Alpha-synuclein expression in neurons modulates Japanese encephalitis virus infection.

IF 4 2区 医学 Q2 VIROLOGY Journal of Virology Pub Date : 2024-11-07 DOI:10.1128/jvi.00418-24
Anjali Gupta, Vijay Singh Bohara, Aditya Singh Chauhan, Anshuman Mohapatra, Harpreet Kaur, Ajanta Sharma, Nitin Chaudhary, Sachin Kumar
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Abstract

Japanese encephalitis virus (JEV) stands as a prominent vector-borne zoonotic pathogen, displaying neurotropism and eliciting Parkinson's disease (PD)-like symptoms among most symptomatic survivors. A characteristic feature of PD is the aggregation of mutated α-synuclein (α-syn) that damages the dopaminergic neurons. Considering this link between JEV-induced PD-like symptoms and α-syn pathogenesis, we explored the role of α-syn in JEV infectivity in neuronal cells. Our investigation revealed a significant increase in endogenous α-syn expression in JEV-infected cells. In addition, exogenous α-syn (Exoα-syn) treatment substantially reduced JEV replication, suggesting its anti-JEV effect. Furthermore, Exoα-syn treatment led to the upregulation of superoxide dismutase 1 (SOD1) and reduction in reactive oxygen species (ROS). The results were validated by endogenous α-syn-silencing, which decreased SOD1 and raised ROS levels in neuronal cells. Similarly, the SOD1 inhibition via LCS-1 also intensified ROS and JEV infection. Silencing of SOD1 in α-syn overexpressing neuro2a cells exhibited increased JEV replication. Overall, our results suggest that α-syn exerts an anti-JEV effect by regulating protein involved in oxidative stress inside neuronal cells. This study contributes valuable insights into the interplay between α-syn expression and JEV infectivity, shedding light on avenues further to investigate the potential role of α-syn in JEV pathogenesis.

Importance: Japanese encephalitis virus (JEV) poses a significant threat, particularly to children. Despite extensive research efforts, the development of effective treatments against JEV has been impeded. One of the major setbacks is a lack of comprehensive understanding of neurotropism. The study focuses on alpha-synuclein (α-syn), a neuronal protein, and aims to determine its role in JEV pathogenesis. The present study reveals that the host cell upregulates α-syn in response to JEV infection. α-syn restrains JEV propagation by modulating superoxide dismutase 1 (SOD1) expression which further blocks JEV-induced ROS generation. Endogenous α-syn silencing led to a decrease in SOD1 expression and increased viral titer. α-syn plays a crucial role in counteracting oxidative stress through SOD1, which is essential for limiting JEV replication. This study provides broader implications for antiviral strategies and their possible role in neurodegenerative diseases; however, there is still much to explore, particularly regarding α-syn aggregation kinetics in JEV infection.

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神经元中α-突触核蛋白的表达可调节日本脑炎病毒感染。
日本脑炎病毒(JEV)是一种主要的病媒传染的人畜共患病原体,具有神经趋向性,大多数有症状的幸存者会出现类似帕金森病(PD)的症状。帕金森病的一个特征是突变的α-突触核蛋白(α-syn)聚集,损害多巴胺能神经元。考虑到JEV诱发的帕金森病样症状与α-syn发病机制之间的联系,我们探讨了α-syn在JEV感染神经元细胞中的作用。我们的研究发现,JEV 感染细胞中的内源性 α-syn 表达明显增加。此外,外源性α-syn(Exoα-syn)处理可大幅减少 JEV 复制,表明其具有抗 JEV 作用。此外,Exoα-syn 还能上调超氧化物歧化酶 1(SOD1),减少活性氧(ROS)。内源性α-syn-silencing也验证了这一结果,因为内源性α-syn-silencing会降低神经元细胞中的SOD1并提高ROS水平。同样,通过 LCS-1 抑制 SOD1 也会加剧 ROS 和 JEV 感染。在过表达α-syn的神经2a细胞中沉默SOD1会增加JEV的复制。总之,我们的研究结果表明,α-syn 通过调节神经元细胞内参与氧化应激的蛋白来发挥抗 JEV 的作用。这项研究有助于深入了解α-syn表达与JEV感染性之间的相互作用,为进一步研究α-syn在JEV发病机制中的潜在作用提供了思路:日本脑炎病毒(JEV)是一种严重威胁,尤其是对儿童的威胁。尽管开展了大量的研究工作,但针对 JEV 的有效治疗方法的开发一直受阻。其中一个主要挫折是缺乏对神经趋向性的全面了解。本研究以神经元蛋白α-突触核蛋白(α-syn)为重点,旨在确定其在 JEV 发病机制中的作用。本研究发现,宿主细胞会上调α-syn,以应对JEV感染。α-syn通过调节超氧化物歧化酶1(SOD1)的表达抑制JEV的传播,从而进一步阻止JEV诱导的ROS生成。内源性α-syn沉默会导致SOD1表达的减少和病毒滴度的增加。α-syn在通过SOD1抵消氧化应激方面起着至关重要的作用,而氧化应激对限制JEV的复制至关重要。这项研究为抗病毒策略及其在神经退行性疾病中可能发挥的作用提供了更广泛的意义;然而,仍有许多问题需要探索,尤其是在 JEV 感染中 α-syn 的聚集动力学方面。
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来源期刊
Journal of Virology
Journal of Virology 医学-病毒学
CiteScore
10.10
自引率
7.40%
发文量
906
审稿时长
1 months
期刊介绍: Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.
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