李斯特菌溶血素基因的原核表达及其生物学特性

李斯特菌溶血素(LLO)是产单核细胞李斯特菌的主要毒力因子,利用PCR技术从血清型4b的产单核细胞李斯特菌菌株中扩增出编码LLO的hly基因,经克隆筛选和测序鉴定后,构建成该基因的原核表达质粒pGEX6P1hly,SDSPAGE结果表明：LLO与谷胱甘肽在大肠杆菌中已融合表达,融合蛋白的分子量为82kD;溶血实验证明融合蛋白具有较强的裂解真核细胞膜的作用,表明表达产物LLO具有生物活性,其溶血效价达2.26×101.4 HU/mg,这为进一步研究其致病与免疫机理、单抗研制和疫苗设计提供了条件。     

2016-2018年辽宁省食品中单核细胞增生李斯特菌污染情况及毒力基因的检测

目的了解辽宁省食品中单核细胞增生李斯特菌毒力基因携带特点,对该省食品中单核细胞增生李斯特菌的污染情况进行调查。方法依据GB 4789.30-2016《食品安全国家标准 食品微生物学检验 单核细胞增生李斯特氏菌检验》及采用PCR扩增技术检测的方法对2016-2018年采自该省15个监测点、收集的3 310份食品检出的47株单核细胞增生李斯特菌进行9种毒力基因检测。结果食品中单核细胞增生李斯特菌检出率为1.42%(47/3310),食品中单核细胞增生李斯特菌最少携带3种毒力基因,其中携带prfA、plcA、hly、mpl、plcB、inlA、inlB和iap八种毒力基因是该省食品中单核细胞增生李斯特菌的主要毒力基因型,达到检出菌总数的65.96%。结论研究结果证实辽宁省食品中存在单核细胞增生李斯特菌污染情况,应严格监控食品中单核细胞增生李斯特菌的携带情况。     

利用转座子Tn917构建单核细胞增生李斯特菌菌膜形成突变株

单核细胞增生李斯特菌菌膜形成相关基因和调控因子的分离和鉴定是阐明其菌膜形成分子机理的基础。利用原生质体转化这一方式,将带有转座子Tn917的质粒pTV1OK成功地转进了单核细胞增生李斯特菌。通过诱导Tn917转座,得到单核细胞增生李斯特菌Tn917插入突变库,转座率为10-7。经96孔细胞培养板筛选发现,菌株LM49形成菌膜能力明显大于野生型。该菌株在细胞培养板中培养４d后形成的紫色圆环的颜色明显深于野生型。用Tn917特异引物进行PCR扩增,结果显示只有以该突变株的DNA为模板才能得到相应大小的扩增产物,证实该菌株基因组中有Tn917插入。Tn917的插入使菌株LM49的菌膜形成能力增强。     

CodY在单核细胞增生李斯特菌运动和毒力方面的作用

目的:探究全局性转录调控因子CodY在单核细胞增生李斯特菌(Listeria monocytogenes,Lm)鞭毛运动和细菌毒力方面的作用。方法:通过同源重组的方法敲除Lm染色体上CodY的编码基因codY并成功构建缺失菌株的回复菌株;利用平板泳动法观测鞭毛运动的变化,RT-qPCR检测与鞭毛运动相关基因的转录表达;比较野生型菌株EGDe与CodY缺失菌株对细菌溶血活性、棉铃虫幼虫的半致死剂量和主要的毒力因子LLO和毒力基因调控蛋白PrfA转录表达的影响。结果:同野生型菌株相比,CodY缺失菌株鞭毛运动和相关基因,以及主要的毒力因子LLO和PrfA的转录表达显著降低(P≤0.01),溶血活性显著降低(P≤0.01),对棉铃虫幼虫的半致死剂量上升了5.8倍。结论:CodY在Lm鞭毛运动和细菌毒力调控方面具有重要作用。     

