Modulating Mitochondrial Dynamics Mitigates Cognitive Impairment in Rats with Myocardial Infarction.

IF 4.8 2区 医学 Q1 NEUROSCIENCES Current Neuropharmacology Pub Date : 2024-01-01 DOI:10.2174/1570159X22666240131114913
Kewarin Jinawong, Chanon Piamsiri, Nattayaporn Apaijai, Chayodom Maneechote, Busarin Arunsak, Wichwara Nawara, Chanisa Thonusin, Hiranya Pintana, Nipon Chattipakorn, Siriporn C Chattipakorn
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Abstract

Background: We have previously demonstrated that oxidative stress and brain mitochondrial dysfunction are key mediators of brain pathology during myocardial infarction (MI).

Objective: To investigate the beneficial effects of mitochondrial dynamic modulators, including mitochondrial fission inhibitor (Mdivi-1) and mitochondrial fusion promotor (M1), on cognitive function and molecular signaling in the brain of MI rats in comparison with the effect of enalapril.

Methods: Male rats were assigned to either sham or MI operation. In the MI group, rats with an ejection Fraction less than 50% were included, and then they received one of the following treatments for 5 weeks: vehicle, enalapril, Mdivi-1, or M1. Cognitive function was tested, and the brains were used for molecular study.

Results: MI rats exhibited cardiac dysfunction with systemic oxidative stress. Cognitive impairment was found in MI rats, along with dendritic spine loss, blood-brain barrier (BBB) breakdown, brain mitochondrial dysfunction, and decreased mitochondrial and increased glycolysis metabolism, without the alteration of APP, BACE-1, Tau and p-Tau proteins. Treatment with Mdivi-1, M1, and enalapril equally improved cognitive function in MI rats. All treatments decreased dendritic spine loss, brain mitochondrial oxidative stress, and restored mitochondrial metabolism. Brain mitochondrial fusion was recovered only in the Mdivi-1-treated group.

Conclusion: Mitochondrial dynamics modulators improved cognitive function in MI rats through a reduction of systemic oxidative stress and brain mitochondrial dysfunction and the enhancement of mitochondrial metabolism. In addition, this mitochondrial fission inhibitor increased mitochondrial fusion in MI rats.

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调节线粒体动力学可减轻心肌梗死大鼠的认知障碍
背景:我们曾证实,氧化应激和脑线粒体功能障碍是心肌梗死(MI)期间脑病理学的关键介质。 研究目的研究线粒体动态调节剂(包括线粒体裂变抑制剂(Mdivi-1)和线粒体融合促进剂(M1))对心肌梗死大鼠大脑认知功能和分子信号转导的有益影响,并与依那普利的效果进行比较:方法:雄性大鼠被分配到假手术或MI手术组。方法:雄性大鼠被分配到假手术或心肌梗死手术中,在心肌梗死组中,射血分数低于50%的大鼠被纳入其中,然后它们接受以下治疗之一,为期5周:车辆、依那普利、Mdivi-1或M1。对大鼠的认知功能进行测试,并对大鼠大脑进行分子研究。 结果心肌梗死大鼠表现出心脏功能障碍和全身氧化应激。MI大鼠的认知功能受损,并伴有树突棘丧失、血脑屏障(BBB)破坏、脑线粒体功能障碍、线粒体代谢减少和糖酵解代谢增加,但APP、BACE-1、Tau和p-Tau蛋白未发生改变。使用 Mdivi-1、M1 和依那普利治疗同样能改善 MI 大鼠的认知功能。所有治疗方法都能减少树突棘丢失、脑线粒体氧化应激,并恢复线粒体代谢。只有 Mdivi-1 治疗组恢复了脑线粒体融合。 结论线粒体动力学调节剂通过减少全身氧化应激和脑线粒体功能障碍以及增强线粒体代谢,改善了心肌梗死大鼠的认知功能。此外,这种线粒体裂变抑制剂还能增加 MI 大鼠的线粒体融合。
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来源期刊
Current Neuropharmacology
Current Neuropharmacology 医学-神经科学
CiteScore
8.70
自引率
1.90%
发文量
369
审稿时长
>12 weeks
期刊介绍: Current Neuropharmacology aims to provide current, comprehensive/mini reviews and guest edited issues of all areas of neuropharmacology and related matters of neuroscience. The reviews cover the fields of molecular, cellular, and systems/behavioural aspects of neuropharmacology and neuroscience. The journal serves as a comprehensive, multidisciplinary expert forum for neuropharmacologists and neuroscientists.
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