羊流产衣原体的分离鉴定及间接免疫荧光法检测

对收集的疑似衣原体感染的羊流产胎儿样本接种鸡胚卵黄囊进行分离培养,通过PCR-RFLP(限制性片段长度多态性分析)方法鉴定为流产衣原体。将收集到的流产衣原体阳性样本接种Hela229细胞,应用基于流产衣原体MOMP单克隆抗体的间接免疫荧光法,在Hela229细胞浆内可见呈绿色荧光的衣原体包涵体,进一步在病原学水平上确定发生在甘肃省肃南县羊流产的病原为流产衣原体。     

粗糙型布鲁菌M111菌壳的制备

将含有裂解酶基因重组温控裂解质粒pBBR1MCS：：PR-PL-E电转化至粗糙型布鲁菌M111中，构建重组布鲁菌M111（pBBRlMCS：：PR-PL-E）。重组菌株在28℃培养，42℃诱导表达裂解酶E，从而制备布鲁菌菌壳。绘制布鲁菌生长曲线及裂解曲线，计算裂解率并用透射电镜观察布鲁菌菌壳的形态。结果显示，成功制备了布鲁菌菌壳，温控裂解质粒pBBRIMCS：：PR-PL-E对布鲁菌的裂解率为100％。透射电镜观察可见细菌内容物部分流出，细菌表面出现不同程度的皱缩，细胞形态发生变化。结果表明，本试验成功制备了粗糙型布鲁菌菌壳，初步研究了其基本特性，为下-步开展布鲁菌菌壳疫苗的研究奠定了基础。     

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

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.     

Effect of AIR on Inflammatory Reaction Infected by Brucella

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.     

布鲁菌外膜蛋白OMP10表达及其抗原性的研究

设计1对特异性引物对羊布鲁菌16M总DNA进行外膜蛋白omp10的PCR扩增,得到了一个大小为330 bp的目的基因片段(去掉17个氨基酸编码的信号肽),测序证实它与国外报道的羊布鲁菌omp10基因完全一致.将其克隆到表达载体PET-30a中,经酶切、PCR扩增和测序分析,表明重组表达载体构建成功.将此重组质粒转化入大肠埃希菌BL21(DE3)中,IPTG诱导表达,该基因以包涵体的形式在大肠埃希菌中表达,经过包涵体的变性、复性和亲和层析纯化,成功获得大小为14.2 ku的融合蛋白,与理论推测的蛋白分子质量一致;Western blot和间接ELISA试验证明,纯化之后的OMP10重组蛋白可以被布鲁菌阳性血清识别.     

布鲁菌介导细胞自噬的研究进展

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。     

STAT6介导的巨噬细胞极化对布鲁氏菌胞内存活的影响

旨在探讨STAT6介导的巨噬细胞极化对布鲁氏菌胞内生存的影响。本研究采用布鲁氏菌光滑株S2308（S2308）和粗糙型疫苗株RB51（RB51）侵染巨噬细胞。利用qRT-PCR检测M1型巨噬细胞标志因子p65、NOS2和IL-1β,M2型巨噬细胞标志因子STAT6、ARG1、IL-10的mRNA表达水平;流式细胞术检测M1型标记分子CD86和M2型标记分子CD206的表达;Western blot检测p-STAT6蛋白及抑制剂AS对蛋白的抑制作用;ELISA检测M1型细胞因子TNF-α、IL-12和M2型细胞因子IL-4、IL-10的表达量;最后对胞内菌落进行CFU计数。qRT-PCR结果显示,在感染8、12 h时可显著诱导M1型因子mRNA转录表达,72 h时低表达,而M2型因子在72 h时高表达;流式细胞术结果显示,S2308感染12 h可显著诱导CD86的表达,感染72 h可显著诱导CD206的表达,但RB51对二者无影响;Western blot结果显示,S2308菌株在感染72 h时激活STAT6信号通路,而RB51几乎不激活该通路,抑制剂AS在2 μmol·L^-1浓度时抑制效果最佳;ELISA结果显示,AS抑制剂可显著抑制IL-4、IL-10的释放,并促进TNF-α、IL-12的释放;CFU计数结果显示,S2308组的胞内菌呈先降低后显著上升趋势,加入AS抑制剂后可显著抑制布鲁氏菌胞内复制。布鲁氏菌S2308在感染后期能够通过STAT6诱导M1型巨噬细胞向M2型转化,并促进Th2型细胞因子的释放,从而有利于布鲁氏菌的胞内生存。而RB51几乎不激活该通路,不影响胞内生存。     

新疆地区2株驴源马流产沙门菌的分离鉴定及致病性分析

[目的] 研究确定导致新疆地区2个规模化驴场出现流产的疑似病原沙门菌,并探究其致病能力和耐药性情况。[方法] 通过细菌分离培养、形态学观察、生化试验对分离菌进行了鉴定,并对分离菌的鞭毛基因FliC进行了PCR扩增及序列分析,通过致病性测定、荷菌量检测及病理组织学观察,鉴定和分析了分离菌的致病性,并通过药敏试验分析其耐药性。[结果] 通过细菌分离培养、形态学观察、生化试验,确定分离到的2株细菌均为马流产沙门菌,分别命名为G1-1和XD1-2。对这2个分离株的鞭毛基因FliC的遗传进化分析结果显示,2株分离菌FliC氨基酸序列之间的相似性为99.0%,2株分离菌FliC氨基酸序列与爱尔兰马源马流产沙门菌分离株Ireland-HE801373、Ireland-HE801378株相似性均最高,且均为99.3%;分离株G1-1与爱尔兰马源马流产沙门菌分离株Ireland-HE801373和Ireland-HE801378及国内马源马流产沙门菌分离株China-KJ486797.1和China-KJ486769.1亲缘关系较近,分离株XD1-2则与美国肠炎沙门菌分离株USA-EBQ1214032.1亲缘关系较近,相似性分析与进化树结果一致。小鼠致病性试验显示,2株分离菌对小鼠的毒性均较强且致病性存在差异,XD1-2对小鼠的致病性强于G1-1。分离菌G1-1对9种抗菌药物耐药,对11种抗菌药物敏感。分离菌XD1-2对11种抗菌药物耐药,对5种抗菌药物敏感。[结论] 本试验成功分离到2株驴源沙门菌,不同养殖场来源的驴源沙门菌的致病能力和耐药性有一定差异,对鞭毛基因FliC的进化分析也显示出差异,本研究结果为驴源沙门菌的防治提供了一定的参考依据。