泛素与EB病毒核抗原1融合基因的DNA免疫研究

构建了EB病毒核抗原1(EBNA1)基因的表达质粒pCI-EBNA1和泛素(ubiquitin,Ub)与EBNA1融合基因的表达质粒pCI-Ub-EBNA1.间接免疫荧光和Western blot分析表明,两重组质粒转染HeLa细胞后均能瞬时表达.两种质粒DNA肌肉注射免疫Balb/C小鼠后,分别检测小鼠血清抗EBNA1的抗体和特异性的细胞毒性T淋巴细胞(CTL)反应,比较单基因与融合基因DNA免疫所诱生免疫应答的强度.结果显示:二者诱生抗体的效率无明显差别,但泛素的融合使得针对EBNA1的特异性CTL反应明显增强.     

佐剂CpG-ODN与重组HBsAg疫苗联合免疫乙型肝炎病毒转基因小鼠的免疫应答研究

目的 以CpG-ODN为佐剂与重组HBsAg(rHBsAg)疫苗合用,研究其对乙型肝炎病毒转基因(HBV Tg)小鼠模型的免疫应答效果.方法 40只HBV Tg小鼠随机分为4组,每组小鼠分别注射rHBsAg疫苗(单用rHBsAg组)、rHBsAg疫苗+CpG-ODN(试验组)、rIFNα-2b(IFN组)、生理盐水(对照组).经多次免疫HBV转基因小鼠,于免疫前、后不同时间采血,动态观察各组小鼠血清中HBsAg量、抗-HBs阳性率和HBV DNA的变化,检测肝组织中HBsAg的表达.检测免疫小鼠的外周血T淋巴细胞亚群和白细胞介素2(IL-2)、IL-12(p70)以及γ干扰素(IFN-γ)的含量,分别检测免疫小鼠的脾细胞增殖和细胞毒性T淋巴细胞(CTL)杀伤功能并计算各组小鼠肝组织活性指数(HAI).结果 rHBsAg组和rHBsAg+CpG组在免疫小鼠后2周100%诱导抗-HBs;rHBsAg+CpG组能显著降低血清中的HBsAg量或使HBsAg转阴,rHBsAg+CpG组肝组织中HBsAg的表达量与血清中一样降低,并降低血清中HBV DNA的拷贝数.rHBsAg组的CD3+、CD4+、CD8+细胞在T细胞中所占百分比,IL-2、IL-12(p70)和IFN-γ的含量以及淋巴细胞特异性增殖和杀伤效应均明显高于对照组(P＜0.05).rHBsAg+CpG组与rHBsAg组比较,免疫小鼠产生更强的HBV特异性细胞应答(P＜0.05),且以Th1型细胞免疫应答为主.在rHBsAg+CpG组肝组织中出现大量淋巴细胞,肝脏的HAI在4个组中最高.结论 CpG-ODN作为佐剂可以增强重组HBsAg疫苗诱导HBV转基因小鼠产生抗病毒免疫应答,重组HBsAg疫苗辅以CpG ODN可作为免疫治疗慢性HBV感染的可行性途经.     

新型呼肠病毒 S基因 DNA 疫苗在小鼠体内的免疫原性

目的：探讨新型呼肠病毒R4株S片段免疫小鼠后引发的免疫应答。方法构建4个不同S基因节段的重组真核表达质粒,并免疫小鼠;ELISA检测血清以研究R4特异性抗体升高水平,并对其抗体亚型进行鉴定;ELISPOT检测小鼠淋巴细胞INF-γ的表达情况。结果与对照组相比,4个重组质粒免疫的小鼠血清都有明显的R4特异性抗体升高,尤其以S1和S3基因免疫后抗体水平较高,且均以IgG2a占绝对优势;S1基因免疫组小鼠的细胞免疫应答最强。结论 S1基因重组质粒免疫小鼠后可同时引发较强的体液免疫和细胞免疫应答,是较为理想的疫苗备选基因片段。     