单增李斯特菌溶血素(LLO)的原核表达及其生物学活性鉴定

利用生物软件设计单增李斯特菌溶血素蛋白的基因hly的引物,通过PCR扩增hly基因,并将其克隆至PET28a(+)原核表达载体,转化大肠杆菌BL21进行优化表达。用镍柱纯化表达产物LLO,通过免疫印记鉴定其免疫原性,并通过溶血实验鉴定其溶血活性。琼脂糖凝胶电泳结果表明PCR扩增出1 590 bp的片段,经测序鉴定其序列同源性可达99%。SDS-PAGE结果表明诱导表达的产物大小约为58 kD,其最优化的表达条件是28°C下用0.1 mmol/L IPTG诱导6 h。Western blotting结果表明重组表达的LLO具有免疫原性;溶血实验表明重组表达的LLO具有较强的溶血活性,其溶血效价可达1:1 024。这为制备针对单增李斯特菌的单克隆抗体及其检测方法的建立奠定了基础。     

单核细胞增生性李斯特菌prfA基因缺失株的构建及其生物学特性

【目的】单核细胞增生性李斯特菌(Lm)是人兽共患李斯特菌病的病原菌,其致病性与调控因子PrfA蛋白作用下毒力基因的表达有着密切关系,本文初步探讨了PrfA蛋白对细菌毒力因子的调控作用。【方法】利用同源重组技术对血清型分别为1/2a和4b的LM4、F4636进行prfA基因的敲除,并构建其回复突变株,对获得的突变株LM4ΔprfA、F4636ΔprfA进行生物学特性研究。【结果】实验结果表明:两株缺失株的溶血活性丧失、回复突变株的溶血活性得到恢复,突变株还丧失磷脂酶活性,黏附和侵袭特性显著下降(P<0.05),对BALB/c小鼠的半数致死剂量提高了105个数量级。【结论】由此表明,PrfA蛋白对hly、plcB、inl家族基因的表达及细菌毒力具有重要的调控作用。prfA基因缺失株的构建为进一步研究PrfA蛋白的调控功能提供了材料,为研究其在Lm致病性中的作用奠定了基础。     

rmlB基因在单核细胞增生李斯特菌耐药性、生物被膜形成和毒力方面的作用

【目的】探究单核细胞增生李斯特菌(Listeria monocytogenes,Lm)rmlB基因在细菌耐药、生物被膜形成和毒力方面的作用。【方法】通过同源重组的方法敲除Lm染色体上的rmlB基因,比较野生株与rmlB缺失株在耐药性方面的差异;利用微孔板法观测rmlB缺失菌株生物被膜形成能力的变化;利用RT-PCR检测缺失菌株中主要毒力基因转录表达,并观察rmlB缺失对细菌溶血活性的影响。【结果】同野生菌株相比,rmlB缺失菌株对头孢菌素和杆菌肽等作用位点在细菌细胞壁和细胞膜的敏感性显著增加(P≤0.01),生物被膜形成能力显著降低(P≤0.01),细菌主要毒力基因hly的转录表达及溶血活性也发生显著降低(P≤0.01)。【结论】rmlB基因在Lm生物被膜形成和耐受作用位点位于细胞壁和细胞膜的抗生素及细菌毒力方面具有重要作用。     

单增李斯特菌溶血素O的功能研究进展

单核细胞增生李斯特菌(Listeria monocytogenes, Lm,简称单增李斯特菌)是一种普遍存在的革兰阳性食源性病原体,可引起人类和一些动物的李斯特菌病。侵袭性李斯特菌病通常很严重,临床上表现为自然流产、败血症和脑膜脑炎,也可表现为发热性胃肠炎综合症。成孔蛋白单增李斯特菌溶血素O(Listeriolysin O,LLO,由hly基因编码)是一种重要的毒力因子,属于胆固醇依赖性细胞溶解素(cholesterol-dependent cytolysins,CDC)毒素,其通过膜穿孔机制介导Lm从吞噬体逃逸并引起李斯特菌病。最近的研究表明LLO除了主要的膜穿孔作用,还存在其他功能,在Lm感染过程中扮演了重要的角色。从LLO的功能和作用机制等方面综述了近些年对该毒素的研究进展,以便更好地理解单增李斯特菌的感染机制,为防治李斯特病的相关研究提供参考。     

