以减毒鼠伤寒沙门菌为载体的人呼吸道合胞病毒F蛋白DNA 疫苗滴鼻免疫抗体分析

[目的]以减毒鼠伤寒沙门菌(Salmonella typhimurium aroA strain SL7207,SL7207)为载体携带可表达呼吸道合胞病毒(Human respiratory syncytial vrius,RSV)密码子优化的融合蛋白(Fusion glycoprotein,F)的真核表达质粒,探讨不同黏膜免疫途径及密码子优化对免疫效果的影响.[方法]通过对RSV野生型F基因(Fwt)进行密码子优化,获得密码子优化的F基因(Fsyn),并构建可表达Fsyn的真核表达质粒pcDNA3.1/Fsyn,转化SL7207得到SL7207/pcDNA3.1/Fsyn.分别经滴鼻和灌胃途径,免疫BALB/c小鼠,采用间接ELISA方法比较免疫效果.[结果]与灌胃组相比,滴鼻组诱导小鼠产生了更高水平的血清IgG和黏膜SIgA,获得了更好的免疫效果(P＜0.05).与野生型相比,密码子优化的F蛋白具有更好的免疫原性(P＜0.05).[结论]经滴鼻途径免疫和密码子优化能够提高以SL7207为载体的RSV DNA疫苗免疫效果.     

携带HCV核心蛋白原核表达质粒与真核表达质粒的减毒伤寒沙门菌诱导小鼠免疫应答之比较

丙型肝炎病毒(HCV)核心蛋白是丙肝疫苗的重要候选抗原,然而,该蛋白因具有免疫调控作用而影响免疫应答的诱导。构建了HCV核心蛋白的两种表达质粒,一种是体内激活型原核表达质粒pZW-C,另一种是真核表达质粒pCI-C。将该两种质粒转化减毒鼠伤寒沙门菌SL7207,得到重组菌SL7207/pZW-C和SL7207/pCI-C,分别将重组菌口服接种小鼠,检测小鼠的免疫应答,结果发现:①SL7207/pCI-C免疫鼠的CD3 CD4 T细胞持续降低,而SL7207/pZW-C免疫鼠的CD3 CD4 T细胞无明显改变;②SL7207/pCI-C免疫只诱导低水平抗HCV核心蛋白抗体,加强免疫对抗体阳转率及抗体水平无明显影响,而SL7207/pZW-C免疫组所有小鼠均产生较高水平的抗核心蛋白抗体。③SL7207/pCI-C免疫鼠脾细胞的体外增殖活性、细胞毒性T细胞活性以及加强免疫对细胞免疫应答的增强作用均明显不及SL7207/pZW-C免疫鼠。结果提示:携带真核表达质粒pCI-C的沙门菌因在小鼠细胞内表达天然形式(结构以及磷酸化修饰)的HCV核心蛋白,可能通过对T细胞的免疫抑制作用而弱化免疫应答。而以携带原核表达质粒pZW-C的沙门菌免疫可避免这一问题,并具有接种方便,成本低廉等优点,从而可望作为基于HCV核心蛋白为靶抗原的HCV疫苗的候选免疫方式。     

Wild-type intracellular bacteria deliver DNA into mammalian cells

Gene transfer in vitro from intracellular bacteria to mammalian phagocytic and non-phagocytic cells and in vivo in mice has been reported. The bacteria used as DNA delivery vectors were engineered to lyze upon entry in the cell due to impaired cell wall synthesis for Shigella flexneri and invasive Escherichia coli , or production of a phage lysin for Listeria mono- cytogenes . In vivo gene transfer was obtained with attenuated Salmonella typhimurium and resulted in stimulation of mucosal immunity. We report that wild-type intracellular human pathogens, such as L. monocytogenes EGD or LO28 and S. flexneri M90T, mediate efficient in vitro transfer of functional genes into epithelial and macrophage cell lines. A low- efficiency transfer was obtained from strain EGD to mouse peritoneal macrophages. DNA transfer with S. typhimurium was observed only from atten-uated aroA strain SL7207 into COS-1 cell line. As demonstrated by the study of listeriolysin-defective L. monocytogenes or of S. typhimurium SL7207 aroA engineered to secrete listeriolysin, escape of bacteria or of plasmid DNA from the intracytoplasmic vacuole is required for transfer of genetic information to occur.     

