乙酰乙酸对大鼠比目鱼肌和趾长伸肌葡萄糖代谢的影响。
Effect of acetoacetate on glucose metabolism in the soleus and extensor digitorum longus muscles of the rat.
作者信息
Maizels E Z, Ruderman N B, Goodman M N, Lau D
出版信息
Biochem J. 1977 Mar 15;162(3):557-68. doi: 10.1042/bj1620557.
Abstract
- The effect of acetoacetate on glucose metabolism was compared in the soleus, a slow-twitch red muscle, and the extensor digitorum longus, a muscle composed of 50% fast-twitch red and 50% white fibres. 2. When incubated for 2h in a medium containing 5 mM-glucose and 0.1 unit of insulin/ml, rates of glucose uptake, lactate release and glucose oxidation in the soleus were 19.6, 18.6 and 1.47 micronmol/h per g respectively. Acetoacetate (1.7 mM) diminished all three rates by 25-50%; however, it increased glucose conversion into glycogen. In addition, it caused increases in tissue glucose, glucose 6-phosphate and fructose 6-phosphate, suggesting inhibition of phosphofructokinase. The concentrations of citrate, an inhibitor of phosphofructokinase, and of malate were also increased. 3. Rates of glucose uptake and lactate release in the extensor digitorum longus were 50-80% of those in the soleus. Acetoacetate caused moderate increases in tissue glucose 6-phosphate and possibly citrate, but it did not decrease glucose uptake or lactate release. 4. The rate of glycolysis in the soleus was approximately five times that previously observed in the perfused rat hindquarter, a muscle preparation in which acetoacetate inhibits glucose oxidation, but does not alter glucose uptake or glycolysis. A similar rate of glycolysis was observed when the soleus was incubated with a glucose-free medium. Under these conditions, tissue malate and the lactate/pyruvate ratio in the medium were decreased, and acetoacetate did not decrease lactate release or increase tissue citrate or glucose 6-phosphate. An intermediate rate of glycolysis, which was not decreased by acetoacetate, was observed when the soleus was incubated with glucose, but not insulin. 5. The data suggest that acetoacetate glucose inhibits uptake and glycolysis in red muscle under conditions that resemble mild to moderate exercise. They also suggest that the accumulation of citrate in these circumstances is linked to the rate of glycolysis, possibly through the generation of cytosolic NADH and malate formation.
摘要
- 比较了乙酰乙酸对比目鱼肌(一种慢肌红肌)和趾长伸肌(一种由50%快肌红纤维和50%白纤维组成的肌肉)葡萄糖代谢的影响。2. 在含有5 mM葡萄糖和0.1单位胰岛素/毫升的培养基中孵育2小时后,比目鱼肌的葡萄糖摄取率、乳酸释放率和葡萄糖氧化率分别为每克19.6、18.6和1.47微摩尔/小时。乙酰乙酸(1.7 mM)使这三种速率降低了25 - 50%;然而,它增加了葡萄糖向糖原的转化。此外,它导致组织葡萄糖、6 - 磷酸葡萄糖和6 - 磷酸果糖增加,提示磷酸果糖激酶受到抑制。磷酸果糖激酶抑制剂柠檬酸以及苹果酸的浓度也增加了。3. 趾长伸肌的葡萄糖摄取率和乳酸释放率是比目鱼肌的50 - 80%。乙酰乙酸使组织6 - 磷酸葡萄糖以及可能还有柠檬酸适度增加,但它并没有降低葡萄糖摄取或乳酸释放。4. 比目鱼肌的糖酵解速率大约是先前在灌注大鼠后肢中观察到的速率的五倍,在灌注大鼠后肢这种肌肉制备中,乙酰乙酸抑制葡萄糖氧化,但不改变葡萄糖摄取或糖酵解。当比目鱼肌在无葡萄糖培养基中孵育时,观察到类似的糖酵解速率。在这些条件下,组织苹果酸和培养基中的乳酸/丙酮酸比值降低,并且乙酰乙酸没有降低乳酸释放或增加组织柠檬酸或6 - 磷酸葡萄糖。当比目鱼肌与葡萄糖但不与胰岛素一起孵育时,观察到一种中等程度的糖酵解速率,该速率未被乙酰乙酸降低。5. 数据表明,在类似于轻度至中度运动的条件下,乙酰乙酸抑制红肌中的葡萄糖摄取和糖酵解。它们还表明,在这些情况下柠檬酸的积累与糖酵解速率有关,可能是通过胞质NADH的生成和苹果酸的形成。
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