谷胱甘肽诱导的线粒体肿胀

Mitochondrial swelling induced by glutathione.

作者信息

LEHNINGER A L, SCHNEIDER M

出版信息

J Biophys Biochem Cytol. 1959 Jan 25;5(1):109-16. doi: 10.1083/jcb.5.1.109.

DOI:10.1083/jcb.5.1.109

PMID:13630941

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2224615/

Abstract

Reduced glutathione, in concentrations approximating those occurring in intact rat liver, causes swelling of rat liver mitochondria in vitro which is different in kinetics and extent from that yielded by L-thyroxine. The effect is also given by cysteine, which is more active, and reduced coenzyme A, but not by L-ascorbate, cystine, or oxidized glutathione. The optimum pH is 6.5, whereas thyroxine-induced swelling is optimal at pH 7.5. The GSH-induced swelling is not inhibited by DNP or dicumarol, nor by high concentrations of sucrose, serum albumin, or polyvinylpyrrolidone, in contrast to thyroxine-induced swelling. ATP inhibits the GSH swelling, but ADP and AMP are ineffective. Mn(-+) is a very potent inhibitor, but Mg(++) is ineffective. Ethylenediaminetetraacetate is also an effective inhibitor of GSH-induced swelling. The respiratory inhibitors amytal and antimycin A do not inhibit the swelling action of GSH, but cyanide does; these findings are consistent with the view that the oxidation-reduction state of the respiratory chain between cytochrome c and oxygen is a determinant of GSH-induced swelling. Reversal of GSH-induced swelling by osmotic means or by ATP in KCl media could not be observed. Large losses of nucleotides and protein occur during the swelling by GSH, suggesting that the action is irreversible. The characteristically drastic swelling action of GSH could be prevented if L-thyroxine was also present in the medium.

摘要

还原型谷胱甘肽在浓度接近完整大鼠肝脏中的浓度时，会在体外导致大鼠肝脏线粒体肿胀，其动力学和程度与L-甲状腺素引起的不同。半胱氨酸也有这种作用，且活性更强，还原型辅酶A也有此作用，但L-抗坏血酸、胱氨酸或氧化型谷胱甘肽则没有。最佳pH值为6.5，而甲状腺素诱导的肿胀在pH 7.5时最为明显。与甲状腺素诱导的肿胀不同，谷胱甘肽诱导的肿胀不受2,4-二硝基苯酚或双香豆素抑制，也不受高浓度蔗糖、血清白蛋白或聚乙烯吡咯烷酮抑制。ATP抑制谷胱甘肽引起的肿胀，但ADP和AMP无效。锰离子是一种非常有效的抑制剂，但镁离子无效。乙二胺四乙酸也是谷胱甘肽诱导肿胀的有效抑制剂。呼吸抑制剂戊巴比妥和抗霉素A不抑制谷胱甘肽的肿胀作用，但氰化物能抑制；这些发现与细胞色素c和氧之间呼吸链的氧化还原状态是谷胱甘肽诱导肿胀的决定因素这一观点一致。在氯化钾介质中，无法观察到通过渗透方法或ATP使谷胱甘肽诱导的肿胀逆转。在谷胱甘肽引起的肿胀过程中，核苷酸和蛋白质大量损失，表明这种作用是不可逆的。如果培养基中也存在L-甲状腺素，谷胱甘肽特有的剧烈肿胀作用可以被阻止。

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