Mechanism of polymeric prostaglandin PGBx for in vitro stabilization of rat liver mitochondrial oxidative phosphorylation.

Physiological chemistry and physics Pub Date : 1982-01-01
H W Shmukler, E Soffer, M G Zawryt, E Polis, W Feely, S F Kwong, F W Cope
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Abstract

The mechanism of the in vitro PGBx effect on mitochondria was studied by determining the specific requirements of the assay system composition. These studies showed that (a) rat liver mitochondria must first be exposed to hypotonic media containing PGBx under aerobic conditions, (b) oxygen, Pi, Mg++, phosphate acceptor (nucleotides), and some oxidizable substrates are essential components to yield optimal phosphorylation values. KCl and bovine serum albumin are non-essential components. With regard to nucleotide acceptor specificity, the AMP, ADP, and glucose-ADP-hexokinase systems were satisfactory. With regard to substrate specificity, only beta-hydroxybutyrate and externally reduced NAD+ were unsatisfactory. The requirement for oxygen was twofold: (a) as an absolute requirement for oxidative phosphorylation, and (b) as a requirement for the hypotonic degradation of mitochondria. These results suggest that PGBx reacts with mitochondria to "protect" against degradation during aerobic hypotonic exposure.

聚合前列腺素PGBx体外稳定大鼠肝脏线粒体氧化磷酸化的机制。
通过确定测定系统组成的具体要求,研究PGBx对线粒体的体外作用机制。这些研究表明(a)在有氧条件下,大鼠肝脏线粒体必须首先暴露于含有PGBx的低渗介质中,(b)氧气、Pi、Mg++、磷酸盐受体(核苷酸)和一些可氧化底物是产生最佳磷酸化值的必要成分。氯化钾和牛血清白蛋白是非必需成分。在核苷酸受体特异性方面,AMP、ADP和葡萄糖-ADP己糖激酶系统令人满意。在底物特异性方面,只有β -羟基丁酸盐和外部还原的NAD+不令人满意。对氧气的需求是双重的:(a)作为氧化磷酸化的绝对需要,(b)作为线粒体低渗降解的需要。这些结果表明,PGBx与线粒体发生反应,以“保护”在有氧低渗暴露时免受降解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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