Cardiolipin prolongs the lifetimes of respiratory proteins in Drosophila flight muscle.

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105241
Mindong Ren, Yang Xu, Colin K L Phoon, Hediye Erdjument-Bromage, Thomas A Neubert, Michael Schlame
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Abstract

Respiratory complexes and cardiolipins have exceptionally long lifetimes. The fact that they co-localize in mitochondrial cristae raises the question of whether their longevities have a common cause and whether the longevity of OXPHOS proteins is dependent on cardiolipin. To address these questions, we developed a method to measure side-by-side the half-lives of proteins and lipids in wild-type Drosophila and cardiolipin-deficient mutants. We fed adult flies with stable isotope-labeled precursors (13C615N2-lysine or 13C6-glucose) and determined the relative abundance of heavy isotopomers in protein and lipid species by mass spectrometry. To minimize the confounding effects of tissue regeneration, we restricted our analysis to the thorax, the bulk of which consists of post-mitotic flight muscles. Analysis of 680 protein and 45 lipid species showed that the subunits of respiratory complexes I-V and the carriers for phosphate and ADP/ATP were among the longest-lived proteins (average half-life of 48 ± 16 days) while the molecular species of cardiolipin were the longest-lived lipids (average half-life of 27 ± 6 days). The remarkable longevity of these crista residents was not shared by all mitochondrial proteins, especially not by those residing in the matrix and the inner boundary membrane. Ablation of cardiolipin synthase, which causes replacement of cardiolipin by phosphatidylglycerol, and ablation of tafazzin, which causes partial replacement of cardiolipin by monolyso-cardiolipin, decreased the lifetimes of the respiratory complexes. Ablation of tafazzin also decreased the lifetimes of the remaining cardiolipin species. These data suggest that an important function of cardiolipin in mitochondria is to protect respiratory complexes from degradation.

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心磷脂可延长果蝇飞行肌肉中呼吸蛋白的寿命。
呼吸复合物和心磷脂的寿命特别长。它们在线粒体嵴中共同定位的事实提出了一个问题,即它们的长寿是否有共同的原因,以及OXPHOS蛋白的寿命是否取决于心磷脂。为了解决这些问题,我们开发了一种方法来并排测量野生型果蝇和心磷脂缺乏突变体中蛋白质和脂质的半衰期。我们用稳定同位素标记的前体(13C615N2赖氨酸或13C6-葡萄糖)喂养成年苍蝇,并通过质谱测定蛋白质和脂质物种中重等位体的相对丰度。为了最大限度地减少组织再生的混杂影响,我们将分析限制在胸部,其中大部分由有丝分裂后的飞行肌肉组成。对680种蛋白质和45种脂质的分析表明,呼吸复合物I-V的亚基以及磷酸盐和ADP/ATP的载体是寿命最长的蛋白质(平均半衰期为48±16天),而心磷脂的分子种类是寿命最久的脂质(平均半衰期27±6天)。并非所有线粒体蛋白都具有这些嵴蛋白的显著寿命,尤其是那些存在于基质和内界膜中的线粒体蛋白。心磷脂合成酶的消融导致磷脂酰甘油取代心磷脂,而tafazzin的消融导致单脂心磷脂部分取代心磷脂。tafazzin的消融也降低了剩余的心磷脂物种的寿命。这些数据表明,心磷脂在线粒体中的一个重要功能是保护呼吸复合物免受降解。
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