氧化应激和活性氧调节剂1 (ROMO1)与不孕症的关系:综述。

Chonnam Medical Journal Pub Date : 2022-09-01 Epub Date: 2022-09-23 DOI:10.4068/cmj.2022.58.3.91
Mohammad Amin Amini, Masoud Karimi, Seyed Saman Talebi, Hossein Piri, Jamshid Karimi
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引用次数: 1

摘要

不孕症是困扰世界各地许多夫妇的疾病之一,尽管新的分子方法可以用于治疗这种疾病的不同阶段。导致男性和女性不孕的因素之一是细胞内氧化应激的增加,这可能导致受精卵形成的破坏。ROMO1是活性氧产生过程中最重要的蛋白之一。该蛋白可通过细胞途径,如TNF-α和NF-κB途径,增强细胞和机体的氧化应激,最终导致许多疾病,尤其是不孕症。我们通过使用关键词与多个国际数据库合作;ROMO1,不孕症和活性氧,并获得了大量关于ROMO1,不孕症和氧化应激的信息。虽然没有得到证实,但我们假设ROMO1可能通过激活细胞内NF-κB通路而升高氧化应激,并且TNF-α可以激活ROMO1,最终导致细胞凋亡和死亡,从而对机体特别是生殖系统产生许多干扰作用。总之,揭示romo1依赖性TNF-α和NF-κB通路在不孕症发病中的确切细胞和分子机制可能会为不孕症的治疗和管理提供有趣的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Association of Oxidative Stress and Reactive Oxygen Species Modulator 1 (ROMO1) with Infertility: A Mini Review.

The Association of Oxidative Stress and Reactive Oxygen Species Modulator 1 (ROMO1) with Infertility: A Mini Review.

The Association of Oxidative Stress and Reactive Oxygen Species Modulator 1 (ROMO1) with Infertility: A Mini Review.

Infertility is one of the disorders that worries many couples around the world, although novel and molecular methods can be used to cure this disease in different stages. One of the factors that causes infertility in men and women is the increased oxidative stress within the cells, which can lead to damage in zygote formation. ROMO1 is one of the most important proteins in the production of reactive oxygen species. This protein can enhance oxidative stress in the cells and body through cellular pathways, such as TNF-α and NF-κB routes, which will eventually lead to many diseases, especially infertility. We engage several international databases by using keywords; ROMO1, Infertility, and Reactive Oxygen Species, and gained a great quantity of information about ROMO1, Infertility, and Oxidative Stress. Although not proven, it is hypothesized that ROMO1 might elevate oxidative stress by activating NF-κB pathway in the cells, furthermore, TNF-α can arouse ROMO1 that can end up with apoptosis and cell death, which consequently can have a lot of disturbing effects on the body, especially the reproductive system. To sum up, revealing the exact cellular and molecular mechanisms of ROMO1-dependent TNF-α and NF-κB pathways in the pathogenesis of infertility might find interesting therapeutic and management strategies for this disorder.

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