Construction of Brucella abortus A19 VirB Promoter Deletion Strain and Study on Its Biological Characteristics     

DENG Xiaoyu  HE Jinke  YANG Qin  YI Jihai  WANG Yueli  XI Jing  WANG Zhen  CHEN Chuangfu 《中国畜牧兽医》2020,47(3):864-872

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标记抗体染色法检查布氏杆菌的研究     

项光华  文奋武 《甘肃农业大学学报》1990,25(1):95-104

为了建立一种快速、简便、敏感、特异地检测动物病理材料中布氏杆菌的方法,选用四种标记抗体法,对5种共15个生物型的布氏杆菌,以及大量与流产有关或常常污染病理材料的对照细菌,分别进行了纯菌、感染实验动物及牦牛组织材料的染色检查,并与柯氏染色法及细菌分离培养法进行了比较。结果表明,四种方法对于各种材料中的布氏杆菌(粗糙型犬布氏菌除外)均呈阳性反应,而绝大多数对照菌均呈阴性反应。其中尤以SPA法染色背景更为清晰,非特异性反应更少。这些方法既简便、快速,检出率也较高。对于布氏杆菌病的诊断和疫情监测,是很有价值的。  相似文献   

Preliminary Study on NF-κB Signaling Pathway Regulating Brucella Intracellular Survival Molecular Mechanisms     

YI Ji-hai  ZHANG Jun-bo  LI Shuang  WANG Xi-chu  ZHANG Hui  CHEN Chuang-fu 《中国畜牧兽医》2016,43(3):592-600

By the infection of Brucella virulent strain and attenuated strain in mice macrophage RAW264.7,the assay was aimed to explore the relationship between NF-κB signaling pathways and Brucella virulent strain and attenuated strain in intracellular survival.Use different MOI Brucella (2308,RB51,16M and M5) to infect mice macrophage RAW264.7,after 0,4,8 and 24 h infected,cracking cell and collecting supernatant,we detected the effect of Brucella on activation of NF-κB signaling pathway by Western blotting.Different concentrations of NF-κB signaling pathway inhibitor were incubated with mice macrophage RAW264.7,with different multiplicities of infection (MOI) of Brucella infecting cells,ELISA kits to detect the expressions of TNF-α,IL-1β and IL-6 cytokine;At the same time,count the number of intracellular bacteria of CFU.The results showed that rough cattle Brucella strains RB51 could strongly activate NF-κB signaling pathway,smooth cattle Brucella strains 2308 was weak in the activation;At the same time,the activation of NF-κB signaling pathway was concentration dependent.When the MOI was 80,infection time was 8 h,NF-κB activation degrees of rough cattle Brucella strains RB51 and smooth cattle Brucella strains 2308 were the strongest,and this pathway was involved in producing TNF-α and IL-6;NF-κB signaling pathway inhibitor BAY11-7082 affected Brucella intracellular survival.So rough cattle Brucella strains RB51 intracellular survival and NF-κB signaling pathway activity were closely related.The results laid the foundation for the further study of Brucella intracellular pathogenesis,also provided scientific basis for the research of new drugs to Brucella,and prevention and treatment of brucellosis.  相似文献   

Effect on Expression of SUMO-1 in Cells Infected by Brucella and Construction of Lentivirus Vector that Over-expressing SUMO-1     

LI Qi-feng  DING Jin-hua  DOU Wen-jing  ZHANG Hui  CHEN Chuang-fu 《中国畜牧兽医》2016,43(6):1422-1429

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Effect of AIR on Inflammatory Reaction Infected by Brucella     

XU Ya-fang  CHEN Chuang-fu  WANG Hao  FU Qiang  SHI Hui-jun  SUN Zhi-hua  ZHANG Hui  GUO Fei 《中国畜牧兽医》2016,43(6):1437-1445

