稳定表达结核分枝杆菌ESAT-6蛋白的RAW264.7细胞系的建立

为研究结核分枝杆菌Mycobacterium tuberculosis分泌蛋白ESAT-6 (Early secreted antigenic target of 6 kDa) 对巨噬细胞相关功能的影响,将正确构建的重组质粒pEGFP-C1-ESAT-6和空载体pEGFP-C1以脂质体介导的方法转染至小鼠巨噬细胞RAW264.7中,经过G418筛选后建立稳定表达EGFP-ESAT6融合蛋白以及EGFP的细胞系,并通过RT-PCR、荧光显微镜及Western blotting方法,在基因和蛋白两个水平对所建立的稳转细胞系进行鉴定。结果证实EGFP-ESAT6融合基因成功整合入RAW264.7细胞基因组并能够稳定表达,为后续的ESAT-6调控巨噬细胞机理研究提供了平台。     

稳定表达鼠源PLEKHA1细胞系的建立及其对细胞迁移的影响

目的：构建稳定表达鼠源PLEKHA1的RAW264.7小鼠巨噬细胞系,探讨PLEKHA1过表达对巨噬细胞迁移的影响。方法：根据小鼠PLEKHA1基因序列设计引物,克隆其编码区序列,酶切后插入pCDH载体,在293FT细胞中进行病毒的包装,用获得的高滴度慢病毒感染RAW264.7细胞,建立能稳定高效表达PLEKHA1的RAW264.7细胞系;在此基础上,观察PLEKHA1对巨噬细胞迁移的影响。结果：经基因克隆、酶切、连接后,构建了鼠源PLEKHA1重组慢病毒表达载体,包装病毒感染RAW264.7细胞,经嘌呤霉素筛选后免疫印迹检测,RAW264.7细胞中PLEKHA1的蛋白表达提高近30倍;同时,发现PLEKHA1的过表达影响RAW264.7细胞的迁移。结论：构建了稳定表达小鼠PLEKHA1的RAW264.7细胞系,PLEKHA1过表达降低RAW264.7细胞的迁移能力。     

过表达Daintain促进RAW264.7细胞增殖和吞饮功能

[目的]研究过表达Daintain对巨噬细胞RAW264.7增殖和吞饮功能的影响。[方法]培养RAW264.7细胞,脂质体法导入过表达Daintain的质粒(pc DNA-DT)和空质粒(pc DNA),经G418筛选单克隆细胞株。Western Blot检测稳定转染细胞株中Daintain的表达,MTT法检测Daintain过表达对RAW264.7细胞增殖的影响,中性红染色法检测Daintian过表达对LPS诱导的RAW264.7细胞吞饮功能的影响。[结果]1对比转染pc DNA质粒的细胞株,转染pc DNA-DT质粒的细胞株中Daintian表达量增加28.7%,说明成功建立稳定过表达Daintian的RAW264.7细胞株;2在48h和72h,相对转染pc DNA的细胞株,转染pc DNA-DT的细胞株增殖明显增强;3在0.1和1μg/m L LPS诱导下,相对转染pc DNA的细胞株,转染pc DNA-DT的细胞株的吞饮作用增强。[结论]过表达Daintain促进RAW264.7细胞增殖和吞饮功能。     

结核分枝杆菌ESX-1分泌蛋白ESAT-6增强巨噬细胞吞噬功能

【目的】研究结核分枝杆菌(Mycobacterium tuberculosis)分泌蛋白ESAT-6(early secreted antigenictarget of 6 kDa)对巨噬细胞吞噬功能的影响。【方法】用重组质粒pFLAG-ESAT-6和pFLAG-EGFP转染RAW264.7细胞,经G418筛选,PCR、RT-PCR和Western blot鉴定,获得稳定表达flag-ESAT-6和flag-EGFP的RAW细胞系,然后用流式细胞术观察各稳转细胞系吞噬荧光微球的能力,并用共聚焦显微镜和菌落计数法检测稳转细胞系吞噬大肠杆菌(Escherichia coli)的能力。【结果】获得了稳定表达flag-ESAT-6的RAW-E6细胞系和表达flag-EGFP的RAW-EGFP细胞系;流式细胞术检测结果表明RAW-E6吞噬荧光微球的能力显著强于野生型细胞系RAW264.7和对照细胞系RAW-EGFP;菌落计数和激光共聚焦分析表明RAW-E6细胞系吞噬E.coli的能力也显著强于RAW264.7和RAW-EGFP。【结论】通过胞内表达发现结核分枝杆菌分泌蛋白ESAT-6能够增强巨噬细胞的吞噬功能,这将为深入理解结核分枝杆菌的致病机制提供新的思路。     