SDF-1基因对HIV-1核酸疫苗诱导的免疫应答

研究SDF-1基因对HIV-1核酸疫苗诱导免疫应答的影响,以探求治疗性HIV-1核酸疫苗的新策略。将pCIneoGAG联合SDF1基因或者pCIneoGAG单独免疫Balb/c小鼠,采用ELISA检测免疫小鼠的特异性抗体和IFNγ水平,用MTT比色法检测免疫小鼠脾淋巴细胞的增殖,用乳酸脱氢酶(LDH)试验检测小鼠特异性细胞毒性T淋巴细胞(CTL)的应答。研究结果提示:与pCIneoGAG免疫组比较,pCIneoGAG联合SDF-1基因免疫组小鼠血清的抗HIV-1p24抗体滴度降低,有显著性差异(p<0.01);而与pCIneoGAG免疫组比较,pCIneoGAG联合SDF-1基因免疫组小鼠血清的IFNγ升高,差异显著(p<0.01);pCIneoGAG联合SDF-1基因免疫组小鼠的脾淋巴细胞增殖实验刺激指数(SI)以及特异性CTL活性均高于pCIneoGAG免疫组,有显著性差异(p<0.01)。因此,SDF-1基因联合HIV-1核酸疫苗免疫小鼠,可能增强特异性Th1细胞和CTL反应,SDF-1基因对体液免疫有抑制作用。SDF-1基因对于治疗性HIV-1核酸疫苗是具有较好应用前景的免疫佐剂。     

IL—18DNA免疫对HIV—1核酸疫苗诱导的免疫应答的影响

为了研究白细胞介素-18(IL-18)基因对人免疫缺陷病毒(HIV-1)核酸疫苗诱导免疫应答的影响,将人IL-18基因插入到真核表达载体pVAX1中,构建了真核表达载体pVAX1-IL-18;将pCI-neoGAG联合pVAX1-IL-18或者pCI-neoGAG单独免疫Balb/c小鼠,检测免疫小鼠的特异性抗体和IFN-γ,同时观察免疫小鼠脾淋巴细胞增殖和小鼠特异性细胞毒性T淋巴细胞(CTL)反应。酶切及测序结果表明成功地构建了人IL-18基因真核表达载体;与pCI-neoGAG免疫组比较,pCI-neoGAG联合pVAX1-IL-18免疫组小鼠血清的抗HIV-1p24抗体滴度降低(P<0.01);而与pCI-neoGAG免疫组比较,pCI-neoGAG联合pVAX1-IL-18免疫组小鼠血清的IFN-γ升高(P<0.01);pCI-neoGAG联合pVAX1-IL-18免疫组小鼠的脾淋巴细胞增殖实验刺激指数(SI)以及特异性CTL活性均高于pCI-neoGAG免疫组(P<0.01)。IL-18基因联合HIV-1核酸疫苗免疫小鼠,可能增强特异性Th1细胞和CTL反应,白细胞介素-18基因对体液免疫有抑制作用。     

IL-18 DNA免疫对HIV-1核酸疫苗诱导的免疫应答的影响

为了研究白细胞介素-18(IL-18)基因对人免疫缺陷病毒(HIV-1)核酸疫苗诱导免疫应答的影响,将人IL-18基因插入到真核表达载体pVAX1中,构建了真核表达载体pVAX1-IL-18;将pCI-neoGAG联合pVAX1-IL-18或者pCI-neoGAG单独免疫Balb/c小鼠,检测免疫小鼠的特异性抗体和IFN-γ,同时观察免疫小鼠脾淋巴细胞增殖和小鼠特异性细胞毒性T淋巴细胞(CTL)反应.酶切及测序结果表明成功地构建了人IL-18基因真核表达载体;与pCI-neoGAG免疫组比较,pCI-neoGAG联合pVAX1-IL-18免疫组小鼠血清的抗HIV-1p24抗体滴度降低(P<0.01);而与pCI-neoGAG免疫组比较,pCI-neoGAG联合pVAX1-IL-18免疫组小鼠血清的IFN-γ升高(P<0.01);pCI-neoGAG联合pVAX1-IL-18免疫组小鼠的脾淋巴细胞增殖实验刺激指数(SI)以及特异性CTL活性均高于pCI-neoGAG免疫组(P<0.01).IL-18基因联合HIV-1核酸疫苗免疫小鼠,可能增强特异性Th1细胞和CTL反应,白细胞介素-18基因对体液免疫有抑制作用.     

