Comparative study of the immune effect of an Edwardsiella tarda antigen in two forms: Subunit vaccine vs DNA vaccine

文献类型: 外文期刊

第一作者: Sun, Yun

作者: Sun, Yun;Sun, Li;Sun, Yun;Liu, Chun-Sheng

作者机构:

关键词: IgM: immunoglobulin M;plasmid;IL-1-beta: interleukin-1-beta;antigen;interferon;complement C3: 80295-41-6;CD8-alpha;antibody: production;Mx protein;Eta2;outer membrane protein chaperone;interferon-induced Mx protein;natural killer cell enhancing factor;MHC-I-alpha;recombinant Eta2 subunit vaccine: rEta2;antibacterial-drug;antiinfective-drug;vaccine;plasmid Eta2 DNA vaccine: pCEta2;antibacterial-drug;antiinfective-drug;vaccine;immune response;humoral response;immunity;passive immunoprotection

期刊名称:VACCINE ( 影响因子:3.641; 五年影响因子:3.816 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Edwardsiella tarda is a Gram-negative bacterial pathogen and the etiological agent of a systematic fish disease called edwardsiellosis, which affects a wide range of marine and freshwater fish. E. tarda vaccines in various forms have been reported by a number of research groups; however, comparative studies on the immune mechanisms of these vaccines are lacking. In this report, we identified a new E. tarda vaccine candidate, Eta2, and analyzed in a comparative manner the immune response induced by Eta2 in two different forms: purified recombinant subunit vaccine and DNA vaccine. Eta2 is a protein of 178 residues and shares high levels of sequence identities with the OmpH family of outer membrane protein chaperones of several bacterial species. Recombinant Eta2 (rEta2) purified from Escherichia coli was highly protective against E. tarda challenge in a Japanese flounder (Paralichthys olivaceus) model and produced relative percent of survival rates of 83% and 78%, respectively, at 4- and 8-week post-vaccination (p.v.). Eta2 as a DNA vaccine in the form of plasmid pCEta2 also induced strong protective immunity at 4- and 8-week p.v. Immunological analysis indicated that (i) rEta2 and pCEta2 enhanced head kidney macrophage activation at 1- and, for pCEta2, 7-day p.v.; (ii) rEta2 and pCEta2 induced similar patterns of serum antibody production, however, the antibodies induced by rEta2 were of much higher levels and afforded stronger passive immunoprotection upon naive flounder than those induced by pCEta2; (iii) both rEta2 and pCEta2 upregulated the expression of specific and nonspecific immune factors which include, in the case of pCEta2 but not rEta2, interferon, interferon-induced Mx protein, and CD8 alpha; however, the induction patterns effected by rEta2 and pCEta2 were different. While high levels of interleukin 1 beta (IL-1 beta), natural killer cell enhancing factor, Mx, MHC 1 alpha, and IgM inductions were observed in pCEta2-vaccinated fish, only IL-1 beta, complement C3, and IgM inductions were highly induced in rEta2-vaccinated fish. Taken together, these results indicate that both rEta2 and pCEta2 induce specific and nonspecific immunities, however, pCEta2 induces both B cell and T cell responses, whereas rEta2 induces mainly humoral response

分类号: R392

  • 相关文献

[1]Isolation and identification of the hemorrhagic septicemia pathogen from Amur sturgeon, Acipenser schrenckii. Meng, Y.,Xiao, H. B.,Zeng, L. B..

[2]A multivalent killed whole-cell vaccine induces effective protection against Edwardsiella tarda and Vibrio anguillarum. Sun, Yun,Sun, Li,Liu, Chun-sheng,Sun, Yun.

[3]Expression of an immunologically (MSP-1(42)) reactive merozoite surface protein in E-coli. Leung, WH,Meng, ZQ,Hui, G,Ho, WK.

[4]Schistosoma japonicum: Cloning, expression and characterization of a gene encoding the alpha 5-subunit of the proteasome. Hong, Yang,Han, Hongxiao,Peng, Jinbiao,Li, Ye,Shi, Yaojun,Fu, Zhiqiang,Liu, Jinming,Lin, Jiaojiao,Hong, Yang,Han, Hongxiao,Li, Xiangrui. 2010

[5]Promising MS2 mediated virus-like particle vaccine against foot-and-mouth disease. Chen, Liang.