天然缺失inlAB的非典型单核细胞增多性李斯特菌生物学特性鉴定

摘要：【目的】 InlA与InlB是单核细胞增多性李斯特菌重要的毒力因子,其介导的黏附作用是细菌建立感染的前提。本研究拟探明天然缺失inlAB基因簇的非典型单增李斯特菌的表型与基因型特征。【方法】针对inlAB天然缺失株S10,进行生化特征、细胞黏附力、小鼠体内毒力、感染相关基因检测、谱系分析等。【结果】 S10株为具有典型单增李斯特菌生化特征的1/2b型菌株,对HeLa细胞的黏附力显著低于其他菌株（p<0.05）,对小鼠毒力较弱。S10缺失inlAB及与其毗邻的lmo0431、lmo0432、lmo0436、lmo0437基因,但具有李斯特菌第一毒力岛中完整的毒力基因构成。S10分布于谱系Ⅰ的进化枝上,与4b型菌株的遗传距离较近。【结论】 S10为单增李斯特菌inlAB天然缺失株代表该类非典型菌株的首次报道。S10具有典型的单增李斯特菌谱系Ⅰ基因背景,inlAB可能通过独立的重组或水平转移事件缺失于基因组。     

进口竹荚鱼中单核细胞增生李斯特菌的鉴定及其鞭毛蛋白的原核表达

【目的】对进口竹荚鱼中分离的一株病原菌S1-2进行鉴定,并在大肠杆菌中表达其鞭毛蛋白。【方法】采用全自动微生物鉴定仪和革兰氏阳性菌鉴定卡进行生理生化反应测试,利用iap基因实时荧光PCR特异性扩增检测病原菌。通过PCR技术扩增病原菌S1-2的鞭毛蛋白flaA基因,克隆筛选和测序鉴定后,构建该基因的原核表达质粒pET22b-flaA,镍柱法纯化表达产物,通过免疫印迹鉴定其免疫原性。【结果】分离病原菌为革兰氏阳性菌,生理生化特征与单核细胞增生李斯特菌(Listeria monocytogenes)的相似性为99%,协同溶血实验在靠近金黄色葡萄球菌的接种端溶血增强。SDS-PAGE结果表明融合表达产物分子量约为32 kD,Western blot结果表明重组表达的鞭毛蛋白具有免疫原性。【结论】flaA基因的原核表达为制备单核细胞增生李斯特菌的单克隆抗体及其检测方法的建立奠定了基础。     

Characterization of a mutant Listeria monocytogenes strain expressing green fluorescent protein

To construct a recombinant strain of Listeria monocytogenes for the expression of heterologous genes, homologous recombination was utilized for insertional mutation, targeting its listeriolysin O gene (hly). The gene encoding green fluorescent protein (GFP) was used as the indicator of heterologous gene expression. The gene gfp was inserted into hly downstream from its promoter and signal sequence by an overlapping extension polymerase chain reaction, and was then cloned into the shuttle plasmid pKSV7 for allelic exchange with the L. monocytogenes chromosome. Homologous recombination was achieved by growing the electro-transformed L. monocytogenes cells on chloramphenicol plates at a non-permissive temperature. Sequencing analysis indicated correct insertion of the target gene in-frame with the signal sequence. The recombinant strain expressed GFP constitutively as revealed by fluorescence microscopy. The mutant strain L. monocytogenes hly-gfp lost its hemolytic activity as visualized on the blood agar or when analyzed with the culture supernatant samples. Such insertional mutation resulted in a reduced virulence of about 2 logs less than its parent strain L. monocytogenes 10403s as shown by the 50%-lethal-dose assays in the mouse and embryonated chicken egg models. These results thus demonstrate that mutated L. monocytogeues could be a potential carrier for the expression of heterologous passenger genes or could act as an indicator organism in the food industry.     