A Salmonella typhimurium htrA live vaccine expressing multiple copies of a peptide comprising amino acids 8–23 of herpes simplex virus glycoprotein D as a genetic fusion to tetanus toxin fragment C protects mice from herpes simplex virus infection

Multiple tandem copies of an immunogenic epitope comprising amino acids 8–23 of glycoprotein D of herpes simplex virus (HSV) were expressed as C-terminal fusions to tetanus toxin fragment C (TetC) in different Salmonella typhimurium live vaccine strains. Expression of the longer fusions was best in strains harbouring a lesion in htrA , a stress protein gene. SL3261, an aroA strain, did not effectively express the longer fusions. Mice immunised with an S. typhimurium C5 htrA mutant expressing fusions with two or four copies of the peptide made an antibody response to both the peptide and TetC, whereas constructs expressing one copy of the peptide only elicited antibody to TetC. A non-immunogenic octameric fusion underwent rearrangements in vivo resulting in a predominantly monomeric fusion. In contrast, the S. typhimurium SL3261 aroA vaccine expressing the TetC-tetrameric fusion did not elicit antibody to the peptide. Sera from mice immunised with a single dose of the dimer and tetramer fusions in the htrA strain neutralised HSV in vitro , and the mice were protected from HSV infection as measured by a reduction in virus load in the ear pinna. We have previously shown that mice vaccinated with salmonella expressing TetC are protected against tetanus toxin and virulent salmonella challenge. These results suggest that it may be possible to develop a multivalent vaccine against salmonellosis, tetanus and HSV.     

Introduction of protein or DNA delivered via recombinant Salmonella typhimurium into the major histocompatibility complex class I presentation pathway of macrophages

Recombinant (r) Salmonella typhimurium aroA strains which display the hen egg ovalbumin OVA(257-264) peptide SIINFEKL in secreted form were constructed. In addition, attenuated rS. typhimurium pcDNA-OVA constructs harbouring a eukaryotic expression plasmid encoding complete OVA were used to introduce the immunodominant OVA(257-264) epitope into the major histocompatibility complex (MHC) class I presentation pathway. Both modes of antigen delivery (DNA and protein) by Salmonella vaccine carriers stimulated OVA(257-264)-specific CD8 T-cell hybridomas. An in vitro infection system was established that allowed both rSalmonella carrier devices to facilitate MHC class I delivery of OVA(257-264) by coexpression of listeriolysin (Hly) or by coinfection with rS. typhimurium Hlys (Hess J., Gentschev I., Miko D., Welzel M., Ladel C., Goebel W., Kaufmann S.H.E., Proc. Natl. Acad. Sci. USA 93 (1996) 1458-1463). Coexpression of Hly and coinfection with rS. typhimurium Hlys slightly improved MHC class I processing of OVA. Our data provide further evidence for the feasibility of attenuated, Hly-expressing rS. typhimurium carriers secreting heterologous antigens or harbouring heterologous DNA as effective vaccines for stimulating CD8 T cells in addition to CD4 T cells.     

减毒沙门氏菌介导的小鼠肝炎病毒S1基因DNA疫苗的免疫特性分析

根据GenBank公开序列自行设计一对引物,通过RT-PCR扩增出小鼠肝炎病毒的全长S1基因,并将其插入真核表达质粒pVAX1中,构建出重组真核表达质粒pVAX1-S1。将重组质粒转染COS-7细胞,采用间接免疫荧光检测出S1蛋白的体外表达。将重组质粒转入减毒鼠伤寒沙门氏菌SL7207中,构建出运送DNA疫苗的重组沙门氏菌SL7207(pVAX1-S1)。分别以5×108CFU、1×109CFU、2×109CFU剂量的重组菌口服接种6周龄BALB/c小鼠,试验结果表明,重组菌对小鼠具有良好的安全性。以1×109CFU剂量的重组菌口服免疫小鼠,抗体检测结果显示,在二免后两周和三免后两周,重组菌免疫组的血清抗体水平与SL7207(pVAX1)空载体免疫组间分别存在显著性差异(P<0.05)和极显著性差异(P<0.01)。在三免后两周重组菌免疫组出现了较高水平的肠黏膜抗体。     

