School of Marine Science and Engineering, Qingdao Agricultural University, Qingdao, 266109, China.
College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, 266011, China.
Mol Immunol. 2021 Jun;134:48-61. doi: 10.1016/j.molimm.2021.02.003. Epub 2021 Mar 10.
The innate immune system plays an important role in host defense against pathogenic infections. In the innate immune system, several families of innate pattern recognition receptors, including Toll-like receptors, RIG-I-like receptors, NOD-like receptors (NLRs), and DNA receptors (cytosolic sensors for DNA), are known to play vital roles in detecting and responding to various pathogens. In this study, we identified 29 NLRs in turbot including 4 NLRs from subfamily A: NOD1, NOD2, CIITA, NLRC5, 1 NLR from subfamily B: NLRB1, 21 NLRs from subfamily C: NLR-C3.1∼NLRC3.21, 1 from NLRX subfamily, and two that do not fall within these subfamilies: APAF1, NWD1. Phylogenetic analysis showed that these NLR genes were clearly divided into five subfamilies. Protein-protein interaction network analysis showed that some of these NLR genes shared same interacting genes and might participate in signal transductions associated with immunity. The evolutionary pressure selection analysis showed that the Ka/Ks ratios for all detected NLR genes were much less than one, implying more synonymous changes than non-synonymous changes. In addition, tissue expression analysis showed that the relative higher expression levels were observed in gill, skin and intestine. Meanwhile, NLR genes expression after bacterial infection results showed that most NLR genes participated in the process of defense of V. anguillarum and A. salmonicida infections in mucosal tissues. Taken together, identification and expression profiling analysis of NLR genes can provide valuable information for further functional characterization of these genes in turbot.
先天免疫系统在宿主防御致病感染中发挥着重要作用。在先天免疫系统中,几种先天模式识别受体家族,包括 Toll 样受体、RIG-I 样受体、NOD 样受体(NLRs)和 DNA 受体(细胞质 DNA 传感器),被认为在检测和应对各种病原体方面发挥着重要作用。在本研究中,我们在大菱鲆中鉴定了 29 种 NLRs,包括亚家族 A 中的 4 种 NLRs:NOD1、NOD2、CIITA、NLRC5;亚家族 B 中的 1 种 NLR:NLRB1;亚家族 C 中的 21 种 NLR:NLR-C3.1∼NLRC3.21;NLRX 亚家族中的 1 种和不属于这两个亚家族的 2 种:APAF1、NWD1。系统进化分析表明,这些 NLR 基因明显分为五个亚家族。蛋白-蛋白相互作用网络分析表明,这些 NLR 基因中的一些具有相同的相互作用基因,可能参与与免疫相关的信号转导。进化压力选择分析表明,所有检测到的 NLR 基因的 Ka/Ks 比值都远小于 1,这意味着同义突变多于非同义突变。此外,组织表达分析表明,在鳃、皮肤和肠道中观察到相对较高的表达水平。同时,细菌感染后 NLR 基因的表达结果表明,大多数 NLR 基因参与了大菱鲆黏膜组织中鳗弧菌和鲑鱼气单胞菌感染的防御过程。总之,NLR 基因的鉴定和表达谱分析可为进一步研究这些基因在大菱鲆中的功能特征提供有价值的信息。
