Thioredoxin C of Streptococcus suis serotype 2 contributes to virulence by inducing antioxidative stress and inhibiting autophagy via the MSR1/PI3K-Akt-mTOR pathway in macrophages

IF 2.4 2区 农林科学 Q3 MICROBIOLOGY
Chunxiao Ji , Yanying Pan , Bocheng Liu , Jianying Liu , Chijun Zhao , Zhuyuan Nie , Simeng Liao , Guangwei Kuang , Xin Wu , Quan Liu , Jie Ning , Yulong Tang , Lihua Fang
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引用次数: 0

Abstract

The thioredoxin (Trx) system plays a vital role in protecting against oxidative stress and ensures correct disulfide bonding to maintain protein function. Our previous research demonstrated that TrxA of Streptococcus suis Serotype 2 (SS2), a clinical strain from the lung of a diseased pig, contributes to virulence but is not involved in antioxidative stress. In this study, we identified another gene in the Trx family, TrxC, which encodes a protein of 104 amino acids with a CGDC active motif and 22.4 % amino acid sequence homology with TrxA. Unlike the TrxA, TrxC mutant strains were more susceptible to oxidative stresses induced by hydrogen peroxide and paraquat. In vitro experiments, the survival rate of the TrxC deletion mutant in RAW264.7 macrophages was only one-eighth of that of TrxA mutant strains. Transcriptome analysis revealed that autophagy-related genes were significantly upregulated in the TrxC mutant compared to those in the wild-type or TrxA mutant strains. Co-localization of LC3 puncta with TrxC was confirmed using laser confocal microscopy, and autophagy-related indicators were quantified using western blotting. Autophagy deficiency induced by ATG5 knockout significantly increased SS2 survival rate, especially in TrxC mutant strains. For the upstream signal regulation pathways, we found ΔTrxC strains regulate autophagy by activation of PI3K/Akt/mTOR signaling in RAW264.7 macrophages. In the Akt1-overexpressing cell line, ΔTrxC infection significantly decreased the autophagic response and promoted ΔTrxC mutant strain survival, while inhibition of Akt with MK2206 resulted in reduced ΔTrxC mutant strain survival and enhance the autophagic response. Furthermore, loss of TrxC increased the activity of MSR1, thereby inducing cellular autophagy and phagocytosis. Our data demonstrate that TrxC of SS2 contributes to virulence by inducing antioxidative stress and inhibits autophagy via the PI3K-Akt-mTOR pathway in macrophages, with MSR1 acting as a key factor in controlling infection.
猪链球菌血清型 2 的硫氧还蛋白 C 通过 MSR1/PI3K-Akt-mTOR 通路在巨噬细胞中诱导抗氧化压力和抑制自噬,从而增强毒力
硫代氧化酶(Trx)系统在抵御氧化应激和确保正确的二硫键以维持蛋白质功能方面发挥着重要作用。我们之前的研究表明,猪链球菌血清型 2(SS2)(一种来自病猪肺部的临床菌株)的 TrxA 有助于提高毒力,但并不参与抗氧化应激。在这项研究中,我们发现了 Trx 家族的另一个基因 TrxC,它编码一种 104 个氨基酸的蛋白质,具有 CGDC 活性基序,与 TrxA 的氨基酸序列同源性为 22.4%。与 TrxA 不同,TrxC 突变菌株更容易受到过氧化氢和百草枯诱导的氧化胁迫。在体外实验中,TrxC缺失突变株在 RAW264.7 巨噬细胞中的存活率仅为 TrxA 突变株的八分之一。转录组分析显示,与野生型或TrxA突变株相比,TrxC突变株的自噬相关基因明显上调。激光共聚焦显微镜证实了LC3点与TrxC的共定位,并利用Western印迹对自噬相关指标进行了定量。ATG5敲除诱导的自噬缺陷显著提高了SS2的存活率,尤其是在TrxC突变株中。在上游信号调控途径方面,我们发现ΔTrxC菌株通过激活RAW264.7巨噬细胞中的PI3K/Akt/mTOR信号来调控自噬。在Akt1表达缺失的细胞系中,ΔTrxC感染会显著降低自噬反应并促进ΔTrxC突变株存活,而用MK2206抑制Akt会降低ΔTrxC突变株存活并增强自噬反应。此外,TrxC 的缺失增加了 MSR1 的活性,从而诱导细胞自噬和吞噬。我们的数据表明,SS2的TrxC通过巨噬细胞中的PI3K-Akt-mTOR途径诱导抗氧化应激和抑制自噬,从而增强了病毒的毒力,而MSR1则是控制感染的关键因素。
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来源期刊
Veterinary microbiology
Veterinary microbiology 农林科学-兽医学
CiteScore
5.90
自引率
6.10%
发文量
221
审稿时长
52 days
期刊介绍: Veterinary Microbiology is concerned with microbial (bacterial, fungal, viral) diseases of domesticated vertebrate animals (livestock, companion animals, fur-bearing animals, game, poultry, fish) that supply food, other useful products or companionship. In addition, Microbial diseases of wild animals living in captivity, or as members of the feral fauna will also be considered if the infections are of interest because of their interrelation with humans (zoonoses) and/or domestic animals. Studies of antimicrobial resistance are also included, provided that the results represent a substantial advance in knowledge. Authors are strongly encouraged to read - prior to submission - the Editorials (''Scope or cope'' and ''Scope or cope II'') published previously in the journal. The Editors reserve the right to suggest submission to another journal for those papers which they feel would be more appropriate for consideration by that journal. Original research papers of high quality and novelty on aspects of control, host response, molecular biology, pathogenesis, prevention, and treatment of microbial diseases of animals are published. Papers dealing primarily with immunology, epidemiology, molecular biology and antiviral or microbial agents will only be considered if they demonstrate a clear impact on a disease. Papers focusing solely on diagnostic techniques (such as another PCR protocol or ELISA) will not be published - focus should be on a microorganism and not on a particular technique. Papers only reporting microbial sequences, transcriptomics data, or proteomics data will not be considered unless the results represent a substantial advance in knowledge. Drug trial papers will be considered if they have general application or significance. Papers on the identification of microorganisms will also be considered, but detailed taxonomic studies do not fall within the scope of the journal. Case reports will not be published, unless they have general application or contain novel aspects. Papers of geographically limited interest, which repeat what had been established elsewhere will not be considered. The readership of the journal is global.
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