鼠伤寒沙门氏菌SL7207 SifA-突变株的构建和鉴定

鼠伤寒沙门氏菌SifA^-基因突变株的特点是能进入真核细胞的胞液。利用P22噬菌体转导技术构建了鼠伤寒沙门氏菌疫苗株SL7207的SifA^-突变株SL7207,该突变株与SL7207有着相似的体外生长曲线和细胞侵袭力,SL7207。在MDCK上皮细胞中的增殖能力增强,但在RAW264．7巨噬细胞中的生存能力减弱。小鼠毒力试验显示SL7207。在BALB／c小鼠体内毒力下降。仅SL7207在体外可向RAW264．7巨噬细胞递送真核表达质粒。SL7207的构建为重组沙门氏菌疫苗载体的研制提供了一个新的选择。     

携带新城疫病毒DNA疫苗的鼠伤寒沙门氏菌及其安全性与免疫效力

根据GenBank中发表的新城疫病毒(NDV)融合蛋白(F)基因序列,设计一对引物,通过RTPCR扩增出鹅源新城疫病毒分离株JS5F基因,测序确认后,将其克隆入真核表达载体pVAX1,获得重组真核表达质粒pVAX1F。将pVAX1F转化减毒鼠伤寒沙门氏菌SL7207,构建成携带DNA疫苗的重组沙门氏菌SL7207(pVAX1F)。重组菌以不同剂量口服免疫1日龄雏鸡,结果表明,细菌对雏鸡具有良好的安全性,且不影响鸡的增重。将SL7207(pVAX1F)分别以108CFU和109CFU的剂量3次口服免疫1日龄商品代伊莎褐蛋鸡,抗体检测结果显示,在三免后1周,SL7207(pVAX1F)109CFU剂量组的血清抗体效价与空载体组之间存在显著性差异(p<0.05)。重组菌两个剂量组在首免后2周开始出现粘膜抗体,并于二免后2周和3周达到较高水平。免疫保护试验结果显示,SL7207(pVAX1F)109CFU剂量组的保护率为77.27%,与空载体组之间存在显著性差异(p<0.05)。     

A single amino acid substitution in the enzyme 5-enolpyruvylshikimate-3-phosphate synthase confers resistance to the herbicide glyphosate

The enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EC 2.5.1.19), encoded by the aroA locus, is a target site of glyphosate inhibition in bacteria. A glyphosate-resistant aroA allele has been cloned in Escherichia coli from a mutagenized strain of Salmonella typhimurium. Subcloning of this mutant aroA allele shows the gene to reside on a 1.3-kilobase segment of S. typhimurium DNA. Nucleotide sequence analysis of this mutant gene indicates a protein-coding region 427 amino acids in length. Comparison of the mutant and wild type aroA gene sequences reveals a single base pair change resulting in a Pro to Ser amino acid substitution at the 101st codon of the protein. A hybrid gene fusion between mutant and wild type aroA gene sequences was constructed. 5-Enolpyruvylshikimate-3-phosphate synthase was prepared from E. coli cells harboring this construct. The glyphosate-resistant phenotype is shown to be associated with the single amino acid substitution described above.     

