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| Cloning, Expression and Functional Analysis of CmaZAP-70 from Hybrid Snakehead (Channa maculata♀×Channa argus♂) |
| LIU Fu-Cui1, 2, ZHAO Fei1, *, TAN Ai-Ping1, KONG Lu-Lu1, 2, HE Shan1, 2, ZHANG Rui-Quan1, DENG Yu-Ting1, JIANG Lan1 |
1 Key Laboratory of Fishery Drug Development, Ministry of Agriculture and Rural Affairs/Key Laboratory of Aquatic Animal Immune Technology of Guangdong Province/Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China;
2 College of Fishery and Life Science, Shanghai Ocean University, Shanghai 201306, China |
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Abstract As a key factor in the initiation of T cell receptor (TCR) signal transduction, tyrosine protein kinase ZAP-70 (70 kD zeta-associated-protein) is critical to the proliferation and activation of T cells, contributing to the fight against bacterial infection. However, current studies on ZAP-70 in fish are quite limited. In this study, a series of experiments were conducted to uncover the potential role of ZAP-70 in hybrid snakehead (Channa maculata ♀ ×Channa argus ♂)(CmaZAP-70), a feature economic species in China. The complete ORF of CmaZAP-70 gene (GenBank No. MK134563) was cloned and its response to Aeromonas schubertii and Nocardia seriolae infection was analyzed. The structure, homology and phylogenetic tree of CmaZAP-70 sequence were also analyzed. Moreover, the plasmid pEGFP-N1-ZAP70 was constructed to detect the effect of overexpression on the activity of nuclear factor kappa-B (NF-κB) and activating protein 1 (AP-1). Sequence analysis showed that the complete ORF of CmaZAP-70 gene was 1 818 bp, which encoded 605 aa with relative molecular weight and theoretical point of 68.2 kD and 8.06, respectively. SignalP 4.1 Server analysis showed that CmaZAP-70 was a non-secretory protein without signal peptide, which contained 2 tandem SH2 domains and 1 SH1 kinase domain. In addition, CmaZAP-70 was highly conserved with some phosphorylation sites and catalytic motifs of mammal ZAP-70. Phylogenetic analysis showed that CmaZAP-70 was clustered into 1 group with other teleost and it was clustered closely with Dicentrarchus labrax, which indicated that 2 species had high homology. Moreover, the qRT-PCR results showed that CmaZAP-70 was widely expressed in 10 tissues of healthy hybrid snakehead, with the highest expression in spleen (P<0.05) and relatively highly in the thymus, head kidney and blood, whereas it was expressed at lowest levels in the skin (P<0.05). The expression changes of CmaZAP-70 were similar and mainly up-regulated in the liver, spleen, and head kidney at different time points after infection with the pathogens A. schubertii and N. seriolae, respectively. After infection with A. schubertii, CmaZAP-70 showed the highest expression in the liver, spleen and head kidney at 1 d, 1 d and 2 d, respectively (P<0.05), while it all displayed the highest expression in the liver, spleen, and head kidney at 3 d after infection with N. seriolae (P<0.05). Furthermore, the dual-luciferase reporter assay showed that overexpression of pEGFP-N1-ZAP70 significantly enhanced the activity of NF-κB and AP-1, which were 4.3 and 3.5 times higher than that of control, respectively (P<0.05). The results conclude that CmaZAP-70 might play a crucial role in the defense against pathogen infection, and participates in the regulation of signal transduction. This study would lay a solid foundation for further revealing the anti-infection mechanism of TCR signaling pathway in fish.
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Received: 30 January 2019
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Corresponding Authors:
zhaofei@prfri.ac.cn
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[1] 刘苏, 朱新平, 陈昆慈, 等. 2011. 斑鳢、乌鳢及其杂交种形态差异分析[J]. 华中农业大学学报, 30(4): 488-493.
(Liu S, Zhu X P, Chen K C, et al.2011. Morphological variations of Channa maculata, Channa argus and their hybrid(C. maculata ♀ × C. argus ♂)[J]. Journal of Huazhong Agricultural University, 30(4): 488-493.)
[2] 刘春, 李凯彬, 王庆, 等. 2012. 杂交鳢(斑鳢♀×乌鳢♂)内脏类结节病病原菌的分离、鉴定与特性分析[J]. 水产学报, 36(7): 1119-1125.
(Liu C, Li K B, Wang Q, et al.2012. Isolation, identification and characterization of Aeromonas schubertii from hybrid snakehead (Channa maculate ♀ × C. argus ♂)[J]. Journal of Fisheries of China, 36(7): 1119-1125.)