抗病毒基因MxA真核表达载体的构建及在鸡细胞中的表达

将人抗病毒蛋白基因MxA与携带增强型绿色荧光蛋白(EGFP)基因的真核表达质粒重组后构建MxA基因真核表达载体pEGFP-C1-MxA.经PCR和酶切方法鉴定后,重组质粒在脂质体介导下转染鸡成纤维细胞和睾丸组织原代细胞,通过荧光观察,RT-PCR及细胞免疫组化检测目的基因的表达.结果表明,MxA基因片段已经被克隆到pEGFP-C1表达载体,成功构建了MxA基因真核表达载体pEGFP-C1-MxA.经该重组质粒转染后的鸡细胞的胞质中呈现颗粒状分布的绿色荧光,RT-PCR扩增出EGFP和MxA基因的特异性片断,免疫组化结果显示EGFP报告基因在细胞内的阳性表达,并表现出MxA的表达特征,间接证明了MxA可在鸡细胞中表达.MxA基因真核表达载体的成功构建以及在鸡细胞中的表达为进一步研究MxA基因在抗禽病毒性疾病中的应用打下了基础.     

一种原位示踪外源目的基因表达载体的构建

应用分子克隆技术 ,分别将增强型绿色荧光蛋白 (enhancedgreenfluorescentprotein ,EGFP)、内部核糖体进入位点 (internalribosomeentrysite,IRES)和编码H-ras基因C端 2 0个氨基酸的DNA(rasc2 0 )片段插入真核表达载体pcDNA3,构建真核重组表达载体并将其命名为pZX。通过脂质体介导将该载体转染人宫颈癌细胞系HeLa ,培养过夜后在荧光显微镜下观察绿色荧光蛋白在细胞内的分布 ,并与pEGFP-C3质粒DNA转染该细胞系进行比较。结果表明 ,转染pZX载体的实验组细胞膜发出绿色荧光 ,而对照组绿色荧光则均匀弥散于整个细胞中 ,工具性载体pZX已构建成功     

LOX-1特异性小发夹RNA 表达载体的构建及其对巨噬细胞源性泡沫细胞形成的影响

[摘　要]　目的：靶向血凝素样氧化型低密度脂蛋白受体-1基因的发卡样siRNA(shRNA)表达载体及其对巨噬细胞源性泡沫细胞形成的影响。方法：(1)采用DNA重组技术,将LOX-1 shRNA双链与线性化pGenesil-1质粒表达载体连接,脂质体法转染小鼠单核巨噬细胞（RAW264.7）,半定量逆转录聚合酶链反应法检测LOX-1 mRNA的表达,Western blot法检测LOX-1蛋白的表达。(2) Ox-LDL诱导巨噬细胞建立泡沫细胞模型, LOX-1-shRNA进行干预,干预组使用脂质体法进行细胞转染,转染24小时后,再加入Ox-LDL作用24小时,用油红O染色法及细胞内游离胆固醇及总胆固醇测定法观察对泡沫细胞形成的影响,倒置荧光显微镜观察转染LOX-1 shRNA后RAW264.7细胞对Dil-ox-LDL的摄取率。结果：测序鉴定发现插入的发卡样序列正确,成功合成了发卡样LOX-1基因RNA干扰表达载体;靶向LOX-1基因的发卡样shRNA表达载体转染RAW264.7细胞后,其LOX-1基因和蛋白表达显著下调, 同时可抑制巨噬细胞源性泡沫细胞形成及对Dil-ox-LDL的摄取。结论：成功构建了能有效抑制LOX-1 mRNA表达的发卡样LOX-1基因RNA干扰表达载体,并在一定程度上能抑制巨噬细胞源性泡沫细胞的形成,为进一步利用RNA干扰技术防治动脉粥样硬化提供理论基础。     

