大鼠心脏和腓肠肌中甘油酯和磷脂的浓度。四氧嘧啶糖尿病及灌注的影响。
Concentrations of glycerides and phospholipids in rat heart and gastrocnemius muscles. Effects of alloxan-diabetes and perfusion.
作者信息
Denton R M, Randle P J
出版信息
Biochem J. 1967 Aug;104(2):416-22. doi: 10.1042/bj1040416.
Abstract
- Methods are described for the extraction of lipid and assay of mono-, di- and tri-glyceride glycerol and phospholipid phosphorus in rat heart and gastrocnemius muscles. 2. In hearts from normal animals, concentrations found were: monoglyceride, 0.6; diglyceride, 0.1; triglyceride, 12.6mumoles of glyceride glycerol/g. of dry muscle; phospholipid, 171mug.atoms of phospholipid phosphorus/g. of dry muscle. Concentrations of glycerides in gastrocnemius muscle were similar to heart muscle but those of phospholipids were lower (64mug.atoms of phospholipid phosphorus/g. of dry muscle). 3. Alloxan-diabetes increased the concentration of triglyceride in the muscles twofold. This increase was shown to be dependent in the heart on the availability of growth hormone and cortisol but not on the availability of dietary lipid. Total glyceride in the heart was increased after 48 and 72hr. starvation but not after 96hr. Changes in glyceride concentration seen in starvation and diabetes were not associated with significant changes in phospholipid concentration. It is suggested that mobilization of free fatty acids in diabetes leads to the synthesis of additional glyceride in muscle. 4. The possible contribution of glyceride fatty acid in the heart to respiration during perfusion has been calculated from the net loss of glyceride during perfusion, and also from the relative rates of lipolysis and esterification and compared with oxidation of fatty acid required for the balance of oxygen consumption (oxygen not utilized in the oxidation of glucose or glycogen glucose). In the normal or diabetic heart perfused with glucose and insulin the breakdown of glyceride can account for the balance of oxygen consumption. In the normal heart perfused without substrate the balance of oxygen consumption is not entirely accounted for by the breakdown of glyceride.
摘要
- 本文描述了大鼠心脏和腓肠肌中脂质提取方法以及甘油单酯、甘油二酯、甘油三酯中甘油和磷脂磷的测定方法。2. 在正常动物的心脏中,测得的浓度为:甘油单酯0.6;甘油二酯0.1;甘油三酯,每克干肌肉中甘油酯甘油12.6微摩尔;磷脂,每克干肌肉中磷脂磷171微克原子。腓肠肌中甘油酯的浓度与心肌相似,但磷脂浓度较低(每克干肌肉中磷脂磷64微克原子)。3. 四氧嘧啶糖尿病使肌肉中甘油三酯浓度增加了两倍。研究表明,心脏中这种增加依赖于生长激素和皮质醇的可用性,而不依赖于膳食脂质的可用性。饥饿48小时和72小时后,心脏中总甘油酯增加,但96小时后未增加。饥饿和糖尿病中甘油酯浓度的变化与磷脂浓度的显著变化无关。有人认为,糖尿病中游离脂肪酸的动员导致肌肉中额外甘油酯的合成。4. 已根据灌注过程中甘油酯的净损失,以及脂解和酯化的相对速率,计算出心脏中甘油酯脂肪酸对灌注期间呼吸的可能贡献,并与氧消耗平衡所需的脂肪酸氧化(葡萄糖或糖原葡萄糖氧化中未利用的氧)进行了比较。在灌注葡萄糖和胰岛素的正常或糖尿病心脏中,甘油酯的分解可解释氧消耗的平衡。在无底物灌注的正常心脏中,氧消耗的平衡不能完全由甘油酯的分解来解释。
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本文引用的文献
1
Feeding and breeding of laboratory animals; a compound diet for monkeys.实验动物的饲养与繁殖;一种猴用复合饲料。
J Hyg (Lond). 1949 Jun;47(2):209-12. doi: 10.1017/s0022172400014480.
2
Effect of epinephrine on rat diaphragm.肾上腺素对大鼠膈肌的作用。
J Biol Chem. 1950 Dec;187(2):769-76.
3
OXIDATION OF CARBON-14-LABELED ENDOGENOUS LIPIDS BY ISOLATED PERFUSED RAT HEART.离体灌注大鼠心脏对碳-14标记的内源性脂质的氧化作用
Science. 1964 Jan 24;143(3604):371-3. doi: 10.1126/science.143.3604.371.
4
A rapid enzymatic assay for glycerol.一种用于甘油的快速酶促测定法。
Nature. 1962 Dec 8;196:987-8. doi: 10.1038/196987a0.
5
The effect of insulin, alloxan diabetes, and anoxia on the ultrastructure of the rat heart.胰岛素、四氧嘧啶糖尿病及缺氧对大鼠心脏超微结构的影响。
J Cell Biol. 1962 Dec;15(3):509-23. doi: 10.1083/jcb.15.3.509.
6
[A simple technic for extremely rapid freezing of large pieces of tissue].[一种用于极快速冷冻大块组织的简单技术]
Pflugers Arch Gesamte Physiol Menschen Tiere. 1960;270:399-412.
7
Acetoacetate as fuel of respiration in the perfused rat heart.乙酰乙酸作为灌注大鼠心脏呼吸的燃料。
Biochem J. 1961 Sep;80(3):540-7. doi: 10.1042/bj0800540.
8
Determination of organic phosphorus compounds by phosphate analysis.通过磷酸盐分析测定有机磷化合物
Methods Biochem Anal. 1956;3:1-22. doi: 10.1002/9780470110195.ch1.
9
Acute effects of nicotinic acid on plasma, liver, heart and muscle lipids. Nicotinic acid in the rat. II.烟酸对大鼠血浆、肝脏、心脏和肌肉脂质的急性影响。大鼠体内的烟酸。II
Acta Med Scand. 1966 Nov;180(5):571-9. doi: 10.1111/j.0954-6820.1966.tb02872.x.
10
Effect of diabetes and starvation on myocardial triglyceride and free fatty acid utilization.糖尿病和饥饿对心肌甘油三酯及游离脂肪酸利用的影响。
Am J Physiol. 1966 Feb;210(2):379-84. doi: 10.1152/ajplegacy.1966.210.2.379.
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