[3] 刘春, 李凯彬, 王庆, 等. 2014. 鱼致病性舒伯特气单胞菌双重PCR检测方法的建立[J]. 中国预防兽医学报, 36(1): 54-57.
(Liu C, Li K.B, Wang Q, et al.2014. Establishment of duplex PCR for detection of pathogenic Aeromonas schubertii[J]. Chinese Journal of Preventive Veterinary Medicine, 36(1): 54-57.)
[4] 莫金凤, 姜兰, 吴灶和. 2016. 乌鳢源舒伯特气单胞菌生物学特性及其药物敏感性分析[J]. 水产学报, 40(3): 484-494.
(Mo J F, Jiang L, Wu Z H.2016. Biological characteristics and drug susceptibility of Aeromonas schubertii WL-4 isolated from snakehead[J]. Journal of Fisheries of China, 40(3): 484-494.)
[5] 汪朝晖, 袁璟, 廖玉华, 等. 2008. 对ANT合成肽诱导的自身免疫性心肌病传染性耐受的小鼠T细胞信号机制分析[J]. 中国免疫学杂志, 2008, 24(3): 200-204.
(Wang Z H, Yuan J, Liao B S, et al.2008. Analysis of T cell singaling mechanism in mice with infectious tolerance to ANT pep-tides[J]. Chinese Journal of Immunology, 24(3): 200-204.)
[6] 夏立群, 陈锐敏, 廖保山, 等. 2017. 鰤鱼诺卡氏菌DmpA基因的克隆及亚细胞定位研究[J]. 生物技术通报, 33(5): 219-226.
(Xia L Q, Chen R M, Liao B S, et al.2017. Gene cloning and subcellular localization of dmpA from Nocardia seriolae[J]. Biotechnology Bulletin, 33(5): 219-226.)
[7] 邹礼根, 冯晓宇, 王宇希,等. 2011. 杂交鳢(斑鳢♀×乌鳢♂)与乌鳢肌肉品质比较研究[J]. 上海海洋大学学报, 20(2): 303-307.
(Zou L G, Feng X Y, Wang Y X, et al.2011. Comparative study on flesh quality of hybrid snakehead (Channa maculate ♀ × Channa argus ♂) and Channa argus[J]. Journal of Shanghai Ocean University, 20(2): 303-307.)
[8] Ali S, Mann D A.2004. Signal transduction via the NF-κB pathway: A targeted treatment modality for infection, inflammation and repair[J]. Cell Biochemistry & Function, 22(2): 67-69.
[9] Au-Yeung B B, Deindl S, Hsu L Y, et al.2009. The structure, regulation, and function of ZAP-70[J]. Immunological Reviews, 228(1): 41-57.
[10] Au-Yeung B B, Shah N H, Shen L, et al.2018. ZAP-70 in signaling, biology, and disease[J]. Annual Review of Immunology, 36(1): 127-156.
[11] Bartolo D V, Mege D, Germain V, et al.1999. Tyrosine 319, a newly identified phosphorylation site of ZAP-70, plays a critical role in T cell antigen receptor signaling[J]. Journal of Biological Chemistry, 274(10): 6285-6294.
[12] Bartolo D V, Malissen M, Dufour E, et al.2002. Tyrosine 315 determines optimal recruitment of ZAP-70 to the T cell antigen receptor[J]. European Journal of Immunology, 32(2): 568-575.
[13] Chan A C, Iwashima M, Turck C W, et al.1992. ZAP-70: A 70 kd protein-tyrosine kinase that associates with the TCR zeta chain[J]. Cell, 71(4): 649-662.
[14] Chan A C, Dalton M, Johnson R, et al.1995. Activation of ZAP-70 kinase activity by phosphorylation of tyrosine 493 is required for lymphocyte antigen receptor function[J]. EMBO Journal, 14(11): 2499-2508.
[15] Christie T L, Carter A, Rollins E L, et al.2010. Syk and Zap-70 function redundantly to promote angioblast migration[J]. Developmental Biology, 340(1): 22-29.
[16] Dustin M L.2008. T-cell activation through immunological synapses and kinapses[J]. Immunological Reviews, 221(1): 77-89.
[17] Gelkop S, Gish G D, Babichev Y, et al.2005. T cell activation-induced CrkII binding to the Zap70 protein tyrosine kinase is mediated by Lck-dependent phosphorylation of Zap70 tyrosine 315[J]. The Journal of Immunology, 175(12): 8123-8132.
