Dose-dependent pathogenicity of a pseudorabies virus variant in pigs inoculated via intranasal route

文献类型: 外文期刊

第一作者: Wang, Yimin

作者: Wang, Yimin;Xia, Shui-Li;Lei, Jian-Lin;Cong, Xin;Xiang, Guang-Tao;Luo, Yuzi;Sun, Yuan;Qiu, Hua-Ji

作者机构:

关键词: Pseudorabies virus variant;Pathogenicity;Intranasal infection;Pigs

期刊名称:VETERINARY IMMUNOLOGY AND IMMUNOPATHOLOGY ( 影响因子:2.046; 五年影响因子:2.217 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Pseudorabies (PR) or Aujeszky's disease (AD), caused by pseudorabies virus (PRV), is an economically important viral disease in many countries. The modified live vaccine Bartha-K61 strain has played an important role in the control of PR in many countries including China. Since late 2011, however, increasing PR outbreaks caused by an emerging PRV variant have been reported in Bartha-K61-vaccinated swine population on many farms in China. Previously, we showed that the PRV variant TJ strain exhibited enhanced pathogenicity in pigs inoculated via intramuscular route. To develop an animal infection model for accurate evaluation of novel vaccines against the emergent PRV variant, we evaluated the pathogenicity of the PRV TJ strain of different doses in pigs infected via intranasal route. Groups (n = 5) of 7-week-old healthy pigs were inoculated intranasally with 10(3), 10(4), 10(5), or 10(6) TCID50 (median tissue culture infective dose) PRV TJ strain. Clinical signs, rectal temperature, virus shedding, pathological changes, and seroconversion were monitored. The results showed that the PRV TJ strain induced varied morbidity and mortality (0/5 to 5/5), clinical signs, and tissue lesions, increasingly correlated with the infection doses, and the median lethal dose (LD50) of the virus was determined to be 10(4.5) TCID50. Together, this study demonstrates the dose-dependent pathogenicity of the PRV variant via the intranasal route of infection, which provides an ideal animal infection model for evaluation of novel vaccines against the emerging PRV variant. (C) 2015 Elsevier B.V. All rights reserved.

分类号: S85

  • 相关文献

[1]Synergistic effects of sequential infection with highly pathogenic porcine reproductive and respiratory syndrome virus and porcine circovirus type 2. Fan, Peihu,Wei, Yanwu,Guo, Longjun,Wu, Hongli,Huang, Liping,Liu, Jianbo,Liu, Changming. 2013

[2]Variations in glycoprotein B contribute to immunogenic difference between PRV variant JS-2012 and Bartha-K61. Yu, Zhi-qing,Tong, Wu,Zheng, Hao,Li, Li-wei,Li, Guo-xin,Gao, Fei,Wang, Tao,Liang, Chao,Ye, Chao,Wu, Ji-qiang,Huang, Qinfeng,Tong, Guang-zhi,Tong, Wu,Zheng, Hao,Li, Li-wei,Li, Guo-xin,Gao, Fei,Huang, Qinfeng,Tong, Guang-zhi.

[3]Safety and immunogenicity of a gE/gI/TK gene-deleted pseudorabies virus variant expressing the E2 protein of classical swine fever virus in pigs. Lei, Jian-Lin,Xia, Shui-Li,Wang, Yimin,Du, Mingliang,Xiang, Guang-Tao,Cong, Xin,Luo, Yuzi,Li, Lian-Feng,Zhang, Lingkai,Yu, Jiahui,Qiu, Hua-Ji,Sun, Yuan,Lei, Jian-Lin,Hu, Yonghao.

[4]Global copy number analyses by next generation sequencing provide insight into pig genome variation. Jiang, Jicai,Wang, Haifei,Kang, Huimin,Feng, Xiaotian,Zhang, Qin,Liu, Jian-Feng,Wang, Jiying,Zhang, Yan,Wang, Jiafu,Yin, Zongjun,Bao, Wenbin. 2014

[5]Transcriptomic Analysis of the Porcine Endometrium during Embryo Implantation. Lin, Haichao,Wang, Huaizhong,Wang, Yanping,Liu, Chang,Wang, Cheng,Guo, Jianfeng,Lin, Haichao,Wang, Yanping,Liu, Chang,Guo, Jianfeng. 2015

[6]Transcriptomic Analysis Identifies Candidate Genes and Gene Sets Controlling the Response of Porcine Peripheral Blood Mononuclear Cells to Poly I:C Stimulation. Wang, Jiying,Wang, Yanping,Wang, Huaizhong,Wu, Ying,Guo, Jianfeng,Wang, Haifei,Liu, Jian-Feng. 2016

[7]Dietary supplementation with a high dose of daidzein enhances the antioxidant capacity in swine muscle but experts pro-oxidant function in liver and fat tissues. Chen, Wei,Ma, Xianyong,Lin, Yingcai,Xiong, Yunxia,Zheng, Chuntian,Hu, Youjun,Yu, Deqian,Jiang, Zongyong,Chen, Wei,Ma, Xianyong,Lin, Yingcai,Xiong, Yunxia,Zheng, Chuntian,Hu, Youjun,Yu, Deqian,Jiang, Zongyong,Chen, Wei,Ma, Xianyong,Lin, Yingcai,Xiong, Yunxia,Zheng, Chuntian,Hu, Youjun,Yu, Deqian,Jiang, Zongyong,Chen, Wei,Ma, Xianyong,Lin, Yingcai,Xiong, Yunxia,Zheng, Chuntian,Hu, Youjun,Yu, Deqian,Jiang, Zongyong,Chen, Wei,Ma, Xianyong,Lin, Yingcai,Xiong, Yunxia,Zheng, Chuntian,Hu, Youjun,Yu, Deqian,Jiang, Zongyong. 2016