DNA疫苗预敏蛋白疫苗增强策略对乙型肝炎病毒表面抗原蛋白免疫应答的影响

目的:观察核酸疫苗预敏,乙型肝炎病毒HBsAg蛋白疫苗增强的免疫对Balb/c小鼠免疫应答的影响.方法:以TransfectionTM脂质体将乙型肝炎病毒表面抗原中蛋白(MHBs)核酸疫苗pSW3891/MHBs/adr(简称为adr),及空载体pSW3891(简称vector)体外转染293T细胞.免疫印迹法(Western blot)检测adr,vector的体外表达;动物体内研究选用Balb/c小鼠共18只,每组6只,编号后随机分为3组,即空载体质粒组(vector+vector组)、adr核酸疫苗+HBsAg蛋白疫苗(adr+protein组)、HBsAg蛋白疫苗+HBsAg蛋白疫苗(Protein+Protein组);于第0周肌肉注射法分别以vector、adr及HBsAg蛋白疫苗免疫小鼠,于第4周肌内注射法分剐以vector、HBsAg蛋白疫苗、及HBsAg蛋白疫苗免疫小鼠.采用酶联免疫吸附试验(ELISA)检测小鼠血清HBsAg特异性抗体、酶联免疫斑点(ELISPOT)法检测小鼠脾细胞HBsAg多肽特异性IFN-γ分泌细胞.结果:adr体外转染293T细胞后,能够表达乙型肝炎病毒表面抗原中蛋白(MHBs);体内研究结果显示:除vector+vector组外,adr+protein组、Protein+Protein组小鼠均能检出血清抗-HBs,Protein+Protein组抗-HBs终点滴度比adr+protein组高,但无统计学意义;三组中vector+vector组没有检测到特异性INF-γ分泌的脾细胞,而adr+protein组、Protein+Protein组小鼠均能检出,且adr+protein组特异性细胞数量显著高于protein+protein组(P＜0.001),具有统计学意义.结论:乙型肝炎病毒表面抗原中蛋白(MHBs)核酸疫苗预敏.能明显增强Balb/c小鼠对乙型肝炎HBsAg蛋白疫苗细胞免疫应答水平.     

重组质粒与重组蛋白共免疫诱导HBsAg特异性T细胞免疫抑制

摘要：【目的】为了探索治疗急性乙型肝炎和爆发性乙型肝的新策略,本研究将HBV DNA疫苗和相应抗原的蛋白质分子联合免疫小鼠,旨在探讨联合免疫对小鼠抗原特异性T细胞增殖反应的影响。【方法】我们将HBV DNA疫苗（pcDS2）和相应抗原蛋白质分子(HBsAg)联合免疫BALB/c小鼠;分别在第0、2和4周进行免疫,在第6周用ELISA方法检测抗-HBs IgG效价,MTT和流式细胞仪检测T细胞增殖反应,及流式细胞仪检测细胞因子表达水平。【结果】pcDS2和HBsAg联合免疫组小鼠的抗-HBs水平显著提高;免疫小鼠的T细胞体外经HBsAg刺激后, 联合免疫组刺激指数(SI)明显降低;经流式细胞仪检测进一步证实联合免疫组T细胞增殖反应被显著抑制;联合免疫组T细胞表达IL-10和Foxp3水平显著升高。【结论】pcDS2和HBsAg联合免疫能诱导产生特异性体液免疫应答,但不能诱导产生抗原特异性T细胞增殖反应;T细胞增殖反应被显著抑制可能与T细胞表达IL-10和Foxp3上调有关;本研究为急性乙型肝炎和爆发性乙型肝炎治疗及HBV疫苗的研究奠定了基础。     