Listeria monocytogenes Mutants Carrying Newcastle Disease Virus F Gene Fused to its actA and plcB： In vitro Expression and Immunogenicity in Chickens

Recombinant Listeria monocytogenes mutants carrying Newcastle disease virus (NDV) fusionprotein gene F were constructed by homologous recombination.NDV F or its truncated fragment Fa wasused as the model heterologous gene to be integrated into actA or plcB downstream of their signal sequences.Correct orientation of the inserted genes was verified by polymerase chain reaction amplification of F or Fa.The inserted F and Fa were expressed in the two recombinants Lm-AactA-F and Lm-AplcB-Fa as shown bysodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blot.Both recombinantsexhibited reduced virulence to embryonated eggs and mice by about 1.5-2.5 logs as compared with theparent wild strain 10403S. They were also less invasive than strain 10403S (P<0.05). Chickens receiving therecombinant strains orally or intraperitoneally were partially protected from virulent NDV challenge possiblydue to enhancement of non-specific immunity because the antibody titers against the homologous virus strainor the recombinant truncated fusion protein were marginal. Further research is needed in other animal modelsto see if the low antibody response results from insufficient expression of the heterologous genes as a resultof failure of L. monocytogenes or its recombinants to persist or replicate in chickens.     

Virulence Phenotyping and Molecular Characterization of a Low-pathogenicity Isolate of Listeria monocytogenes from Cow＇s Milk

A low-pathogenicity isolate of Listeria monocytogenes from cow＇s milk, as screened in mouse and chicken embryonated egg models, was examined for virulence-related phenotypic traits. Corresponding virulence genes （iap, prfA, picA, hly, mpl, actA, plcB, InlA and lnlB） were compared with L. monocytogenes reference strains 10403S and EGD to elucidate the possible molecular mechanisms of low virulence. Although L. monocytogenes H4 exhibited similar patterns to strain 10403S in terms of hemolytic activity, in vitro growth and invasiveness and even had higher adhesiveness, faster intracellular growth and higher phospholipase activity in vitro, it was substantially less virulent than the strain 10403S in mouse and chicken embryo models （50% lethal dose： 10^8.14 VS. 10^5.49 and 10^6.73 VS. 10^1.9, respectively）. The genes prfA, picA and mpl were homologous among L. monocytogenes strains H4, 10403S and EGD （〉98%）. Genes iap, hly, plcB, lnlA and lnlB of L. monocytogenes 10403S had higher homology to those of strain EGD （〉98%） than isolate H4. The homology of the gene hly between strain 10403S and isolate H4 was 96.9% at the nucleotide level, but 98.7% at the amino acid level. The actA gene of isolate H4 had deletions of 105 nucleotides corresponding to 35 amino acid deletions falling within the proline-rich region. Taken together, this study presents some clues as to reduced virulence to mice and chicken embryos of the isolate H4 probably as a result of deletion mutations of actA.     

Virulence Phenotyping and Molecular Characterization of a Low-pathogenicity Isolate of Listeria monocytogenes from Cow's Milk

A low-pathogenicity isolate of Listeria monocytogenes from cow's milk,as screened in mouseand chicken embryonated egg models,was examined for virulence-related phenotypic traits.Correspondingvirulence genes (iap,prfA,plcA,hly,mpl,actA,plcB,InlA and InlB) were compared with L.monocytogenesreference strains 10403S and EGD to elucidate the possible molecular mechanisms of low virulence.Al-though L.monocytogenes H4 exhibited similar patterns to strain 10403S in terms of hemolytic activity,invitro growth and invasiveness and even had higher adhesiveness,faster intracellular growth and higherphospholipase activity in vitro,it was substantially less virulent than the strain 10403S in mouse and chickenembryo models (50% lethal dose:10~(8.14) vs.10~(5.49) and 10~(6.73) vs.10~(1.9),respectively).The genes prfA,plcA andmpl were homologous among L.monocytogenes strains H4,10403S and EGD (>98%).Genes iap,hly,plcB,InlA and InIB of L.monocytogenes 10403S had higher homology to those of strain EGD (>98%) than isolateH4.The homology of the gene hly between strain 10403S and isolate H4 was 96.9% at the nucleotide level,but 98.7% at the amino acid level.The actA gene of isolate H4 had deletions of 105 nucleotides correspondingto 35 amino acid deletions falling Within the proline-rich region.Taken together,this study presents someclues as to reduced virulence to mice and chicken embryos of the isolate H4 probably as a result of deletionmutations of actA.     

