Mitochondrial damage and activation of NLRP3 induced by Yersinia ruckeri infection play an important role in the occurrence of diffuse acute inflammation of channel catfish (Ictalurus punctatus)

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作   者：

Yu Q.;  He J.;  Xiong Q.-X.;  Zhong Z.-D.;  Bai S.-J.;  He S.-Y.;  Lu C.-W.;  Yang B.;  Lian S.;  Wang M.-M.;  Kuang L.-F.;  Zhou Z.-Y.;  Jian Z.-R.;  Gao Y.-C.;  Wang E.-L.;  Ling F.;  Wang G.-X.;  Liu T.;  Xiao S.-Y.;  Liu M.-Z.;  Li P.-F.; 

作者机构：

Chengdu Lilai Biotechnology Co. Ltd.;  Haid Building;  College of Animal Science and Technology Northwest A&F University;  Guangxi Key Laboratory of Aquatic Biotechnology and Modern Ecological Aquaculture Guangxi Academy of Sciences; 

关键词：

Yersinia ruckeri;  Diffuse acute inflammation;  Mitochondria damage;  NLRP3;  Ictalurus punctatus; 

期刊名称：

Aquaculture

i s s n：

0044-8486

年卷期：

2024 年 588 卷

页   码：

1-12

页   码：

摘   要：

© 2024Yersinia ruckeri, as a facultative intracellular pathogen, can cause two different infection phenotypes of fish. An important phenotype is diffuse acute inflammation (DAI), which is mainly characterized by systemic hemorrhage and multiple tissues damage. Another phenotype is enteric redmouth symptom (EM) with predominantly digestive system damage, while slight damage to other tissues and organs. At present, the causes and mechanisms of heterogeneity of Y. ruckeri infection are not clear. According to our previous research and related bioinformatics analysis, it is suggested that the heterogeneity of infection of Y. ruckeri may be related to the activation of intracellular pattern recognition receptor (NLRP3). Furthermore, combined with the transmission electron microscope observation and ultrastructural pathological analysis of DAI and EM phenotypes, it is hypothesized that Y. ruckeri infection may mediate the occurrence of DAI by inducing mitochondrial damage and activation of NLRP3. In this study, we established DAI and EM phenotypes of channel catfish (Ictalurus punctatus) through the artificial infection experiment. Subsequently, we observed the pathological changes and characteristics of different tissues in DAI and EM phenotypes, such as liver, spleen, kidney, intestine and gill. In addition, the mitochondrial damage of head kidney mediated by Y. ruckeri infection was confirmed by transmission electron microscope observation. Furthermore, by detecting the expression of proinflammatory factors and related pattern recognition receptors in various tissues, we preliminarily clarified the molecular characteristics of immune response in DAI and EM phenotype fish. Moreover, the head kidney macrophages isolated from DAI and EM were observed through transmission electron microscope, and the expression levels of NLRP3, Caspase-1 and IL-1β were detected. Finally, the correlation between mitochondrial damage induced by Y. ruckeri infection and NLRP3 signal transduction was preliminary revealed. Taken together, our results showed that the inflammatory DAI phenotype of fish mediated by Y. ruckeri infection is closely related to mitochondrial damage and NLRP3 activation, which will provide theoretical basis for further study on the pathogenic mechanism of Y. ruckeri infection and clinical diagnosis of the disease, and also provide some insights into the role of NLRP3 in the natural immunity of aquatic animals.