SDF-1基因对HIV-1核酸疫苗诱导的免疫应答

研究SDF-1基因对HIV-1核酸疫苗诱导免疫应答的影响,以探求治疗性HIV-1核酸疫苗的新策略. 将pCI-neoGAG联合SDF-1基因或者pCI-neoGAG单独免疫Balb/c小鼠,采用ELISA检测免疫小鼠的特异性抗体和IFN-γ水平,用MTT比色法检测免疫小鼠脾淋巴细胞的增殖,用乳酸脱氢酶(LDH)试验检测小鼠特异性细胞毒性T淋巴细胞(CTL)的应答.研究结果提示 与pCI-neoGAG免疫组比较,pCI-neoGAG联合SDF-1基因免疫组小鼠血清的抗HIV-1p24抗体滴度降低,有显著性差异(p<0.01);而与pCI-neoGAG免疫组比较,pCI-neoGAG联合SDF-1基因免疫组小鼠血清的IFN-γ升高,差异显著(p<0.01);pCI-neoGAG联合SDF-1基因免疫组小鼠的脾淋巴细胞增殖实验刺激指数(SI)以及特异性CTL活性均高于pCI-neoGAG免疫组,有显著性差异(p<0.01).因此,SDF-1基因联合HIV-1核酸疫苗免疫小鼠,可能增强特异性Th1细胞和CTL反应,SDF-1基因对体液免疫有抑制作用.SDF-1基因对于治疗性HIV-1核酸疫苗是具有较好应用前景的免疫佐剂.     

表面表达猪流行性腹泻病毒核蛋白蛋白的重组干酪乳杆菌诱导产生的免疫应答

为探讨表达猪流行性腹泻病毒(PEDV)核蛋白(N)基因的重组干酪乳杆菌口服免疫小鼠后诱导特异性免疫应答,本研究制备表达流行性腹泻病毒核蛋白的重组干酪乳杆菌,应用Western blotting、间接免疫荧光和全细胞ELISA鉴定目的蛋白的表达。然后用该重组干酪乳杆菌口服免疫BALB/c小鼠,分别测定了免疫后不同时间血清中特异性IgG、粪便中特异性的sIgA水平以及血清的中和活性;并测定免疫小鼠脾淋巴细胞增殖情况和细胞因子水平。结果显示,目的蛋白表达在细胞表面,可被阳性血清所识别。免疫小鼠后,可分别在血清中和粪便中检测到较高水平特异性IgG、sIgA(P<0.01),但血清并没有中和活性;淋巴细胞增殖试验和细胞因子测定结果显示,免疫组可产生明显的细胞免疫应答。结果表明,该重组干酪乳杆菌表达系统可诱导小鼠产生黏膜免疫应答和系统免疫应答,具有作为口服疫苗潜在的应用价值。     

原核表达系统T7RNA聚合酶/启动子在真核细胞中表达目的基因的实验研究

将目前高表达水平强大的原核表达系统之一T7 RNA聚合酶/启动子表达系统通过一系列改进引入真核细胞.通过转染真核细胞实验表明,采用真核启动子CMV调控T7 RNA聚合酶的表达和在T7启动子下游插入EMCV IRES序列两种解决方案能使该原核表达系统在真核细胞高效表达目的基因,且能适应不同的真核细胞环境,是一良好的细胞类型非依赖的表达体系.     

Arginine-rich regions succeeding the nuclear localization region of the herpes simplex virus type 1 regulatory protein ICP27 are required for efficient nuclear localization and late gene expression.

The herpes simplex virus type 1 (HSV-1) immediate-early protein ICP27 is an essential regulatory protein that localizes to the nuclei of infected cells. The strong nuclear localization signal (NLS) of ICP27 was identified recently and shown to reside in the amino-terminal portion of the polypeptide from residues 110 to 137 (W.E. Mears, V. Lam, and S.A. Rice, J. Virol. 69:935-947, 1995). There are also two arginine-rich regions directly succeeding the NLS. The first of these arginine-rich sequences (residues 141 to 151), together with the NLS, has been shown by Mears et al. to form the nucleolar localization signal. Arginine-rich motifs are common in domains involved in nuclear localization and RNA binding. To analyze the role of the arginine-rich regions in ICP27, we constructed stably transformed cell lines containing ICP27 mutants with deletions of all or parts of the NLS and arginine-rich regions. We also constructed mutants in which these regions were replaced with heterologous NLSs or RNA-binding domains. Characterization of these mutants indicated that the arginine-rich regions were required but not sufficient for wild-type localization of ICP27. More importantly, the NLS and arginine-rich regions were also essential to the function of ICP27. Mutants lacking these sequences were defective in late gene expression during infection even when ICP27 was properly localized to the nucleus by substitution of the NLS from simian virus 40 large T antigen. Further, the defect in late gene expression could not be overcome by replacement with the highly basic RNA-binding domain of human immunodeficiency virus type 1 Tat. The deficiency in late gene expression was independent of ICP27's role in stimulating viral DNA replication. In addition, localization of the HSV-1 proteins ICP4, ICP0, and ICP8 was unaffected by ICP27 mutants in this region. These results suggest that the arginine-rich regions are required for efficient nuclear localization and for the regulatory activity of ICP27 involved in viral late gene expression.     

