Immune Response of Silver Pomfret (Pampus argenteus) CC Chemokine Ligand Gene Family to Photobacterium damselae Subsp. Damselae and Nocardia seriolae Infections.

IF 2.2 3区 农林科学 Q2 FISHERIES Journal of fish diseases Pub Date : 2024-10-23 DOI:10.1111/jfd.14032
Kaiheng Yan, Youyi Zhang, Yuanbo Li, Mengke Tang, Yifan Xu, Xiaojun Yan, Jiabao Hu, Yajun Wang
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Abstract

Chemokines play a crucial role in immune responses by facilitating the migration of cells expressing corresponding chemokine receptors along concentration gradients. Photobacterium damselae subsp. Damselae (PDD) and Nocardia seriolae (NS) are known to induce substantial mortality in silver pomfret populations, yet there exists a dearth of research regarding the immune response of CCLs in PDD- or NS-infected silver pomfret. In our investigation, we identified 10 PaCCLs, which include one fish-specific CCL (PaCCL44). Phylogenetic analysis revealed considerable diversity in CCL types and copy numbers among various teleost fishes. Notably, silver pomfret lacks specific CCL genes, with most PaCCLs exhibiting heightened expression levels in immune-related organs such as the spleen and kidney, and some being expressed in mucosal immune-related organs like the skin and gills. Transcriptome analysis conducted on silver pomfret infected with NS and PDD elucidated that the expression changes of PaCCLs primarily manifested in the spleen during the initial stages of NS infection, shifting to the kidney in later stages. Conversely, the expression changes of PaCCLs following PDD infection predominantly occurred in the kidney. In vitro studies using silver pomfret spleen cell lines demonstrated an early peak in PaCCLs expression during infection, followed by gradual decline with NS treatment and rapid diminishment with PDD treatment. These findings suggest that PaCCLs primarily support the innate immunity of silver pomfret, potentially exhibiting chemotactic effects in the early infection stages, such as the synergistic action of PaCCL4 and PaCCL25, and later serving as direct antibacterial agents. NS invasion is characterised by a chronic infection affecting multiple organs, whereas PDD primarily inflicts severe damage to the kidney. PaCCL19a and PaCCL19b are specific to PDD, and their expression levels may decrease in the later stages of infection due to PDD immune escape. These data offer initial insights into understanding the mechanism underlying the innate immune response of the CCL gene family in silver pomfret and provide theoretical underpinnings for fish culture practices.

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银鲳CC趋化因子配体基因家族对大马士革光杆菌亚种和血清诺卡氏菌感染的免疫反应
趋化因子通过促进表达相应趋化因子受体的细胞沿浓度梯度迁移,在免疫反应中发挥着至关重要的作用。众所周知,大姆氏光杆菌亚种(PDD)和血清型诺卡氏菌(NS)会导致银鲳大量死亡,但关于PDD或NS感染银鲳后CCLs免疫反应的研究却十分匮乏。在调查中,我们发现了 10 个 PaCCLs,其中包括一个鱼类特异性 CCL(PaCCL44)。系统发育分析表明,在各种鱼类中,CCL的类型和拷贝数具有相当大的多样性。值得注意的是,银鲳缺乏特异性 CCL 基因,大多数 PaCCLs 在免疫相关器官(如脾脏和肾脏)中的表达水平较高,有些则在粘膜免疫相关器官(如皮肤和鳃)中表达。对感染了NS和PDD的银鲳进行的转录组分析表明,PaCCLs的表达变化在NS感染初期主要表现在脾脏,后期则转移到肾脏。相反,PaCCLs 在感染 PDD 后的表达变化主要发生在肾脏。使用银鲳脾脏细胞系进行的体外研究表明,PaCCLs的表达在感染初期达到高峰,随后随着NS的处理逐渐下降,并在PDD处理后迅速减少。这些研究结果表明,PaCCLs 主要支持银鲳的先天性免疫,可能在早期感染阶段表现出趋化作用,如 PaCCL4 和 PaCCL25 的协同作用,随后成为直接抗菌剂。NS 侵袭的特点是影响多个器官的慢性感染,而 PDD 则主要对肾脏造成严重损害。PaCCL19a 和 PaCCL19b 对 PDD 具有特异性,在感染后期,由于 PDD 的免疫逃逸,它们的表达水平可能会下降。这些数据为了解银鲳CCL基因家族的先天性免疫反应机制提供了初步见解,并为鱼类养殖实践提供了理论依据。
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来源期刊
Journal of fish diseases
Journal of fish diseases 农林科学-海洋与淡水生物学
CiteScore
4.60
自引率
12.00%
发文量
170
审稿时长
6 months
期刊介绍: Journal of Fish Diseases enjoys an international reputation as the medium for the exchange of information on original research into all aspects of disease in both wild and cultured fish and shellfish. Areas of interest regularly covered by the journal include: -host-pathogen relationships- studies of fish pathogens- pathophysiology- diagnostic methods- therapy- epidemiology- descriptions of new diseases
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