氧化磷酸化。三有机锡和三有机铅化合物对线粒体功能的卤化物依赖性和非卤化物依赖性影响。
Oxidative phosphorylation. Halide-dependent and halide-independent effects of triorganotin and trioganolead compounds on mitochondrial functions.
作者信息
Aldridge W N, Street B W, Skilleter D N
出版信息
Biochem J. 1977 Dec 15;168(3):353-64. doi: 10.1042/bj1680353.
Abstract
- Each of five triorganotin and five triorganolead compounds was shown to perturb mithochondrial functions in three different ways. One is dependent and two are independent of Cl- in the medium. 2. Structure-activity relationships for the three interactions are described, and compounds suitable as tools for the separate study of each process are defined. 3. In a Cl- -containing medium trimethyltin, triethyltin, trimethyl-lead, triethyl-lead and tri-n-propyl-lead all produce the same maximum rate of ATP hydrolysis and O2 uptake; this rate is much less than that produced by uncoupling agents such as 2,4-dinitrophenol. 4. Increase in ATP hydrolysis and O2 uptake are measures on energy ultilization when triogranotin and triorganolead compounds bring about an exchange of external C1- for intramitochondrial OH- ions. Possible rate-limiting steps in this process are discussed. 5. In a C1- -containing medium ATP synthesis linked to the oxidation of beta-hydroxybutyrate or reduced cytochrone c is less inhibited by triethyltin or triethyl-lead than is ATP synthesis linked to the oxidation of succinate, pyruvate or L-glutamate. 6. The inhibition of ATP synthesis linked to the oxidation of both beta-hydroxybutyrate and reduced cytochrome c consists of two processes: one is a limited uncoupling and is C1- -dependent and the other is a C1- -independent inhibition of the energy-conservation system. 7. The different sensitivities to inhibition by triethyltin of mitochondrial functions involving the oxidation of beta-hydroxybutyrate and succinate are compared and discussed.
摘要
- 五种三有机锡化合物和五种三有机铅化合物中的每一种都以三种不同方式干扰线粒体功能。一种方式依赖于培养基中的Cl-,另外两种则与之无关。2. 描述了这三种相互作用的构效关系,并定义了适合分别研究每个过程的化合物作为工具。3. 在含Cl-的培养基中,三甲基锡、三乙基锡、三甲基铅、三乙基铅和三正丙基铅都产生相同的最大ATP水解速率和O2摄取速率;该速率远低于2,4-二硝基苯酚等解偶联剂所产生的速率。4. 当三有机锡和三有机铅化合物导致外部Cl-与线粒体内OH-离子交换时,ATP水解和O2摄取的增加是能量利用的度量。讨论了该过程中可能的限速步骤。5. 在含Cl-的培养基中,与β-羟基丁酸或还原型细胞色素c氧化偶联的ATP合成受三乙基锡或三乙基铅的抑制程度低于与琥珀酸、丙酮酸或L-谷氨酸氧化偶联的ATP合成。6. 与β-羟基丁酸和还原型细胞色素c氧化偶联的ATP合成抑制包括两个过程:一个是有限的解偶联,且依赖于Cl-,另一个是对能量守恒系统的不依赖Cl-的抑制。7. 比较并讨论了三乙基锡对涉及β-羟基丁酸和琥珀酸氧化的线粒体功能抑制的不同敏感性。
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