从8.2±0.6增至9.0±1.0),但使药物组显著增加(从11.6±0.6增至15.4±1.0)。胰高血糖素使安慰剂组和药物组的糖原分解分别增加22.1±2.5和7.8±1.6微摩尔·千克⁻¹·分钟⁻¹。由糖异生碳合成的糖原量(微摩尔葡萄糖基单位/千克)在药物组(48.6±9.7)是安慰剂组(11.3±1.7)的四倍。我们得出结论,BAY R 3401导致基础和胰高血糖素刺激的糖原分解显著减少。由于这些变化,肝脏从糖异生前体的净摄取量和糖原合成增加。
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