信号肽序列对禽流感病毒H5N1 HA 蛋白GFP融合分子在真核细胞中表达的影响

[目的]构建绿色荧光蛋白(GFP)与禽流感病毒(AIV)HA基因的融合表达载体,观察信号肽序列的有无及位置对HA-GFP在293T细胞中的表达影响.[方法]应用PCR方法从H5N1亚型AIV质粒DNA中扩增出完整的或除去信号肽序列的HA基因片段,PCR产物经Xho Ⅰ和SmaⅠ双酶切后定向插入绿色荧光蛋白真核表达载体pEGFP-C1的不同位点,将得到的重组体M1,M2和M3分别转化宿主菌DH5a,经双酶切及.DNA测序鉴定分析后,采用脂质体转染法将pEGFF-C1,M1,M2和M3转染人胚肾细胞系293T细胞,荧光显微镜下观察HA-GFP的表达,流式细胞仪检测表达HA蛋白的细胞百分数.[结果]经酶切及测序鉴定成功构建了HA-GFP重组表达载体M1,M2和M3,荧光显微镜及流式细胞仪检测到重组质粒转染的293T细胞表达强的荧光蛋白,信号肽的有无对HA-GFP融合蛋白在293T细胞中的表达有显著影响,信号肽序列使HA-GFP融合蛋白在293T细胞中的表达减少,而信号肽的位置对融合蛋白表达量的影响不显著.[结论]信号肽的有无对HA-GFP融合蛋白在细胞中的表达有显著影响.     

FTL-EGFP融合基因真核表达载体的构建及其表达

[目的]构建小鼠铁蛋白轻链(ferritin light chain,FTL)的增强型绿色荧光蛋白(enhanced green fluorescent protein,EGFP)真核表达载体并检测其表达。[方法]利用PCR扩增技术得到小鼠560 bp的FTL基因编码序列,将此序列插入到含有增强型绿色荧光基因EGFP的真核表达载体PEGFP/N1多克隆位点区域中的限制内切酶HindⅢ和Bam HⅠ之间,得到真核表达载体m FTL-PEGFP/N1。经酶切和测序鉴定后,将构建成功的m FTL-PEGFP/N1及其对照空载体PEGFP/N1分别转染到小鼠腹腔巨噬细胞RAW264.7细胞中,提取蛋白后利用免疫印迹技术检测细胞中带有PEGFP标签的FTL蛋白的表达。[结果]新构建的m FTL-PEGFP/N1重组质粒经酶切鉴定得到预期片段,进一步的测序结果显示所构建的重组质粒中插入的小鼠FTL基因的c DNA序列正确。[结论]利用分子克隆技术获得了带有绿色荧光蛋白标签的小鼠铁蛋白轻链真核表达载体m FTL-PEGFP/N1,并在细胞中表达良好。     

巨噬细胞特异性启动子/抗菌肽PR39基因腺病毒载体的构建及其表达

旨在构建由巨噬细胞特异性启动子调控的抗菌肽PR39基因腺病毒表达载体,检测目的基因在小鼠巨噬细胞RAW264.7中的表达。PCR扩增巨噬细胞启动子/抗菌肽PR39成熟肽基因序列,插入腺病毒穿梭载体pAdTrack中,重组穿梭质粒(pAdTrack-SP/PR39)与腺病毒骨架(pAdEasy-1)共转化大肠杆菌BJ5183,通过细菌内同源重组产生重组腺病毒载体(pAd-SP/PR39)。pAd-SP/PR39经PacI线性化后转染293细胞,包装出重组腺病毒(Ad-SP/PR39)。Ad-SP/PR39感染小鼠巨噬细胞RAW264.7,经RT-PCR和免疫细胞化学检测PR39的靶向表达特异性。成功构建了由巨噬细胞特异性启动子调控的抗菌肽PR39基因腺病毒表达载体。包装出的重组腺病毒仍然能感染小鼠巨噬细胞且高效表达抗菌肽PR39。构建的重组腺病毒能够在巨噬细胞中表达抗菌肽PR39基因,为靶向表达抗菌肽在胞内菌感染治疗中的应用奠定了基础。     

稳定表达人Eps8基因的胶质瘤U251细胞系的建立

应用亚克隆方法构建pEGFP-C3／Eps8真核表达载体,经测序鉴定后,用脂质体进行胶质瘤U251细胞的转染,应用G418筛选出稳定表达pEGFP-C3／Eps8和pEGFP—C3的细胞系,最后通过Western blot和荧光定位证明印娼在U251细胞中过量表达。本实验成功建立了稳定转染Eps8的U251细胞系,为进一步研究Eps8基因在胶质瘤中的功能奠定了良好的实验基础。     

