Acquired sensorineural hearing loss, oxidative stress, and microRNAs.

IF 5.9 2区 医学 Q2 CELL BIOLOGY Neural Regeneration Research Pub Date : 2025-09-01 Epub Date: 2024-09-24 DOI:10.4103/NRR.NRR-D-24-00579
Desmond A Nunez, Ru C Guo
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Abstract

Hearing loss is the third leading cause of human disability. Age-related hearing loss, one type of acquired sensorineural hearing loss, is largely responsible for this escalating global health burden. Noise-induced, ototoxic, and idiopathic sudden sensorineural are other less common types of acquired hearing loss. The etiology of these conditions is complex and multi-factorial involving an interplay of genetic and environmental factors. Oxidative stress has recently been proposed as a likely linking cause in most types of acquired sensorineural hearing loss. Short non-coding RNA sequences known as microRNAs (miRNAs) have increasingly been shown to play a role in cellular hypoxia and oxidative stress responses including promoting an apoptotic response. Sensory hair cell death is a central histopathological finding in sensorineural hearing loss. As these cells do not regenerate in humans, it underlies the irreversibility of human age-related hearing loss. Ovid EMBASE, Ovid MEDLINE, Web of Science Core Collection, and ClinicalTrials.gov databases over the period August 1, 2018 to July 31, 2023 were searched with "hearing loss," "hypoxamiRs," "hypoxia," "microRNAs," "ischemia," and "oxidative stress" text words for English language primary study publications or registered clinical trials. Registered clinical trials known to the senior author were also assessed. A total of 222 studies were thus identified. After excluding duplicates, editorials, retractions, secondary research studies, and non-English language articles, 39 primary studies and clinical trials underwent full-text screening. This resulted in 11 animal, in vitro , and/or human subject journal articles and 8 registered clinical trial database entries which form the basis of this narrative review. MiRNAs miR-34a and miR-29b levels increase with age in mice. These miRNAs were demonstrated in human neuroblastoma and murine cochlear cell lines to target Sirtuin 1/peroxisome proliferator-activated receptor gamma coactivator-1-alpha (SIRT1/PGC-1α), SIRT1/p53, and SIRT1/hypoxia-inducible factor 1-alpha signaling pathways resulting in increased apoptosis. Furthermore, hypoxia and oxidative stress had a similar adverse apoptotic effect, which was inhibited by resveratrol and a myocardial inhibitor-associated transcript, a miR-29b competing endogenous mRNA. Gentamicin reduced miR-182-5p levels and increased cochlear oxidative stress and cell death in mice - an effect that was corrected by inner ear stem cell-derived exosomes. There is ongoing work seeking to determine if these findings can be effectively translated to humans.

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获得性感音神经性听力损失、氧化应激和微RNA。
听力损失是导致人类残疾的第三大原因。老年性听力损失是后天性感音神经性听力损失的一种,是造成全球健康负担不断加重的主要原因。噪声性、耳毒性和特发性突发性感音神经性听力损失是其他不太常见的后天性听力损失类型。这些病症的病因复杂且多因素,涉及遗传和环境因素的相互作用。最近,有人提出氧化应激可能是大多数后天性感音神经性听力损失的关联病因。越来越多的研究表明,被称为微小核糖核酸(miRNA)的非编码 RNA 短序列在细胞缺氧和氧化应激反应中发挥作用,包括促进细胞凋亡反应。感觉毛细胞死亡是感音神经性听力损失的核心组织病理学发现。由于这些细胞在人体内不会再生,因此它是人类老年性听力损失不可逆转的根源。在2018年8月1日至2023年7月31日期间,在Ovid EMBASE、Ovid MEDLINE、Web of Science Core Collection和ClinicalTrials. gov数据库中以 "听力损失"、"hypoxamiRs"、"hypoxia"、"microRNAs"、"缺血 "和 "氧化应激 "为文本词检索英语主要研究出版物或注册临床试验。此外,还对资深作者已知的注册临床试验进行了评估。因此,共确定了 222 项研究。在排除重复、社论、撤稿、二次研究和非英语文章后,有 39 项主要研究和临床试验进行了全文筛选。最终,11 篇动物、体外和/或以人为研究对象的期刊论文和 8 篇注册临床试验数据库条目构成了本综述的基础。小鼠体内 miR-34a 和 miR-29b 的水平会随着年龄的增长而增加。在人类神经母细胞瘤和小鼠耳蜗细胞系中,这些 miRNAs 被证实靶向 Sirtuin 1/过氧化物酶体增殖激活受体γ辅助激活因子-1-α(SIRT1/PGC-1α)、SIRT1/p53 和 SIRT1/缺氧诱导因子 1-α 信号通路,导致细胞凋亡增加。此外,缺氧和氧化应激也有类似的不利凋亡效应,而白藜芦醇和心肌抑制因子相关转录物(miR-29b 竞争内源性 mRNA)可抑制这种效应。庆大霉素降低了小鼠体内的miR-182-5p水平,增加了耳蜗氧化应激和细胞死亡--内耳干细胞衍生的外泌体纠正了这种效应。目前正在努力确定这些发现能否有效地应用于人类。
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来源期刊
Neural Regeneration Research
Neural Regeneration Research CELL BIOLOGY-NEUROSCIENCES
CiteScore
8.00
自引率
9.80%
发文量
515
审稿时长
1.0 months
期刊介绍: Neural Regeneration Research (NRR) is the Open Access journal specializing in neural regeneration and indexed by SCI-E and PubMed. The journal is committed to publishing articles on basic pathobiology of injury, repair and protection to the nervous system, while considering preclinical and clinical trials targeted at improving traumatically injuried patients and patients with neurodegenerative diseases.
期刊最新文献
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