In order to investigate the effect of AIR on inflammatory reaction infected by Brucellamelitensis (16M), the AIR domain of Tecpr1 gene of murine macrophages RAW264.7 were knocked down (I-A), overexpressed (O-A) and reversed (OA-IA). Using the chlorine fluorescein (DCFH-DA) as a probe, we detected the variation of ROS production and mitochondria distribution by confocal laser scanning microscopy. We observed the expression changes of NLRP3, ASC and Caspase-1 by qRT-PCR and the expression changes of IL-18,IL-1β and Caspase-1 in host cells by ELISA. The results showed that 16M could stimulate RAW264.7 cells to produce ROS by time-dependent pathway, and I-A group and O-A group showed more abnormal accumulation of mitochondrial. The results of qRT-PCR and ELISA suggested that it had effect on the expression levels of NLRP3, ASC,Caspase-1 and IL-18, IL-1β and Caspase-1 in cells of different groups. Those results indicated that with AIR gene deletion, the release amount of ROS changed, mitochondrial clustered abnormally, and AIR was closely related to the activation of inflammasomes and induction of inflammatory reactions.  相似文献   

Effects of vaccination against brucellosis and clostridia on the intake,performance, feeding behavior,blood parameters,and immune responses of dairy heifers calves     

Hilton C Diniz Neto  Mayara C Lombardi  Mariana M Campos  Andrey P Lage  Rodrigo O S Silva  Elaine Maria Seles Dorneles  Camila Flvia A Lage  Wanessa A Carvalho  Fernanda S Machado  Luiz Gustavo R Pereira  Thierry R Tomich  Carolina P Ramos  Ronnie A Assis  Francisco Carlos F Lobato  Jordana A Santana  Ethiene Luiza S Santos  Rafaella S Andrade  Sandra G Coelho 《Journal of animal science》2021,99(5)

The aim of this study was to identify possible effects of different vaccination strategies (concomitantly or not) against brucellosis and clostridia on intake, performance, feeding behavior, blood parameters, and immune responses of dairy heifers calves. Fifty heifers calves were enrolled [38 Gyr (Zebu, Bos taurus indicus) and 12 5/8 Holstein Gyr]. At 120 d of age, animals were randomly distributed among 3 groups: B (n = 18), vaccinated against brucellosis; C (n = 14), vaccinated against clostridia and CB (n = 18), vaccinated concomitantly for both. Rectal and thermographic temperatures were evaluated on days 1, 0, 1, 2, 3, 5, 7,10, 14, and 28 relatives to the vaccination day. Feed and water intake, body weight (BW), and feeding behavior were monitored daily by an electronic feeding system. Blood was sampled on days 0, 3, 7, 14, and 28, relative to the vaccination day for determination of glucose and -hydroxybutyrate (BHBA) concentrations. Blood sampled on day 0 (prevaccination) and on days 28 and 42 were used to evaluate the immune response against Brucella abortus and clostridia. There was an increase in rectal temperature between the first and the third day postvaccination in the 3 groups. The thermography revealed an increase of local temperature for 7 d on groups B and CB. Group C had increased local temperature for a longer period, lasting for up to 14 d. Dry mater intake was reduced for groups B and CB, but no alteration was observed for group C. No alterations regarding initial BW, final BW, average daily weight gain, and feed efficiency were observed. No differences were observed for the 3 vaccination groups for blood parameters throughout the evaluation period. The concomitant vaccination against brucellosis and clostridia led to lower neutralizing antibody titers against epsilon toxin of Clostridium perfringens and botulinum toxin type C of C. botulinum (C > CB > B). When cellular proliferation assay and serological tests to B. abortus were evaluated, no differences were observed between groups B and CB. The present results indicate that the concomitant vaccination against brucellosis and clostridia has no relevant impact on the intake, performance, and feeding behavior of dairy calves. However, the concomitant vaccination of vaccines against these 2 pathogens impacts animal immunity against clostridial infections.  相似文献   