CDX2基因高表达对胃癌细胞生物学行为的影响

目的探讨尾侧型同源转录因子-2(CDX2)基因过表达对胃癌BGC-823细胞增殖、迁移、凋亡等生物学特征的影响。方法采用脂质体转染法建立CDX2基因过表达的胃癌BGC-823稳定细胞株,分别采用RT-PCR、Western blotting和免疫细胞化学等方法检测转染重组表达载体pEGFP-C1/CDX2后,BGC-823细胞中CDX2基因及其蛋白的表达。MTT法检测CDX2基因过表达对细胞的增殖能力的影响;划痕实验检测CDX2过表达对细胞迁移能力的影响;流式细胞术检测CDX2过表达对细胞的凋亡的影响;应用基因芯片技术检测转染前后相关基因的差异表达。结果 RT-PCR及Western blotting检测结果显示,与对照组相比,转染pEGFP-C1/CDX2后,BGC-823细胞中CDX2基因和蛋白均呈高表达;CDX2过表达能明显降低转然组BGC-823细胞增殖能力和迁移能力;但对细胞凋亡影响不明显;基因芯片结果提示CDX2基因高表达能影响某些基因的表达。结论 CDX2过表达能明显抑制胃癌细胞增殖、降低迁移能力,提示CDX2在胃癌中可能发挥抑癌基因的作用。     

稳定表达人JNK3的SHSY5Y细胞系的建立及鉴定

目的构建人c-jun氨基末端激酶3（c-jun N—terminal kinase 3,JNK3）真核表达载体,并在人神经母细胞瘤细胞（SHSY5Y）中稳定表达以探讨JNK3对细胞凋亡的影响。方法以pDBleu—JNK3为模板,PCR扩增人JNK3基因全长,目的片段亚克隆至真核表达载体pEGFP—C3,酶切及测序鉴定。Lipofeetamine^TM 2000转染SHSY5Y细胞,并通过G418选择性培养建立稳定表达JNK3的SHSY5Y细胞系,荧光垃微镜下观察细胞中JNK3表达,RT—PCR、Western印迹检测JNK3表达。结果成功构建了pEGFP—C3-JNK3真核表达载体,并建立了稳定表达人JNK3的SHSY5Y细胞系,与对照组相比,其人JNK3基因表达明显升高。结论稳定表达人JNK3的SHSY5Y细胞系的建立,为进一步研究人JNK3的功能及其与细胞凋亡的关系提供了重要的细胞模型和实验基础。     

带GFP标记嗜肺军团菌的构建和在细胞感染中的应用

【目的】为能实时直观了解嗜肺军团菌感染细胞的过程,研究细菌在细胞内的变化及其与宿主细胞间的相互作用关系。【方法】通过基因敲除、克隆回补等重组构建绿色荧光蛋白(GFP)稳定高表达的嗜肺军团菌株,利用该菌株建立小鼠巨噬细胞Raw264.7的感染模型。【结果】通过荧光显微镜可实时观察细菌感染细胞的全过程,包括细菌在细胞内的形态变化、增殖和裂解宿主细胞等。【结论】重组菌可替代野生菌株在细胞感染中应用,为直观研究嗜肺军团菌与被感染细胞之间的相互作用关系,以及进行相关药物模型的制备、药物筛选、耐药机制研究等提供了新的手段。     

Protein translocation into host epithelial cells by infecting enteropathogenic Escherichia coli

Enteropathogenic Escherichia coli (EPEC) causes diarrhoea in young children. EPEC induces the formation of actin pedestal in infected epithelial cells. A type III protein secretion system and several proteins that are secreted by this system, including EspB, are involved in inducing the formation of the actin pedestals. We have demonstrated that contact of EPEC with HeLa cells is associated with the induction of production and secretion of EspB. Shortly after infection, EPEC initiates translocation of EspB, and EspB fused to the CyaA reporter protein (EspB–CyaA), into the host cell. The translocated EspB was distributed between the membrane and the cytoplasm of the host cell. Translocation was strongly promoted by attachment of EPEC to the host cell, and both attachment factors of EPEC, intimin and the bundle-forming pili, were needed for full translocation efficiency. Translocation and secretion of EspB and EspB–CyaA were abolished in mutants deficient in components of the type III protein secretion system, including sepA and sepB mutants. EspB–CyaA was secreted but not translocated by an espB mutant. These results indicate that EspB is both translocated and required for protein translocation by EPEC.     

