Belozersky Institute of Physico-Chemical Biology, 119992 Moscow, Russia.
Belozersky Institute of Physico-Chemical Biology, 119992 Moscow, Russia; The "Russian Clinical Research Center for Gerontology" of the Ministry of Healthcare of the Russian Federation, Pirogov Russian National Research Medical University, Moscow, Russia.
Life Sci. 2024 Oct 1;354:122941. doi: 10.1016/j.lfs.2024.122941. Epub 2024 Aug 2.
Study of the role of mitochondria-generated reactive oxygen species (mtROS) and mitochondrial polarization in mitochondrial fragmentation at the initial stages of myogenesis.
Mitochondrial morphology, Drp1 protein phosphorylation, mitochondrial electron transport chain components content, mtROS and mitochondrial lipid peroxidation levels, and mitochondrial polarization were evaluated on days 1 and 2 of human MB135 myoblasts differentiation. A mitochondria-targeted antioxidant SkQ1 was used to elucidate the effect of mtROS on mitochondria.
In immortalized human MB135 myoblasts, mitochondrial fragmentation began on day 1 of differentiation before the myoblast fusion. This fragmentation was preceded by dephosphorylation of p-Drp1 (Ser-637). On day 2, an increase in the content of some mitochondrial proteins was observed, indicating mitochondrial biogenesis stimulation. Furthermore, we found that myogenic differentiation, even on day 1, was accompanied both by an increased production of mtROS, and lipid peroxidation of the inner mitochondrial membrane. SkQ1 blocked these effects and partially reduced the level of mitochondrial fragmentation, but did not affect the dephosphorylation of p-Drp1 (Ser-637). Importantly, mitochondrial fragmentation at early stages of MB135 differentiation was not accompanied by depolarization, as an important stimulus for mitochondrial fragmentation.
Mitochondrial fragmentation during early myogenic differentiation depends on mtROS production rather than mitochondrial depolarization. SkQ1 only partially inhibited mitochondrial fragmentation, without significant effects on mitophagy or early myogenic differentiation.
研究线粒体产生的活性氧(mtROS)和线粒体极化在成肌细胞分化初期线粒体碎片化中的作用。
在人 MB135 成肌细胞分化的第 1 天和第 2 天,评估线粒体形态、Drp1 蛋白磷酸化、线粒体电子传递链成分含量、mtROS 和线粒体脂质过氧化水平以及线粒体极化。使用线粒体靶向抗氧化剂 SkQ1 来阐明 mtROS 对线粒体的影响。
在永生化的人 MB135 成肌细胞中,线粒体碎片化在成肌细胞融合之前的分化第 1 天就开始了。这种碎片化发生在 p-Drp1(Ser-637)去磷酸化之前。第 2 天,观察到一些线粒体蛋白含量增加,表明刺激了线粒体生物发生。此外,我们发现,即使在第 1 天,成肌分化伴随着 mtROS 的产生增加和内线粒体膜的脂质过氧化。SkQ1 阻断了这些效应,并部分降低了线粒体碎片化的水平,但不影响 p-Drp1(Ser-637)的去磷酸化。重要的是,MB135 分化早期的线粒体碎片化不伴有去极化,而去极化是线粒体碎片化的重要刺激因素。
成肌细胞分化早期的线粒体碎片化依赖于 mtROS 的产生,而不是线粒体去极化。SkQ1 仅部分抑制线粒体碎片化,对噬线粒体或早期成肌分化没有显著影响。
