DMQ(9) 在长寿突变体 clk-1 中的作用。

The role of DMQ(9) in the long-lived mutant clk-1.

机构信息

Department of Genetics, Case Western Reserve University, Cleveland, OH, United States.

出版信息

Mech Ageing Dev. 2011 Jun-Jul;132(6-7):331-9. doi: 10.1016/j.mad.2011.06.009. Epub 2011 Jul 1.

DOI:10.1016/j.mad.2011.06.009

PMID:21745495

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3156029/

Abstract

INTRODUCTION

Ubiquinone (UQ) is a redox active lipid that transfers electrons from complex I or II to complex III in the electron transport chain (ETC). The long-lived Caenorhabditis elegans mutant clk-1 is unable to synthesize its native ubiquinone, and accumulates high amounts of its precursor, 5-demethoxyubiquinone-9 (DMQ(9)). In clk-1, complexes I-III activity is inhibited while complexes II-III activity is normal. We asked whether the complexes I-III defect in clk-1 was caused by: (1) a defect in the ETC; (2) an inhibitory effect of DMQ(9); or (3) a decreased amount of ubiquinone.

METHODS

We extracted the endogenous quinones from wildtype (N2) and clk-1 mitochondria, replenished them with exogenous ubiquinones, and measured ETC activities.

RESULTS

Replenishment of extracted mutant and wildtype mitochondria resulted in equal enzymatic activities for complexes I-III and II-III ETC assays. Blue native gels showed that supercomplex formation was indistinguishable between clk-1 and N2. The addition of a pentane extract from clk-1 mitochondria containing DMQ(9) to wildtype mitochondria specifically inhibited complexes I-III activity. UQ in clk-1 mitochondria was oxidized compared to N2.

DISCUSSION

Our results show that no measurable intrinsic ETC defect exists in clk-1 mitochondria. The data indicate that DMQ(9) specifically inhibits electron transfer from complex I to ubiquinone.

摘要

简介

泛醌（UQ）是一种氧化还原活性脂质，可将电子从电子传递链（ETC）中的复合物 I 或 II 转移到复合物 III。长寿的秀丽隐杆线虫 clk-1 突变体无法合成其天然的泛醌，并且积累了大量的前体 5-脱甲氧基泛醌-9（DMQ(9)）。在 clk-1 中，复合物 I-III 的活性受到抑制，而复合物 II-III 的活性正常。我们想知道 clk-1 中复合物 I-III 的缺陷是由以下原因引起的：（1）ETC 缺陷；（2）DMQ(9)的抑制作用；或（3）泛醌含量减少。

方法

我们从野生型（N2）和 clk-1 线粒体中提取内源性醌，并补充外源性泛醌，然后测量 ETC 活性。

结果

补充提取的突变体和野生型线粒体后，复合物 I-III 和 II-III ETC 测定的酶活性相等。蓝色 native 凝胶显示 clk-1 和 N2 之间的超复合物形成没有区别。将含有 DMQ(9)的 pentane 提取物从 clk-1 线粒体添加到野生型线粒体中，可特异性抑制复合物 I-III 的活性。与 N2 相比，clk-1 线粒体中的 UQ 被氧化。

讨论

我们的结果表明，clk-1 线粒体中不存在可测量的内在 ETC 缺陷。数据表明，DMQ(9)特异性抑制从复合物 I 到泛醌的电子转移。

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