重组质粒在减毒沙门氏菌中的稳定性及其对细菌侵袭力的影响

将含有外源基因的重组真核表达质粒pcDNA3-F和pCI-F转化减毒鼠伤寒门氏菌,探讨质粒类型和插入片段对重组质粒在细菌内的稳定性和细菌侵袭力的影响。结果表明,外源质粒可降低减毒沙门氏菌在体外的增殖能力和侵袭力,也影响细菌在鸡体内的存活力;就质粒类型而言,pCI的影响大于pcDNA3,而以携带外源基因的重组质粒影响较为显著;外源基因插入也影响质粒在宿主菌内的稳定性。提示利用减毒鼠伤寒沙门氏菌为载体传递DNA疫苗研究时,要考虑质粒类型与其在宿主菌内稳定性的关系、携带外源基因重组质粒对载体菌侵袭力和存活力的影响等问题。     

鸡IL-2/NDV-F蛋白抗原表位融合基因的表达及免疫性初探

研究鸡白细胞介素-2(chicken interleukin-2,ChIL-2)的免疫佐剂功能,构建ChIL-2与新城疫病毒F蛋白多抗原表位(NDV-F)的嵌合基因,以对鸡新城疫疫病进行防治。采用重叠延伸PCR方法通过基因柔性接头将ChIL-2基因和NDV-F多抗原表位基因构建成ChIL-2-linker-NDV-F嵌合基因并克隆入PET-32a载体,经测序鉴定后,转化BL21大肠杆菌,IPTG诱导表达6×His融合蛋白,Ni2~+亲和柱纯化,表达产物经SDS-PAGE、Western blot和间接ELISA检测和鉴定。结果表明,实验成功构建并克隆了ChIL-2-linker-NDV-F嵌合基因,嵌合基因在大肠杆菌中表达的ChIL-2-linker-NDV-F融合蛋白分子量约为48kD,表达量约占菌体蛋白总量的45%,纯化后的ChIL-2-linker-NDV-F融合蛋白能与感染NDV的鸡血清发生反应。上述结果证明ChIL-2-linker-NDV-F嵌合基因在原核细胞中能有效表达,且融合蛋白具有较强的特异性和免疫原性。     

Development of an effective polyvalent vaccine against both Marek's and Newcastle diseases based on recombinant Marek's disease virus type 1 in commercial chickens with maternal antibodies

An earlier report (M. Sakaguchi et al., Vaccine 16:472-479, 1998) showed that recombinant Marek's disease virus type 1 (rMDV1) expressing the fusion (F) protein of Newcastle disease virus (NDV-F) under the control of the simian virus 40 late promoter [rMDV1-US10L(F)] protected specific pathogen-free chickens from NDV challenge, but not commercial chickens with maternal antibodies against NDV and MDV1. In the present study, we constructed an improved polyvalent vaccine based on MDV1 against MDV and NDV in commercial chickens with maternal antibodies. The study can be summarized as follows. (i) We constructed rMDV1 expressing NDV-F under the control of the MDV1 glycoprotein B (gB) promoter [rMDV1-US10P(F)]. (ii) Much less NDV-F protein was expressed in cells infected with rMDV1-US10P(F) than in those infected with rMDV1-US10L(F). (iii) The antibody response against NDV-F and MDV1 antigens of commercial chickens vaccinated with rMDV1-US10P(F) was much stronger and faster than with rMDV1-US10L(F), and a high level of antibody against NDV-F persisted for over 80 weeks postvaccination. (iv) rMDV1-US10P(F) was readily reisolated from the vaccinated chickens, and the recovered viruses were found to express NDV-F. (v) Vaccination of commercial chickens having maternal antibodies to rMDV1-US10P(F) completely protected them from NDV challenge. (vi) rMDV1-US10P(F) offered the same degree of protection against very virulent MDV1 as the parental MDV1 and commercial vaccines. These results indicate that rMDV1-US10P(F) is an effective and stable polyvalent vaccine against both Marek's and Newcastle diseases even in the presence of maternal antibodies.