口服型HCV融合抗原DNA疫苗在小鼠诱导免疫应答

将编码一个外源信号肽、一个通用型辅助性T淋巴细胞抗原表位和HCV核心 包膜蛋白E2融合抗原基因的真核表达质粒pST CE2t(DNA疫苗 )转化到减毒鼠伤寒沙门菌SL72 0 7.将该重组菌口服接种BALB c小鼠 3次 .小鼠的抗HCV核心和E2抗体阳转率分别达 6 0 %和 70 % .体外以重组HCV核心或E2抗原刺激小鼠脾细胞 ,均使之发生明显的增殖反应 ,且小鼠脾细胞能有效杀伤表达HCV核心抗原的同系骨髓瘤细胞SP2 0 .这为研制高效免疫、成本低廉、接种方便的HCV疫苗提供了一个新的可行途径     

Expression of human IL-1 beta in Salmonella typhimurium. A model system for the delivery of recombinant therapeutic proteins in vivo.

The feasibility of using Salmonella typhimurium aroA mutant (SL3261) to deliver protein therapeutic agents was investigated in a murine model system. We have constructed an Escherichia coli expression plasmid designed to express the human protein IL-1 beta. This plasmid expresses IL-1 beta to high levels (greater than 30% total cell protein) in E. coli. In Salmonella the IL-1 beta is expressed constitutively to about 10% total cell protein, as verified by Western blotting analysis using polyclonal rabbit anti-IL-1 beta antibody. The protein is produced in a soluble and biologically active form. BALB/c mice administered orally or i.v. with S. typhimurium aroA mutants carrying the plasmid produced highly significant antibody responses against human IL-1 beta as determined by a solid-phase RIA. Furthermore, mice injected with the construct were significantly protected against lethal gamma-irradiation (850 rad). This study therefore demonstrates that the vaccine strain of Salmonella mutants can also be used effectively to deliver therapeutic proteins in vivo.     

Kinetics of the mucosal antibody secreting cell response and evidence of specific lymphocyte migration to the lung after oral immunisation with attenuated S. enterica var. typhimurium

The kinetic of mucosal secretory responses elicited by the vaccine vector Salmonella enterica var. typhimurium (S. typhimurium) was examined by enzyme linked immunospot (ELISPOT) and compared with serum responses. Mice immunised orally with BRD509, the aroA, aroD mutant of virulent S. typhimurium SL1344 expressing the C Fragment of tetanus toxin (TT), simultaneously developed an IgA antibody secreting cells (ASC) response in the gastrointestinal lamina propria, the spleen and the lung, against both S. typhimurium lipopolysaccharide (LPS) and TT. The magnitude of the ASC response was greatest in the gut, was boosted by a secondary immunisation at day 25, and the kinetic of the response did not correlate with the appearance of serum antibodies. This study suggests that S. typhimurium can engage the common mucosal immune system to effect mucosal secretory responses at distal sites, however, the magnitude of the responses is both greatest in the gut and antigen-specific. The ASC origin of the serum antibodies specific for S. typhimurium and antigens expressed by the bacterium is yet to be elucidated.     

稳定携带H5亚型禽流感病毒候选DNA疫苗减毒沙门氏菌的构建及其免疫原性

采用PCR技术从重组质粒pVAX1-HA扩增出禽流感病毒JSGO(H5N1)株的血凝素(HA)基因,将其克隆入真核表达质粒pmcDNA3.1 中,获得重组表达质粒pmcDNA3.1-HA。通过电穿孔转化法将重组质粒转入减毒鼠伤寒沙门氏菌SL7207*,构建成功携带DNA疫苗的重组沙门氏菌SL7207*(pmcDNA3.1-HA)。经体内体外试验证实,重组质粒pmcDNA3.1-HA在沙门氏菌中的稳定性显著高于pcDNA3.1-HA。将重组菌SL7207*(pmcDNA3.1-HA)和SL7207*(pcDNA3.1-HA)分别以2×109CFU剂量两次口服免疫BALB/c小鼠,免疫小鼠可产生针对禽流感病毒HA蛋白的黏膜抗体。重组菌以5×109CFU剂量两次口服免疫试验鸡,免疫鸡的小肠样品中可测到针对禽流感病毒HA蛋白的黏膜抗体,且SL7207*(pmcDNA3.1-HA)免疫组的抗体效价高于SL7207*(pcDNA3.1-HA)免疫组。免疫保护试验结果显示,SL7207*(pmcDNA3.1-HA)和SL7207*(pcDNA3.1-HA)免疫组的免疫保护率均与空载体组之间存在显著性差异(P<0.05),且SL7207*(pmcDNA3.1-HA)免疫组的保护率较SL7207*(pcDNA3.1-HA)免疫组提高了22.6%,说明稳定携带H5亚型禽流感病毒DNA疫苗的减毒沙门氏菌具有良好的免疫原性和免疫保护性。     