Coupling of a targeting peptide to plasmid DNA by covalent triple helix formation.

The nuclear localization signal (NLS) of the SV40 large T antigen efficiently induces nuclear entry of proteins. We have developed a strategy for covalent coupling of one or a controlled number of NLS peptides to plasmid DNA at a specific site by triple helix formation. A psoralen-oligonucleotide-NLS peptide conjugate was synthesized and characterized by proteolysis with trypsin. This conjugate was used to covalently associate one NLS peptide to plasmid DNA by triple helix formation and photoactivation. The oligonucleotide-NLS peptide conjugate interacted with the NLS-receptor importin alpha. The reporter gene was expressed after transfection of the modified plasmid in NIH 3T3 cells, indicating no loss of the gene expression functionality of the plasmid. On the other hand, no increase in expression was observed as a result of the NLS peptide. This site-specific coupling technology can be used to couple to a plasmid other ligands targeting to a specific receptor.     

The N-terminus of porcine circovirus type 2 replication protein is required for nuclear localization and ori binding activities

Porcine circovirus type 2 possesses a circular, single-stranded DNA genome that requires the replication protein (Rep) for virus replication. To characterize the DNA binding potential and the significant region that confers the nuclear localization of the Rep protein, the defined coding regions of rep gene were cloned and expressed. All of the recombinant proteins except for the N-terminal 110 residues deletion mutant could bind to the double-stranded minimal binding site of replication origin (ori). In addition, the N-terminal deletion mutant lacking 110 residues exhibited mainly cytoplasmic staining in the transfected cells in contrast to the others, which localized dominantly in the nucleus, suggesting that this N-terminal domain is essential for nuclear localization. Furthermore, a series of green fluorescence proteins (GFP) containing potential nuclear localization signal (NLS) sequences were tested for their cellular distribution. The ability of the utmost 20 residues of the N-terminal region to target the GFP to the nucleus confirmed its role as a functional NLS.     

蛋白质的入核运送和它在基因表达中的调节作用

蛋白质进入细胞核是由蛋白质分子内部的核定位信号（nuclear localization signal, NLS）引导的.NLS蛋白首先与NLS受体结合,然后在多种胞浆因子及核孔复合物蛋白的作用下穿过核孔、转位入核.蛋白质上存在NLS并不一定总能够引导蛋白质入核.当NLS被修饰或遮掩时,它们便不能被核转运装置所识别.因而,NLS的遮掩被解除之前,蛋白质一直被扣留在胞浆中.以调节转录因子的入核运送来控制转录因子的活性是基因表达调节的一个新概念,也是细胞生长和分化的另一水平的调节.     

Enhancement of phage-mediated gene transfer by nuclear localization signal

The cell membrane and the nuclear membrane are two major barriers hindering the free movement of various macromolecules through animal cells. Nevertheless, some proteins can actively bypass these barriers by dint of intrinsic peptidic signals, so incorporation of these signals might improve the efficacy of artificial gene delivery vehicles. We examined the role of the nuclear localization signal (NLS) in gene transfer, using recombinant lambda phage as a model of the polymer/DNA complexes. We prepared a lambda phage displaying a 32-mer NLS of SV40 T antigen on its surface (NLS phage), and found that this NLS phage, delivered into the cytoplasm by appropriate devices, has higher affinity for the nucleus and induces the expression of encapsulated marker genes more efficiently than does the wild-type phage. This suggests that the 32-mer NLS peptide will become a practical tool for artificial gene delivery vehicles with enhanced nuclear targeting activity.