[8]High prevalence and widespread distribution of multi-resistant Escherichia coli isolates in pigs and poultry in China. Jiang, Hong-Xia,Chen, Zhang-Liu,Wang, Xiu-Mei,Chen, Ji-Rong,Liu, Ya-Hong,Liao, Xiao-Ping,Liu, Jian-Hua,Zeng, Zhen-Ling,Lue, Dian-Hong. 2011

[9]Performances of Different Fragment Sizes for Reduced Representation Bisulfite Sequencing in Pigs. Yuan, Xiao-Long,Zhang, Zhe,Pan, Rong-Yang,Gao, Ning,Deng, Xi,Li, Bin,Zhang, Hao,Li, Jia-Qi,Yuan, Xiao-Long,Sangild, Per Torp,Gao, Ning. 2017

[10]Metagenomic Analysis of Cecal Microbiome Identified Microbiota and Functional Capacities Associated with Feed Efficiency in Landrace Finishing Pigs. Tan, Zhen,Yang, Ting,Wang, Yuan,Xing, Kai,Zhang, Fengxia,Zhao, Xitong,Liu, Jianfeng,Wang, Chuduan,Ao, Hong,Chen, Shaokang. 2017

[11]Molecular cloning, tissue distribution and ontogenetic expression of sodium proton exchanger isoform 2 (NHE-2) mRNA in the small intestine of pigs. Feng, D.,Wang, T.,Feng, D.,Zhi, A.,Zou, S.,Zhou, X.,Zuo, J.,Huang, Z.,Zhi, A.. 2009

[12]Feeding brittle culm1 whole crop rice replacing wheat by-products to growing-finishing pigs. Wang, H. F.,Liu, J. X.,Qian, Q.,Wu, Y. M.. 2006

[13]Detection of differentially expressed genes in the longissimus dorsi of Northeastern Indigenous and Large White pigs. Gao, Y.,Jiang, H.,Wang, S.,Sun, G. J.,Li, F. J.,Deng, Q.,Dai, L. S.,Cui, X. S.,Liu, D. F.,Zhang, J. B.,Zhang, Y. H.,Ma, Q.,Zhao, Z. H.,Xiao, S. Q.,Zhang, S. M.. 2011

[14]Selection of Reference Genes for Gene Expression Studies in Porcine Whole Blood and Peripheral Blood Mononuclear Cells under Polyinosinic:Polycytidylic Acid Stimulation. Wang, Jiying,Wang, Yanping,Wang, Huaizhong,Hao, Xiaojing,Wu, Ying,Guo, Jianfeng. 2014

[15]Renaturation and purification of ApxII toxin of Actinobacillus pleuropneumoniae. Wang, Chunlai,Liu, Siguo,Peng, Yonggang,Shao, Meili,Wang, Yong,Gong, Qiang,Chang, Yuehong,Liu, Jiandong,Liu, Huifang,Liu, Di,Kong, Xiangang.

[16]High prevalence of bovine viral diarrhea virus 1 in Chinese swine herds. Deng, Yu,Sun, Chun-Qing,Lin, Tao,Yuan, Shi-Shan,Zhang, Hong-Biao,Zhai, Shao-Lun,Huang, Lv,Shan, Tong-Ling,Zheng, Hao,Tong, Guang-Zhi,Deng, Yu,Cao, San-Jie,Shan, Tong-Ling,Wen, Xin-Tian,Deng, Yu.

[17]Molecular characterization and expression analysis of the porcine caveolin-3 gene. Zhu, Zhengmao,Li, Yong,Mo, Delin,Li, Kui,Zhao, Shuhong.

[18]Fusion of C3d with hemagglutinin enhances protective immunity against swine influenza virus. Li, Guo-Xin,Tian, Zhi-Jun,Yu, Hai,Jin, Yuan-Yuan,Hou, Shao-Hua,Zhou, Yan-Jun,Liu, Tian-Qiang,Hu, Shou-Ping,Tong, Guang-Zhi,Li, Guo-Xin,Tong, Guang-Zhi,Li, Guo-Xin,Yu, Hai,Zhou, Yan-Jun,Tong, Guang-Zhi.

[19]Improved Detection and Characterization of Copy Number Variations Among Diverse Pig Breeds by Array CGH. Wang, Jiying,Jiang, Jicai,Wang, Haifei,Kang, Huimin,Zhang, Qin,Liu, Jian-Feng,Wang, Jiying. 2015

[20]Mutation of the XIST gene upregulates expression of X-linked genes but decreases the developmental rates of cloned male porcine embryos. Yang, Yang,Wu, Dan,Liu, Dewu,Quan, Jianping,Cai, Gengyuan,Zheng, Enqin,Wu, Zhenfang,Li, Zicong,Yang, Yang,Wu, Dan,Liu, Dewu,Quan, Jianping,Cai, Gengyuan,Zheng, Enqin,Wu, Zhenfang,Li, Zicong,Shi, Junsong,Zhou, Rong,He, Xiaoyan.

作者其他论文 更多>>

微信小程序