果糖浓度对分离的大鼠肝细胞碳水化合物代谢、产热及底物循环的影响

Effects of fructose concentration on carbohydrate metabolism, heat production and substrate cycling in isolated rat hepatocytes.

作者信息

Clark D G, Filsell O H, Topping D L

出版信息

Biochem J. 1979 Dec 15;184(3):501-7. doi: 10.1042/bj1840501.

DOI:10.1042/bj1840501

PMID:540043

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1161831/

Abstract

Hepatocytes from starved rats were incubated with 5mm-glucose, labelled uniformly with (14)C and specifically with (3)H at positions 1, 2, 3 or 6, and with fructose at concentrations of 2.5, 7.5 or 25mm. 2. In the absence of other substrates only 1% of the radioactivity initially present in [U-(14)C]glucose appeared in the metabolic products, CO(2), lactate, pyruvate, amino acids and glycogen. 3. Fructose at 2.5mm caused a 30% increase in the glucose concentration and a 4-fold increase in the apparent oxidation of [U-(14)C]-glucose. 4. The formation of (3)H(2)O from [1-(3)H]-, [2-(3)H]-, [3-(3)H]- or [6-(3)H]-glucose was 2.4, 4.3, 2.15 or 1.6% respectively in the control incubations and 4.1, 10.4, 7.7 or 5.1% with 2.5mm-fructose. 5. Fructose at 7.5 and 25mm decreased the (3)H(2)O yields to less than the control values, but had no apparent effect on the amount of [U-(14)C]glucose metabolized. 6. In the incubations with 5mm-glucose and 25mm-fructose there were significant decreases in heat production, O(2) consumption and in the ratio of O(2) uptake to heat output. 7. Fructose at 2.5mm caused a 64% increase in heat output, but only a 43% increase in O(2) uptake. 8. The radioisotopic and calorimetric data demonstrate that physiological concentrations of fructose greatly increase metabolism in hepatocytes from starved rats. These data also indicate increased cycling at glucose/glucose 6-phosphate and at fructose 6-phosphate/fructose 1,6-bisphosphate in the presence of 2.5mm-fructose, although the rates of cycling were actually decreased relative to the amount of glucose catabolized. 9. At concentrations of 2.5, 7.5 and 25mm, fructose depressed hepatocyte ATP concentrations by 20, 65 and 80% respectively. Although fructose at 7.5 and 25mm increased glucose and lactate release, O(2) consumption, production of heat and formation of(3)H(2)O from [1-(3)H]-, [2-(3)H]-, [3-(3)H]- or [6-(3)H]-glucose were lowered to values equal to, or less than, controls. These effects probably reflect a severe derangement of hepatic metabolism due to excess phosphorylation of fructose when present at high concentrations.

摘要

将饥饿大鼠的肝细胞与5mmol/L的葡萄糖一起孵育，该葡萄糖用（14）C均匀标记，并在1、2、3或6位用（3）H特异性标记，同时加入浓度为2.5、7.5或25mmol/L的果糖。2. 在没有其他底物的情况下，最初存在于[U-（14）C]葡萄糖中的放射性仅1%出现在代谢产物二氧化碳、乳酸、丙酮酸、氨基酸和糖原中。3. 2.5mmol/L的果糖使葡萄糖浓度增加30%，[U-（14）C]葡萄糖的表观氧化增加4倍。4. 在对照孵育中，由[1-（3）H]-、[2-（3）H]-、[3-（3）H]-或[6-（3）H]-葡萄糖生成（3）H2O的比例分别为2.4%、4.3%、2.15%或1.6%，而加入2.5mmol/L果糖时为4.1%、10.4%、7.7%或5.1%。5. 7.5和25mmol/L的果糖使（3）H2O产量降至低于对照值，但对[U-（14）C]葡萄糖的代谢量无明显影响。6. 在含有5mmol/L葡萄糖和25mmol/L果糖的孵育中，产热、耗氧量以及氧摄取与热输出的比率均显著降低。7. 2.5mmol/L的果糖使热输出增加64%，但氧摄取仅增加43%。8. 放射性同位素和量热数据表明，生理浓度的果糖可显著增加饥饿大鼠肝细胞的代谢。这些数据还表明，在存在2.5mmol/L果糖的情况下，葡萄糖/葡萄糖6-磷酸和果糖6-磷酸/果糖1,6-二磷酸处的循环增加，尽管相对于葡萄糖分解代谢量，循环速率实际上有所降低。9. 在2.5、7.5和25mmol/L浓度下，果糖分别使肝细胞ATP浓度降低20%、65%和80%。尽管7.5和25mmol/L的果糖增加了葡萄糖和乳酸的释放，但耗氧量、产热以及由[1-（3）H]-、[2-（3）H]-、[3-（3）H]-或[6-（3）H]-葡萄糖生成（3）H2O的量降至等于或低于对照的值。这些效应可能反映了高浓度果糖存在时由于果糖过度磷酸化导致的肝脏代谢严重紊乱。