[18] Guo L, Guo Y, Xiao S, et al.2005. Protein kinase p-JNK is correlated with the activation of AP-1 and its associated Jun family proteins in hepatocellular carcinoma[J]. Life Sciences, 77(15): 1869-1878.
[19] Hansen J D, Zapata A G.1998. Lymphocyte development in fish and amphibians[J]. Immunological Reviews, 166(1): 199-220.
[20] Herndon T M, Shan X C, Tsokos G C, et al.2001. ZAP-70 and SLP-76 regulate protein kinase C-θ and NF-κB activation in response to engagement of CD3 and CD28[J]. The Journal of Immunology, 166(9): 5654-5664.
[21] Isakov N.1995. ZAP-70 binding specificity to T cell receptor tyrosine-based activation motifs: The tandem SH2 domains of ZAP-70 bind distinct tyrosine-based activation motifs with varying affinity[J]. Journal of Experimental Medicine, 181(1): 375-380.
[22] Kong G, Dalton M, Bubeck Wardenburg J, et al.1996. Distinct tyrosine phosphorylation sites in ZAP-70 mediate activation and negative regulation of antigen receptor function[J]. Molecular and Cellular Biology, 16(9): 5026-5035.
[23] Llamas-Guillén B A, Pastor N, LópezHerrera G, et al.2017. Two novel mutations in ZAP70 gene that result in human immunodeficiency[J]. Clinical Immunology, 183(10): 278-284.
[24] Li Z X, Li Y W, Xu S, et al.2017. Grouper (Epinephelus coioides) TCR signaling pathway was involved in response against Cryptocaryon irritans infection[J]. Fish & Shellfish Immunology, 64(5): 176-184.
[25] Magnan A, Bartolo V D, Mura A, et al.2001. T cell development and T cell responses in mice with mutations affecting tyrosines 292 or 315 of the ZAP-70 protein[J]. Journal of Experimental Medicine, 194(4): 491-506.
[26] Moore J C, Mulligan T S, Nora T Y, et al.2016. T cell immune deficiency in zap70 mutant zebrafish[J]. Molecular & Cellular Biology, 36(23): 2868-2876.
[27] Neumeister E N, Zhu Y, Richard S, et al.1995. Binding of ZAP-70 to phosphorylated T-cell receptor zeta and eta enhances its autophosphorylation and generates specific binding sites for SH2 domain-containing proteins[J]. Molecular and Cellular Biology, 15(6): 3171-3178.
[28] Pelosi M, Di Bartolo V, Mounier V, et al.1999. Tyrosine 319 in the interdomain B of ZAP-70 is a binding site for the Src homology 2 domain of Lck[J]. Journal of Biological Chemistry, 274(20): 14229-14237.
[29] Øvergard A C, Nerland A H, Patel S.2010. Cloning, characterization, and expression pattern of Atlantic halibut (Hippoglossus hippoglossus L.) CD4-2, Lck, and ZAP-70[J]. Fish & Shellfish Immunology, 29(6): 987-997.
[30] Sommers C L, Samelson L E, Love P E.2004. LAT: A T lymphocyte adapter protein that couples the antigen receptor to downstream signaling pathways[J]. BioEssays, 26(1): 61-67.
[31] Smith-Garvin J E, Koretzky G A, Jordan M S.2009. T cell activation[J]. Annual Review of Immunology, 27(1): 591-619.
[32] Van Muiswinkel W B, Nakao M.2014. A short history of research on immunity to infectious diseases in fish[J]. Developmental & Comparative Immunology, 43(2): 130-150.
[33] Watts J D, Affolter M, Krebs D L, et al.1994. Identification by electrospray ionization mass spectrometry of the sites of tyrosine phosphorylation induced in activated Jurkat T cells on the protein tyrosine kinase ZAP-70[J]. Journal of Biological Chemistry, 269(47): 29520-29529.
[34] Xu C, Gagnon E, Call M E, et al.2008. Regulation of T cell receptor activation by dynamic membrane binding of the CD3ζ cytoplasmic tyrosine-based motif[J]. Cell, 135(4): 702-713.
[35] Yan Q, Barros T, Visperas P R, et al.2013. Structural basis for activation of ZAP-70 by phosphorylation of the SH2-kinase linker[J]. Molecular and Cellular Biology, 33(11): 2188-2201.
[36] Gan Z, Wang B, Zhou W, et al.2016. Molecular characterization and expression of ZAP-70 in Nile tilapia (Oreochromis niloticus) in response to Streptococcus agalactiae stimulus[J]. Genes & Genomics, 38(4): 321-331. |
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