The type III protein translocation system of enteropathogenic Escherichia coli involves EspA-EspB protein interactions

Enteropathogenic Escherichia coli (EPEC), like many bacterial pathogens, use a type III secretion system to deliver effector proteins across the bacterial cell wall. In EPEC, four proteins, EspA, EspB, EspD and Tir are known to be exported by a type III secretion system and to be essential for 'attaching and effacing' (A/E) lesion formation, the hallmark of EPEC pathogenicity. EspA was recently shown to be a structural protein and a major component of a large, transiently expressed, filamentous surface organelle which forms a direct link between the bacterium and the host cell. In contrast, EspB is translocated into the host cell where it is localized to both membrane and cytosolic cell fractions. EspA and EspB are required for translocation of Tir to the host cell membrane suggesting that they may both be components of the translocation apparatus. In this study, we show that EspB co-immunoprecipitates with the EspA filaments and that, during EPEC infection of HEp-2 cells, EspB localizes closely with EspA. Using a number of binding assays, we also show that EspB can bind and be copurified with EspA. Nevertheless, binding of EspA filaments to the host cell membranes occurred even in the absence of EspB. These results suggest that following initial attachment of the EspA filaments to the target cells, EspB is delivered into the host cell membrane and that the interaction between EspA and EspB may be important for protein translocation.     

The EspB protein of enterohaemorrhagic Escherichia coli interacts directly with alpha-catenin

Enterohaemorrhagic Escherichia coli (EHEC) belongs to a family of pathogens that cause attaching and effacing (A/E) lesion on target cells. The EspB protein of EHEC is translocated both to the host cell cytoplasm and to the membrane, and is essential for the signalling events leading to A/E lesion. To determine the actual role of EspB in this process, we tried to identify the EspB binding partner of the host cell protein, using a yeast two-hybrid assay, and obtained a cytoskeletal-associated protein, α -catenin. The α -catenin bound directly to the N-terminal region of EspB, both in solid (overlay assay) and solution (pull-down assay) phases, and it was recruited to the EHEC adherence site, dependent on EspB. Expression of the N-terminal region of EspB, as well as the whole EspB in host cells, inhibited F-actin accumulation on the adherence site. We conclude that EspB recruits α -catenin at the EHEC adherence site by direct interaction, and that the recruitment of α -catenin is essential for EHEC-induced A/E lesion formation.     

EspB from enterohaemorrhagic Escherichia coli is a natively partially folded protein

The structural properties of EspB, a virulence factor of the Escherichia coli O157 type III secretion system, were characterized. Far-UV and near-UV CD spectra, recorded between pH 1.0 and pH 7.0, show that the protein assumes alpha-helical structures and that some tyrosine tertiary contacts may exist. All tyrosine side-chains are exposed to water, as determined by acrylamide fluorescence quenching spectroscopy. An increase in the fluorescence intensity of 8-anilinonaphthalene-1-sulfonate was observed at pH 2.0 in the presence of EspB, whereas no such increase in fluorescence was observed at pH 7.0. These data suggest the formation of a molten globule state at pH 2.0. Destabilization of EspB at low pH was shown by urea-unfolding transitions, monitored by far-UV CD spectroscopy. The result from a sedimentation equilibrium study indicated that EspB assumes a monomeric form at pH 7.0, although its Stokes radius (estimated by multiangle laser light scattering) was twice as large as expected for a monomeric globular structure of EspB. These data suggest that EspB, at pH 7.0, assumes a relatively expanded conformation. The chemical shift patterns of EspB 15N-1H heteronuclear single quantum correlation spectra at pH 2.0 and 7.0 are qualitatively similar to that of urea-unfolded EspB. Taken together, the properties of EspB reported here provide evidence that EspB is a natively partially folded protein, but with less exposed hydrophobic surface than traditional molten globules. This structural feature of EspB may be advantageous when EspB interacts with various biomolecules during the bacterial infection of host cells.