[6]ProtectiveimmunityinducedbyaDNAvaccineexpressingeIF4AofToxoplasmagondiiagainstacutetoxoplasmosisinmice. 陈佳,SiyangHuang,ZhongyuanLi,ZiguoYuan,DonghuiZhou,EskildPetersen,NianzhangZhang,XingquanZhu. 2013

[7]Marburg virus-like particles produced in insect cells induce neutralizing antibodies in rhesus macaques. Gai Weiwei,Gai Weiwei,Zhao Yongkun,Wang Qi,Wang Hualei,Xie Ying,Wang Haijun,Cao Zengguo,Feng Na,Chi Hang,Wang Tiecheng,Gao Yuwei,Yang Songtao,Xia Xianzhu,Zheng Xuexing,Wang Chong,Wang Qi,Wong Gary,Shan Junjie.

[8]Plasmid containing CpG oligodeoxynucleotides can augment the immune responses of pigs immunized with porcine reproductive and respiratory syndrome killed virus vaccine. Quan, Zhang,Qin, Zhai Guo,Zhen, Wang,Feng, Xue Zheng,Hong, Jia,Fei, Zhu Hong.

[9]Strategies for improving the efficacy of a H6 subtype avian influenza DNA vaccine in chickens. Jiang, Yongping,Bu, Zhigao,Zeng, Xianying,Tian, Guobin,Li, Yanbing,Ge, Jinying,Chen, Hualan,Shan, Songhua,Ellis, Trevor,Edwards, John,Fenwick, Stan.

[10]Induction of specific immune responses in piglets by intramuscular immunization with fimbrial adhesin FaeG expressed in Lactococcus lactis. Liu, Shujie,Li, Yongming,Xu, Ziwei. 2013

[11]Marburg virus-like particles by co-expression of glycoprotein and matrix protein in insect cells induces immune responses in mice. Gai, Weiwei,Zhang, Weijiao,Qiu, Boning,Gai, Weiwei,Wang, Hualei,Zhao, Yongkun,Wang, Qi,Zhang, Weijiao,Feng, Na,Qiu, Boning,Chi, Hang,Li, Nan,Wang, Tiecheng,Gao, Yuwei,Yang, Songtao,Xia, Xianzhu,Zheng, Xuexing,Wang, Chong,Wang, Qi,Wong, Gary,Shan, Junjie,Shan, Junjie,Yang, Songtao,Xia, Xianzhu. 2017

[12]An attenuated EIAV vaccine strain induces significantly different immune responses from its pathogenic parental strain although with similar in vivo replication pattern. Lin, Yue-Zhi,Shen, Rong-Xian,Zhu, Zhen-Ying,Deng, Xi-Lin,Cao, Xue-Zhi,Wang, Xue-Feng,Ma, Jian,Jiang, Cheng-Gang,Zhao, Li-Ping,Lv, Xiao-Ling,Zhou, Jian-Hua,Shao, Yi-Ming. 2011

[13]Comparison of immune responses against foot-and-mouth disease virus induced by fusion proteins using the swine IgG heavy chain constant region or beta-galactosidase as a carrier of immunogenic epitopes. Li, GJ,Chen, WZ,Yan, WY,Zhao, K,Liu, MQ,Zhang, J,Fei, L,Xu, QX,Sheng, ZT,Lu, YG,Zheng, ZX.

[14]Ovine rotavirus strain LLR-85-based bovine rotavirus candidate vaccines: Construction, characterization and immunogenicity evaluation. Chang, Ji-Tao,Li, Xin,Liu, Hai-Jun,Yu, Li.

[15]Schistosoma japonicum: Treatment of different developmental stages in mice with long-acting praziquantel implants. Cheng, Liang,Lei, Lei,Guo, Shengrong,Rong, Haojun,Guo, Dongwei,Zhu, Chuangang,Zhang, Lei,Jiang, Yan,Lin, Jiaojiao.

[16]Global transcriptional responses of Bacillus subtilis to xenocoumacin 1. Zeng, H.,Qiu, D.,Yang, X.,Wang, B.,Chen, M.,Guo, L.,Wang, S..

[17]Complete Genome Sequences of Brucella melitensis Strains M28 and M5-90, with Different Virulence Backgrounds. Bu, Zhigao.

[18]Improved growth and quality of Siraitia grosvenorii plantlets using a temporary immersion system. Li, Yangrui,Liang, Chunxiu.

[19]A Combination of Ultrasonic-assisted Extraction with RRLC-QQQ Method for the Determination of Artemisinin in the Chinese Herb Artemisia annua L.. Wang, Xiao,Yang, Bin,Liu, Dahui,Huang, Luqi,Wang, Xiao,Zhao, Xian-en,Dong, Hongjing,Liu, Dahui.

[20]Combined DNA vaccines formulated either in DDA or in saline protect cattle from Mycobacterium bovis infection. Cai, H,Tian, X,Hu, XD,Li, SX,Yu, DH,Zhu, YX.

作者其他论文 更多>>

微信小程序