Construction of recombinant lactobacilli expressing the core neutralizing epitope (COE) of porcine epidemic diarrhea virus and a fusion protein consisting of COE and Escherichia coli heat-labile enterotoxin B, and comparison of the immune responses by orogastric immunization

文献类型: 外文期刊

第一作者: Ge, Jun-Wei

作者: Ge, Jun-Wei;Li, Yi-Jing;Liu, Di-Qiu

作者机构:

关键词: Core neutralizing epitope;Immunogenicity;lactobacillus;Orogastric administration;Porcine epidemic diarrhea virus

期刊名称:CANADIAN JOURNAL OF MICROBIOLOGY ( 影响因子:2.419; 五年影响因子:2.35 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The core neutralizing epitope (COE) region of porcine epidemic diarrhea virus (PEDV) plays an important role in the development of the subunit vaccine against PEDV infection. To enhance the vaccine's immunogenicity, Escherichia coli heat-labile enterotoxin B (LTB) has usually been adopted as a molecular adjuvant. In this study, the COE and LTB-COE genes were engineered into the Lactobacillus-Escherichia coli shuttle vectors pSAPG1 (surface-displaying) and pSAPG2 (secreting) followed by electrotransformation into Lactobacillus casei (Lc) to yield the following recombinant strains: Lc:PG1-LTB-COE, Lc:PG2-LTB-COE, Lc:PG1-COE, and Lc:PG2-COE. Our results showed that mice immunized orogastrically with L. casei expressing COE or LTB-COE produced secretory immunoglobulin A and immunoglobulin G with the ability to neutralize PEDV in sera and mucus. Moreover, higher levels of interleukin-4 and gamma interferon were also exhibited compared with negative control. These data displayed the tendency of Lc:PG2-LTB-COE > Lc:PG1-LTB-COE > Lc:PG2-COE > Lc:PG1-COE at the same time point. Taken together, LTB-COE is more suitable for Lactobacillus expressing system to engineer mucosal vaccine against PEDV infection.

分类号: Q93

  • 相关文献

[1]Effect of Different Fermentation Parameters on Lactic Acid Production from Kitchen Waste by Lactobacillus TY50. Wang, Q. -H.,Ma, H. -Z.,Wang, X. -M.,Wang, X. -Q.. 2011

[2]Effects of dietary scFOS and lactobacilli on survival, growth, and disease resistance of hybrid tilapia. Liu, Wenshu,Wang, Wenwen,Ran, Chao,He, Suxu,Yang, Yaling,Zhou, Zhigang,Liu, Wenshu.

[3]Effect of Lactobacillus plantarum on diarrhea and intestinal barrier function of young piglets challenged with enterotoxigenic Escherichia coli K88. Yang, K. M.,Jiang, Z. Y.,Zheng, C. T.,Wang, L.,Yang, X. F..

[4]Effects of dietary Lactobacillus plantarum and AHL lactonase on the control of Aeromonas hydrophila infectionin tilapia. Liu, Wenshu,Gu, Zemao,Liu, Wenshu,Ran, Chao,Liu, Zhi,Xu, Shude,Zhou, Zhigang,Liu, Wenshu,Gao, Qian,Ringo, Einar,Myklebust, Reidar. 2016

[5]Preparation and antioxidant activities of peanut (Arachin conarachin L.) protein peptides by lactobacillus solid state fermentation method. Yu, Lina,Yang, Qingli,Sun, Jie,Bi, Jie,Zhang, Chushu,Feng, Jianxiong. 2014

[6]Antioxidative activity of lactic acid bacteria in yogurt. Zhang, Shuwen,Liu, Lu,Su, Yanling,Li, Hongjuan,Sun, Qi,Liang, Xiao,Lv, Jiaping. 2011

[7]Construction of non-antibiotic resistance Expression Vector by Secretory beta-Gal as a Selective Marker in Lactobacillus. Sun, Zhe,Zhang, Hong-fu,Wang, Ming. 2012

[8]CD4 detected from Lactobacillus helps understand the interaction between Lactobacillus and HIV. Su, Yan,Zhang, Baojiang,Su, Lingling. 2013

[9]Crystal structure of bile salt hydrolase from Lactobacillus salivarius. Xu, Fuzhou,Guo, Fangfang,Hu, Xiao-Jian,Lin, Jun. 2016

