The therapeutic effect and underlying biochemical mechanism of methylprednisolone and D-methionine in “rescuing” noise-induced hearing loss in guinea pigs

IF 2.5 2区医学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY Hearing Research Pub Date : 2024-11-16 DOI:10.1016/j.heares.2024.109148

Po-Hsuan Wu , Wu-Chia Lo , Chih-Ming Chang , Po-Wen Cheng , Shing-Hwa Liu

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Abstract

Objectives

Currently, there are no approved therapeutics for noise-induced hearing loss (NIHL). Both oxidative stress and cochlear inflammation play important roles in the mechanism of NIHL. In this study, we evaluate the effect of D-methionine (D-met) and methylprednisolone (MP) on noise-induced hearing loss of guinea pigs.

Design

One hundred and thirty-two male guinea pigs were evenly divided into eleven groups: control, saline, MP (15, 30, 45 mg/kg), D-met (200, 400, 600 mg/kg), and combinations of MP (15, 30, 45 mg/kg) with D-met (200, 400, 600 mg/kg) in increasing doses. Sixty minutes following a 6-hour exposure to continuous broadband white noise at a sound pressure level of 105 ± 2 dB, treatments were given every 12 h over the course of 3 days. Click-evoked auditory brainstem responses were evaluated one day before and fourteen days after noise exposure. The animals in the combination group were sacrificed 14 days after noise exposure, and cochlear lateral wall Na⁺, K⁺-ATPase and Ca²⁺-ATPase activities, and lipid peroxidation (LPO) were evaluated.

Results

The mean permanent threshold shift (PTS) showed a dose-dependent rescue effect from low to high doses in both MP and D-met treatment groups. In the combination treatment groups, MP (45 mg/kg) with D-met (600 mg/kg) demonstrated a complete rescue response without a significant difference in PTS compared to the control group. The noise-induced decreases in Na⁺, K⁺-ATPase and Ca²⁺-ATPase activities demonstrated dose-dependent recoveries from the low to high dose combination groups. Specifically, the MP (45 mg/kg) with D-met (600 mg/kg) group achieved 84.8% and 95.5% recovery of Na⁺, K⁺-ATPase and Ca²⁺-ATPase activity levels, respectively, compared to the control group. The noise-induced increase in LPO levels exhibited dose-dependent alleviation from the low to high dose combination groups, showing only a 12.3% LPO increment in the MP (45 mg/kg) with D-met (600 mg/kg) group.

Conclusions

Noise-induced hearing loss was completely rescued in the MP (45 mg/kg) with D-met (600 mg/kg) treatment group. Significant decreases in cochlear lateral wall oxidative stress were demonstrated, along with the reversal of Na⁺, K⁺-ATPase and Ca²⁺-ATPase activity levels.

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甲基强的松龙和 D-蛋氨酸 "挽救 "豚鼠噪声性听力损失的疗效及其生化机制。

目标：目前，噪声性听力损失（NIHL）的治疗方法尚未获得批准。氧化应激和耳蜗炎症在 NIHL 的发病机制中起着重要作用。在这项研究中，我们评估了 D-蛋氨酸（D-met）和甲基强的松龙（MP）对噪声诱导的豚鼠听力损失的影响：设计：132 只雄性豚鼠被平均分成 11 组：对照组、生理盐水组、MP 组（15、30、45 毫克/千克）、D-甲硫氨酸组（200、400、600 毫克/千克）以及 MP（15、30、45 毫克/千克）与 D-甲硫氨酸组（200、400、600 毫克/千克）的组合组，剂量依次增加。在声压级为 105 ± 2 dB 的连续宽带白噪声中暴露 6 小时后 60 分钟，在 3 天内每隔 12 小时进行一次治疗。在噪声暴露前一天和暴露后十四天分别对点击诱发的听性脑干反应进行评估。联合组动物在噪声暴露 14 天后处死，并评估耳蜗侧壁 Na+、K+-ATPase 和 Ca2+-ATPase 活性以及脂质过氧化（LPO）：MP和D-met治疗组的平均永久阈值移动（PTS）从低剂量到高剂量均显示出剂量依赖性的挽救效应。在联合治疗组中，MP（45 毫克/千克）和 D-met（600 毫克/千克）显示出完全的挽救反应，与对照组相比，PTS 没有显著差异。噪音诱导的 Na+、K+-ATPase 和 Ca2+-ATPase 活性的降低，从低剂量组到高剂量组均表现出剂量依赖性恢复。具体来说，与对照组相比，MP（45 毫克/千克）联合 D-met（600 毫克/千克）组的 Na+、K+-ATPase 和 Ca2+-ATPase 活性水平分别恢复了 84.8%和 95.5%。从低剂量组到高剂量组，噪声诱导的 LPO 水平升高呈剂量依赖性缓解，MP 组（45 毫克/千克）和 D-met 组（600 毫克/千克）的 LPO 增幅仅为 12.3%：结论：MP（45 毫克/千克）联合 D-met（600 毫克/千克）治疗组完全缓解了噪声引起的听力损失。耳蜗侧壁氧化应激显著降低，Na+、K+-ATPase 和 Ca2+-ATPase 活性水平也得到逆转。

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来源期刊

Hearing Research 医学-耳鼻喉科学

CiteScore

5.30

自引率

14.30%

发文量

163

审稿时长

75 days

期刊介绍： The aim of the journal is to provide a forum for papers concerned with basic peripheral and central auditory mechanisms. Emphasis is on experimental and clinical studies, but theoretical and methodological papers will also be considered. The journal publishes original research papers, review and mini- review articles, rapid communications, method/protocol and perspective articles. Papers submitted should deal with auditory anatomy, physiology, psychophysics, imaging, modeling and behavioural studies in animals and humans, as well as hearing aids and cochlear implants. Papers dealing with the vestibular system are also considered for publication. Papers on comparative aspects of hearing and on effects of drugs and environmental contaminants on hearing function will also be considered. Clinical papers will be accepted when they contribute to the understanding of normal and pathological hearing functions.