Beijing Institute of Ophthalmology, Beijing Tongren Eye Center, Beijing Tongren Hospital, Capital Medical University, Beijing, 100730, China.
Clinical Pathology Diagnostic Center, Ningbo, Zhejiang, 315020, China.
Theranostics. 2024 Sep 9;14(15):5762-5777. doi: 10.7150/thno.96508. eCollection 2024.
Tunnel nanotube (TNT)-mediated mitochondrial transport is crucial for the development and maintenance of multicellular organisms. Despite numerous studies highlighting the significance of this process in both physiological and pathological contexts, knowledge of the underlying mechanisms is still limited. This research focused on the role of the ROCK inhibitor Y-27632 in modulating TNT formation and mitochondrial transport in retinal pigment epithelial (RPE) cells. Two types of ARPE19 cells (a retinal pigment epithelial cell line) with distinct mitochondrial fluorescently labeled, were co-cultured and treated with ROCK inhibitor Y-27632. The formation of nanotubes and transport of mitochondria were assessed through cytoskeletal staining and live cell imaging. Mitochondrial dysfunction was induced by light damage to establish a model, while mitochondrial function was evaluated through measurement of oxygen consumption rate. The effects of Y-27632 on cytoskeletal and mitochondrial dynamics were further elucidated through detailed analysis. Y-27632 treatment led to an increase in nanotube formation and enhanced mitochondrial transfer among ARPE19 cells, even following exposure to light-induced damage. Our analysis of cytoskeletal and mitochondrial distribution changes suggests that Y-27632 promotes nanotube-mediated mitochondrial transport by influencing cytoskeletal remodeling and mitochondrial movement. : These results suggest that Y-27632 has the ability to enhance mitochondrial transfer via tunneling nanotubes in retinal pigment epithelium, and similarly predict that ROCK inhibitor can fulfill its therapeutic potential through promoting mitochondrial transport in the retinal pigment epithelium in the future.
隧道纳米管(TNT)介导的线粒体运输对于多细胞生物的发育和维持至关重要。尽管有许多研究强调了这个过程在生理和病理环境中的重要性,但对其潜在机制的了解仍然有限。这项研究专注于 ROCK 抑制剂 Y-27632 在调节视网膜色素上皮(RPE)细胞中的 TNT 形成和线粒体运输中的作用。两种具有不同线粒体荧光标记的 ARPE19 细胞(一种视网膜色素上皮细胞系)进行共培养,并使用 ROCK 抑制剂 Y-27632 进行处理。通过细胞骨架染色和活细胞成像评估纳米管的形成和线粒体的运输。通过光损伤诱导建立线粒体功能障碍模型,通过测量耗氧量评估线粒体功能。通过详细分析进一步阐明了 Y-27632 对细胞骨架和线粒体动力学的影响。Y-27632 处理导致纳米管形成增加,并增强了 ARPE19 细胞之间的线粒体转移,即使在暴露于光诱导损伤后也是如此。我们对细胞骨架和线粒体分布变化的分析表明,Y-27632 通过影响细胞骨架重塑和线粒体运动来促进纳米管介导的线粒体运输。这些结果表明,Y-27632 能够通过隧道纳米管增强视网膜色素上皮中的线粒体转移,并且同样可以预测,ROCK 抑制剂在未来可能通过促进视网膜色素上皮中的线粒体运输来实现其治疗潜力。