携带HCV核心蛋白原核表达质粒与真核表达质粒的减毒伤寒沙门菌诱导小鼠免疫应答之比较

丙型肝炎病毒（HCV）核心蛋白是丙肝疫苗的重要候选抗原,然而,该蛋白因具有免疫调控作用而影响免疫应答的诱导。构建了HCV核心蛋白的两种表达质粒,一种是体内激活型原核表达质粒pZW-C,另一种是真核表达质粒pCI-C。将该两种质粒转化减毒鼠伤寒沙门菌SL7207,得到重组菌SL7207/pZW-C和SL7207/pCI-C,分别将重组菌口服接种小鼠,检测小鼠的免疫应答,结果发现：① SL7207/pCI-C免疫鼠的CD3⁺CD4⁺ T细胞持续降低,而SL7207/pZW-C免疫鼠的CD3⁺CD4⁺ T细胞无明显改变;② SL7207/pCI-C免疫只诱导低水平抗HCV核心蛋白抗体,加强免疫对抗体阳转率及抗体水平无明显影响,而SL7207/pZW-C免疫组所有小鼠均产生较高水平的抗核心蛋白抗体。③ SL7207/pCI-C免疫鼠脾细胞的体外增殖活性、细胞毒性T细胞活性以及加强免疫对细胞免疫应答的增强作用均明显不及SL7207/pZW-C免疫鼠。结果提示：携带真核表达质粒pCI-C的沙门菌因在小鼠细胞内表达天然形式（结构以及磷酸化修饰）的HCV核心蛋白,可能通过对T细胞的免疫抑制作用而弱化免疫应答。而以携带原核表达质粒pZW-C的沙门菌免疫可避免这一问题,并具有接种方便,成本低廉等优点,从而可望作为基于HCV核心蛋白为靶抗原的HCV疫苗的候选免疫方式。     

稳定携带新城疫病毒DNA疫苗减毒沙门氏菌的构建及其免疫原性

采用PCR技术从重组质粒pVAX1-F中扩增出新城疫病毒JS5株的融合蛋白(F)基因,将其克隆入真核表达质粒pmcDNA3.1 中,获得重组表达质粒pmcDNA3.1-F.通过电穿孔转化法将重组质粒转入减毒鼠伤寒沙门氏菌SL7207,构建成功携带DNA疫苗的重组沙门氏菌SL7207(pmcDNA3.1-F).体内、体外试验结果表明,重组质粒pmcDNA3.1-F在沙门氏菌中的稳定性显著高于pcDNA3.1-F.将重组菌SL7207(pmcDNA3.1-F)和SL7207(pcDNA3.1-F)分别以1×109 CFU剂量两次口服免疫BALB/c小鼠,免疫小鼠可产生针对新城疫病毒F蛋白的血清抗体和黏膜抗体.重组菌以5×109 CFU剂量两次口服免疫4日龄SPF鸡,免疫鸡产生的针对新城疫病毒F蛋白的血清抗体和小肠黏膜抗体效价水平与空载体组之间存在显著性差异(P＜0.05).免疫保护试验结果显示,SL7207(pmcDNA3.1-F)和SL7207(pcDNA3.1-F)免疫组的免疫保护率均与空载体组之间存在显著性差异(P＜0.05),且SL7207(pmcDNA3.1-F)免疫组的保护率较SL7207(pcDNA3.1-F)免疫组提高了20.0%,说明稳定携带新城疫病毒DNA疫苗的减毒沙门氏菌具有良好的免疫原性和免疫保护性.     

