线粒体融合启动子对睾丸细胞完整性和功能影响的体外和体内研究。

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2024-03-06 eCollection Date: 2024-01-01 DOI:10.3389/ftox.2024.1357857
Samuel Garza, Chantal Sottas, Hovhannes J Gukasyan, Vassilios Papadopoulos
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引用次数: 0

摘要

背景:睾丸间质的莱迪格细胞负责产生睾酮,随着正常衰老,莱迪格细胞的功能会退化。线粒体类固醇生成交互组蛋白表达的减少以及老化的莱伊杜氏细胞线粒体功能的减弱表明,线粒体动力学在维持充足的睾酮水平方面发挥着作用。视神经萎缩 1(OPA1)蛋白在许多细胞类型中调节线粒体动力学和嵴的形成。先前的研究表明,在功能障碍的莱迪格细胞中增加 OPA1 的表达可恢复线粒体功能,并使雄激素分泌恢复到健康莱迪格细胞的水平。这些研究结果表明,线粒体动力学可能是改善衰老男性睾酮水平下降的一个有希望的靶点。研究方法我们用 12 个月大的大鼠来探讨线粒体动力学与 Leydig 细胞功能之间的关系。用细胞渗透性线粒体融合促进剂 4-氯-2-(1-(2-(2,4,6-三氯苯基)肼)乙基)苯酚(线粒体融合促进剂 M1)在体外处理老龄大鼠的离体 Leydig 细胞,该促进剂可增强线粒体管状网络的形成。同时,对大鼠进行为期 6 周的 2 毫克/千克/天的 M1 治疗,然后再分离睾丸细胞。结果与对照组相比,经 M1 处理的体内细胞在透射电子显微镜下显示线粒体管状网络形成增强,Leydig 细胞线粒体完整性增强,线粒体功能改善,睾酮生物合成增加。然而,用 M1 对老龄大鼠进行体内处理,不仅不能使睾酮水平恢复到年轻大鼠的水平,还会导致睾酮水平进一步降低,细胞凋亡增加,这表明 M1 在睾丸中具有毒性。不过,体内 M1 的毒性似乎具有组织特异性。结论随着年龄的增长,促进线粒体融合可能是增强细胞健康和福祉的一种方法,但还需要进行更多的研究。我们的研究结果表明,如果对融合促进剂进行仔细调控,融合促进剂有可能提高老化的莱迪格细胞的生产力。
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In vitro and in vivo studies on the effect of a mitochondrial fusion promoter on Leydig cell integrity and function.

Background: The interstitial testicular Leydig cells are responsible for the production of testosterone, which functionally deteriorate with normal aging. Decreased expression of mitochondrial steroidogenic interactome proteins and diminished mitochondrial function in aging Leydig cells suggest that mitochondrial dynamics play a role in maintaining adequate levels of testosterone. Optic atrophy 1 (OPA1) protein regulates mitochondrial dynamics and cristae formation in many cell types. Previous studies showed that increasing OPA1 expression in dysfunctional Leydig cells restored mitochondrial function and recovered androgen production to levels found in healthy Leydig cells. These findings suggested that mitochondrial dynamics may be a promising target to ameliorate diminished testosterone levels in aging males. Methods: We used twelve-month-old rats to explore the relationship between mitochondrial dynamics and Leydig cell function. Isolated Leydig cells from aged rats were treated ex vivo with the cell-permeable mitochondrial fusion promoter 4-Chloro-2-(1-(2-(2,4,6-trichlorophenyl)hydrazono)ethyl) phenol (mitochondrial fusion promoter M1), which enhances mitochondrial tubular network formation. In parallel, rats were treated with 2 mg/kg/day M1 for 6 weeks before Leydig cells were isolated. Results: Ex vivo M1-treated cells showed enhanced mitochondrial tubular network formation by transmission electron microscopy, enhanced Leydig cell mitochondrial integrity, improved mitochondrial function, and higher testosterone biosynthesis compared to controls. However, in vivo treatment of aged rats with M1 not only failed to re-establish testosterone levels to that of young rats, it also led to further reduction of testosterone levels and increased apoptosis, suggesting M1 toxicity in the testis. The in vivo M1 toxicity seemed to be tissue-specific, however. Conclusion: Promoting mitochondrial fusion may be one approach to enhancing cell health and wellbeing with aging, but more investigations are warranted. Our findings suggest that fusion promoters could potentially enhance the productivity of aged Leydig cells when carefully regulated.

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