布鲁菌介导细胞自噬的研究进展     

顾国婧  李博文  李文杰  周志雄  罗艺晨  帅学宏  赵宇  陈吉轩  黄庆洲  伍莉  焦寒伟 《中国兽医学报》2021,(2):381-387

布鲁菌是布鲁菌病的病原体,在世界范围内给养殖业带来巨大损失。自噬是细胞的一种代谢方式,细胞在自噬相关基因的调控下清除细胞内病原微生物和吞噬降解受损、衰老细胞器及大分子物质,以维持机体内环境平衡。布鲁菌入侵细胞后,能够诱发细胞自噬,而这一复杂的过程需要很多细胞因子的参与,探究布鲁菌引发的细胞自噬已成为揭示布鲁菌致病机制的新热点,现就这一新热点的研究进展进行综述。  相似文献   

The Fluorescent Characterization and Analysis of Two Brucella Attenuated Vaccine Infecting Mouse Macrophagocyte     

HU Meng-wei  LIU Peng-tao  YAN Guo  GAO Jian-feng 《中国畜牧兽医》2016,43(8):1944-1950

The experiment was conducted to discuss the difference of binding time of green fluorescent protein B.melitensis M5 (GFP-M5) and B.abortus S19 (GFP-S19) infecting the mouse macrophagocyte (RAW264.7),lysosome,endoplasmic reticulum and golgi body in the initial stage and compare the binding rate of GFP-M5,GFP-S19 with organelle in different timeline,respectively,by confocal laser scanning microscope (CLSM) and flow cytometry.The result showed that GFP-M5 and GFP-S19 were successfully constructed.The intracellular survival ability of Brucella M5,Brucella S19,GFP-M5 and GFP-S19 were not obvisouly affected after infecting RAW264.7.GFP-M5 and GFP-S19 could enter the macrophagocyte in 30 mins,and in 2 h the Brucella could reach lysosome,endoplasmic reticulum and golgi body.In addition,the binding time for two attenuated vaccine did not show differences in 1,2,3 and 4 h.The content of GFP⁺ cell produced by RAW264.7 infected by GFP-M5 and GFP-S19 did not show significant differences (P>0.05).Therefore,the two strains did not have significant differences in the invasion ability in the initial stage of infecting host cell.  相似文献   

布鲁菌赤藓醇代谢研究概况     

景志刚  董浩  刘冠慧 《动物医学进展》2016,(12):109-112

布鲁菌感染动物后可以逃避宿主免疫系统清除而长期存在,并严重侵害动物生殖系统。赤藓醇是布鲁菌的一种优势碳源,对布鲁菌的生长具有明显促进作用。在布鲁菌基因组中已经鉴定出6个与赤藓醇代谢相关的基因,布鲁菌的赤藓醇代谢途径也基本研究清楚。缺失布鲁菌赤藓醇代谢相关基因会造成布鲁菌在多种感染模型中的生存能力不同程度的改变。论文从布鲁菌对赤藓醇的亲嗜性、赤藓醇代谢通路及转运、赤藓醇代谢的基因调控、赤藓醇对布鲁菌毒力影响等方面进行了综述。  相似文献   

NO/ADMA在布鲁菌侵染小鼠机体过程中的响应特征     

胡梦薇  许万云  刘朋涛  严国  汪文伦  高剑峰 《动物医学进展》2016,(2):50-56

本试验旨在研究布鲁菌侵染小鼠过程中一氧化氮(NO)的作用,以及NO和非对称性二甲基精氨酸(ADMA)在此过程的相互作用关系。以布鲁菌标准疫苗株M5侵染小鼠,首先用小鼠的血清进行虎红平板凝集(RBPT)和试管凝集试验(SAT),再用Griess试剂法和ELISA法测定对照组和侵染组不同组织和血清中的NO和ADMA含量,对小鼠肝脏和脾脏的各个侵染时间段进行CFU计数观察。结果显示,用布鲁菌M5侵染小鼠后,RBPT和SAT在14d时检测到有阳性反应。侵染组和空白对照组NO总含量上变化不大,但侵染组血清中的NO含量随时间出现下降,而肝脾中NO含量随时间出现上升,其他各组织NO含量波动不明显。而ADMA的总趋势与NO相反。CFU计数结果显示,小鼠肝脾内布鲁菌的数量在14d时一直处于增长状态,28d时布鲁菌的数量下降,表明布鲁菌的分裂繁殖和机体NO的含量存在一定的关系。  相似文献