线粒体动力学的守护者:中间丝蛋白的新作用

Irene MGM Hemel, Carlijn Steen, Simon LIJ Denil, Gokhan Ertaylan, Martina Kutmon, Michiel Adriaens, Mike Gerards
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引用次数: 0

摘要

线粒体是充满活力的细胞器,也是细胞能量的主要来源。它们的动态特性对于满足细胞需求至关重要。然而,线粒体动力学所涉及的过程和蛋白质并不完全清楚。利用计算蛋白-蛋白相互作用的方法,我们发现了 ITPRIPL2,它在敲除后会导致线粒体伸长。根据蛋白质模拟,ITPRIPL2 与中间丝蛋白波形蛋白共定位,并与波形蛋白相互作用。ITPRIPL2 的敲除改变了波形蛋白的加工,破坏了中间丝,转录组学分析揭示了波形蛋白相关通路的变化。我们的数据表明,ITPRIPL2 对与波形蛋白相关的中间丝结构至关重要。有趣的是,与敲除 ITPRIPL2 一样,敲除波形蛋白也会导致线粒体伸长。我们的数据强调了 ITPRIPL2 是一种波形蛋白相关蛋白,并揭示了中间丝在线粒体动力学中的作用,从而加深了我们对线粒体动力学调节因子的理解。此外,我们的研究还证明,蛋白-蛋白相互作用分析是鉴定新型线粒体动力学蛋白的一种有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The guardians of mitochondrial dynamics: a novel role for intermediate filament proteins
Mitochondria are dynamic organelles and the main source of cellular energy. Their dynamic nature is crucial to meet cellular requirements. However, the processes and proteins involved in mitochondrial dynamics are not fully understood. Using a computational protein-protein interaction approach, we identified ITPRIPL2, which caused mitochondrial elongation upon knockdown. ITPRIPL2 co-localizes with the intermediate filament protein vimentin and interacts with vimentin according to protein simulations. ITPRIPL2 knockdown alters vimentin processing, disrupts intermediate filaments and transcriptomics analysis revealed changes in vimentin-related pathways. Our data illustrates that ITPRIPL2 is essential for vimentin related intermediate filament structure. Interestingly, like ITPRIPL2 knockdown, vimentin knockdown results in mitochondrial elongation. Our data highlights ITPRIPL2 as a vimentin-associated protein and reveals a role for intermediate filaments in mitochondrial dynamics, improving our understanding of mitochondrial dynamics regulators. Moreover, our study demonstrates that protein-protein interaction analysis is a powerful approach for identifying novel mitochondrial dynamics proteins.
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