运动和缺氧后大鼠心肌细胞质中蛋白质氨基酸的变化。

Janusz Gabrys, Janusz Konecki, Jashovam Shani, Artur Durczok, Grzegorz Bielaczyc, Andrzej Kosteczko, Halina Szewczyk, Ryszard Brus
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引用次数: 5

摘要

采用气液色谱法测定了大鼠心房和心室心肌细胞细胞质中19种蛋白质氨基酸和总游离氨基酸的含量。在大鼠暴露于运动(游泳)或缺氧(686百帕斯卡的低压)后,检测这些氨基酸。在总游离氨基酸中,对照大鼠心房和心室心肌细胞质中精氨酸、谷氨酰胺和半胱氨酸含量最高。心房或心室心肌中测定的所有其他氨基酸的对照水平为占对照大鼠游离氨基酸总量的0.1%至10.6%。身体压力(运动和缺氧)显著降低了两种心肌中胞质游离氨基酸的总量。虽然缺氧降低了两种心肌的精氨酸水平,但运动消除了心房心肌的半胱氨酸水平。生理应激后心房肌中精氨酸水平的降低和半胱氨酸的消除可能归因于其对一氧化氮的利用以及应激时心房肌中心房肽和/或内皮素的合成。两组心肌胞浆中谷氨酰胺水平均未见明显变化。在不同的模式下,运动和缺氧会影响所有其他氨基酸的水平,除了色氨酸、酪氨酸和组氨酸,它们是内源性神经递质的前体。讨论了蛋白质氨基酸对某些身体功能的影响。
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Proteinous amino acids in muscle cytosol of rats' heart after exercise and hypoxia.

Levels of 19 proteinous amino acids and of total free amino acids were assayed by gas-liquid chromatography in cytosols of rat atrial and ventricular heart muscle cardiomyocytes. These amino acids were assayed after the rats had been exposed to either exercise (swimming) or hypoxia (hypobaric pressure of 686 hectoPascals). Out of the total free amino acids levels of arginine, glutamine and cysteine in atrial and ventricular cardiac muscle cytosols of control rats were the highest of all amino acids assayed. The control levels of all other amino acids assayed in atrial or ventricular cardiac muscles ranged from 0.1% to 10.6% of the total free amino acids in the control rats. Physical stress (exercise and hypoxia) significantly reduced the total amount of cytosolic free amino acids in both heart muscles. While hypoxia decreased the levels of arginine in both heart muscles, exercise abolished the level of cysteine in the atrial heart muscle. Decrease in arginine levels, and elimination of cysteine from the heart's atrial muscle after physical stress, may be attributed to its utilization of nitric oxide and to its synthesis of atriopeptin and/or endothelin during stress. No change was recorded in either experimental group in the level of glutamine in heart muscle cytosol. Exercise and hypoxia affect, in different modes, the levels of all other amino acids assayed, except for tryptophan, tyrosine, and histidine, which are precursors of endogenous neurotransmitters. The impact of proteinous amino acids on some bodily functions is discussed.

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