[10]Porcine epidemic diarrhea virus nucleoprotein contributes to HMGB1 transcription and release by interacting with C/EBP-beta. Huan, Chang-chao,Wang, Hua-xia,Sheng, Xiang-xiang,Wang, Rui,Wang, Xin,Fan, Hong-jie,Mao, Xiang,Liao, Ying,Liu, Qin-fang,Tong, Guang-zhi,Ding, Chan,Mao, Xiang,Wu, Jia-qiang. 2016

[11]TMPRSS2 and MSPL Facilitate Trypsin-Independent Porcine Epidemic Diarrhea Virus Replication in Vero Cells. Shi, Wen,Fan, Wenlu,Bai, Jing,Wang, Li,Jiang, Yanping,Tang, Lijie,Cui, Wen,Xu, Yigang,Li, Yijing,Tang, Yandong,Liu, Min. 2017

[12]Attenuation of an original US porcine epidemic diarrhea virus strain PC22A via serial cell culture passage. Lin, Chun-Ming,Hou, Yixuan,Gao, Xiang,Liu, Xinsheng,Zheng, Lanlan,Saif, Linda J.,Wang, Qiuhong,Marthaler, Douglas G.,Marthaler, Douglas G.,Liu, Xinsheng,Zheng, Lanlan.

[13]Porcine epidemic diarrhea virus virus-like particles produced in insect cells induce specific immune responses in mice. Wang, Cuiling,Wang, Cuiling,Yan, Feihu,Zheng, Xuexing,Wang, Hualei,Jin, Hongli,Wang, Chong,Zhao, Yongkun,Feng, Na,Wang, Tiecheng,Gao, Yuwei,Yang, Songtao,Xia, Xianzhu,Zheng, Xuexing,Jin, Hongli,Wang, Chong,Zheng, Xuexing,Wang, Hualei,Zhao, Yongkun,Feng, Na,Wang, Tiecheng,Gao, Yuwei,Yang, Songtao,Xia, Xianzhu.

[14]Epidemiology and vaccine of porcine epidemic diarrhea virus in China: a mini-review. Sun, Dongbo,Wang, Xinyu,Wei, Shan,Sun, Dongbo,Chen, Jianfei,Feng, Li.

[15]SPIKE PROTEIN REGION (aa 636-789) OF PORCINE EPIDEMIC DIARRHEA VIRUS IS ESSENTIAL FOR INDUCTION OF NEUTRALIZING ANTIBODIES. Sun, D. B.,Feng, L.,Shi, H. Y.,Chen, J. F.,Liu, S. W.,Chen, H. Y.,Wang, Y. F..

[16]A spike-specific whole-porcine antibody isolated from a porcine B cell that neutralizes both genogroup 1 and 2 PEDV strains. Fu, Fang,Li, Lin,Shan, Lingling,Yang, Beibei,Shi, Hongyan,Zhang, Jiaoer,Feng, Li,Liu, Pinghuang,Wang, Hongfeng.

[17]Reverse transcription-PCR assays for the differentiation of various US porcine epidemic diarrhea virus strains. Liu, Xinsheng,Wang, Qiuhong,Liu, Xinsheng.

[18]Sequence Heterogeneity of the ORF3 Gene of Porcine Epidemic Diarrhea Viruses Field Samples in Fujian, China, 2010-2012. Chen, Xi,Yang, Jinxian,Yu, Fusong,Ge, Junqing,Gao, Xindang,Song, Tieying,Zeng, Lili,Guo, Qing. 2013

[19]Molecular Characterizations of Subcellular Localization Signals in the Nucleocapsid Protein of Porcine Epidemic Diarrhea Virus. Shi, Da,Lv, Maojie,Chen, Jianfei,Shi, Hongyan,Zhang, Sha,Zhang, Xin,Feng, Li. 2014

[20]Molecular epidemiology of porcine epidemic diarrhea virus in China. Chen, Jianfei,Wang, Chengbao,Shi, Hongyan,Qiu, Huaji,Chen, Xiaojin,Zhang, Zhibang,Feng, Li,Liu, Shengwang. 2010

作者其他论文 更多>>

微信小程序