携带HBV包膜大蛋白DNA疫苗的减毒沙门菌在小鼠诱导免疫应答

探索一种简便、有效的乙型肝炎病毒DNA疫苗免疫方法。将编码绿色荧光蛋白的真核表达质粒pEGFPN1转化到减毒鼠伤寒沙门菌SL7207,灌胃饲服BALB/c小鼠,流式细胞术检测出小鼠脾细胞内表达的绿色荧光蛋白;构建编码HBV包膜大蛋白的DNA疫苗pCIS1S2S,分别以SL7207为载体的口服途径或直接肌肉注射途径免疫BALB/c小鼠,检测小鼠的血清抗体、T细胞增殖和细胞毒性T淋巴细胞反应,结果表明两种免疫途径均能在小鼠体内诱生细胞和体液免疫应答,但口服途径诱导免疫应答的强度明显强于肌肉注射途径。口服携带HBV DNA疫苗的减毒伤寒沙门菌可能代表一种简便、有效的治疗乙型肝炎的新方法。      

The involvement of tumor necrosis factor in immunity to Salmonella infection

The role of TNF in immunity to Salmonella in mice was studied. Antiserum specific for murine TNF was raised and used to neutralize TNF activity in vivo. Injection of this serum into mice infected with the moderately mouse virulent Salmonella typhimurium strain M525 caused exacerbation of disease. Such treatment had no effect on the course of an infection with an attenuated S. typhimurium aroA (strain SL3261) mutant. However, the protection afforded by immunisation with live SL3261 against challenge with the virulent parent strain (SL1344) was abolished by anti-TNF antiserum. Interestingly both early (3 wk) immunity and late (10 wk) immunity was neutralized by such treatment. Inasmuch as early immunity is considered to be nonspecific and macrophage-mediated while late immunity is considered to be serotype-specific and T cell mediated, this suggests that TNF plays a role in protection from Salmonellosis in both cases.     

Molecular analysis of the aroA gene of Pasteurella multocida and vaccine potential of a constructed aroA mutant

The aroA gene from Pasteurella multocida was cloned by complementation of the Escherichia coli aroA mutant AB2829 with a DNA library constructed in pUC18. The nucleotide sequence of the P. multocida aroA gene indicated an open reading frame encoding a protein of 441 amino acids, which showed a high degree of homology with the amino acid sequences of various other bacterial AroA proteins. The cloned P. multocida aroA gene was inactivated by insertion of a kanamycin-resistance gene and reintroduced by allelic exchange into the chromosome of P. multocida using the suicide vector pJM703.1. The P. multocida aroA mutant was highly attenuated in a mouse model. Mice immunized intraperitoneally with two doses of live P. multocida aroA mutant were completely protected against a lethal parental strain challenge.     

Growth of Salmonella typhimurium SL5319 and Escherichia coli F-18 in mouse cecal mucus: role of peptides and iron

Abstract Escherichia coli F-18, a normal human fecal isolate, and Salmonella typhimurium SL5319, an avirulent strain, are known to colonize the streptomycin-treated CD-1 mouse large intestine by utilizing nutrients present in intestinal mucus for growth. Moreover, previous experiments suggested the possibility that E. coli F-18 and S. typhimurium SL5319 utilized different mucus nutrients. Therefore, mouse cecal mucus was fractionated into high and low molecular weight components, and each fraction was inoculated either simultaneously or separately with E. coli F-18 and S. typhimurium SL5319. A 50 kd fraction was found in which the growth of S. typhimurium SL5319 suppressed growth of E. coli F-18. Evidence is presented that in this fraction S. typhimurium SL5319 utilizes peptides, presumably generated by mucus proteases, as a source of amino acids for growth. Furthermore, it is shown that S. typhimurium SL5319 grows in this 50 kd fraction with a generation time of 27 min in the presence of at most 7 μg of carbohydrate per ml and 2.2 μg of peptide per ml, and that S. typhimurium SL5319 suppresses E. coli F-18 growth in this fraction by sequestering iron. The data are discussed with respect to the role of peptide utilization and iron sequestration in the ability of S. typhimurium SL5319 to colonize the mouse large intestine.