在异丙肾上腺素诱导的H9C2细胞心肌肥厚中，Prohibitin1维持线粒体质量

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2022-12-01 DOI:10.1111/boc.202200094

Moumita Chakrabarti, Ganesh Kumar Raut, Nishant Jain, Manika Pal Bhadra

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引用次数: 0

摘要

背景资料不同类型的应激最初会引起心脏肥厚(CH)状态。但是，心脏应激的持续升级会导致从适应性生理状态到适应性不良病理状态的进展。因此，阐明可以减弱CH的分子机制对于开发心脏治疗是必要的。在此之前，我们发现prohibition - in1 (PHB1)在ch诱导的氧化应激中具有保护作用。然而，线粒体蛋白PHB1如何在CH中发挥保护作用尚不清楚。因此，我们假设PHB1维持CH中的线粒体质量。为了验证这一假设，我们使用异丙肾上腺素(ISO)在过表达PHB1的H9C2细胞中诱导CH，并阐明线粒体质量控制途径。结果我们发现过表达PHB1可减弱iso诱导的CH，恢复H9C2细胞的线粒体形态。此外，PHB1阻断促肥厚IGF1R/AKT通路，恢复iso处理细胞的线粒体膜极化。我们观察到过表达PHB1促进线粒体生物发生，提高线粒体呼吸能力，并触发线粒体自噬。结论PHB1可维持iso诱导的H9C2细胞CH的线粒体质量。根据我们的研究结果，我们认为在心脏细胞中诱导PHB1的小分子可能对开发心脏治疗有益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Prohibitin1 maintains mitochondrial quality in isoproterenol-induced cardiac hypertrophy in H9C2 cells

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Prohibitin1 maintains mitochondrial quality in isoproterenol-induced cardiac hypertrophy in H9C2 cells

Background Information

Various types of stress initially induce a state of cardiac hypertrophy (CH) in the heart. But, persistent escalation of cardiac stress leads to progression from an adaptive physiological to a maladaptive pathological state. So, elucidating molecular mechanisms that can attenuate CH is imperative in developing cardiac therapies. Previously, we showed that Prohibitin1 (PHB1) has a protective role in CH-induced oxidative stress. Nevertheless, it is unclear how PHB1, a mitochondrial protein, has a protective role in CH. Therefore, we hypothesized that PHB1 maintains mitochondrial quality in CH. To test this hypothesis, we used Isoproterenol (ISO) to induce CH in H9C2 cells overexpressing PHB1 and elucidated mitochondrial quality control pathways.

Results

We found that overexpressing PHB1 attenuates ISO-induced CH and restores mitochondrial morphology in H9C2 cells. In addition, PHB1 blocks the pro-hypertrophic IGF1R/AKT pathway and restores the mitochondrial membrane polarization in ISO-treated cells. We observed that overexpressing PHB1 promotes mitochondrial biogenesis, improves mitochondrial respiratory capacity, and triggers mitophagy.