Immune responses and protective efficacy induced by 85B antigen and early secreted antigenic target-6 kDa antigen fusion protein secreted by recombinant bacille Calmette-Guérin

In an attempt to improve immune responses and protective efficacy, we constructed two recombinant bacille Calmette-Guérin (rBCG) strains expressing an 85B antigen (Ag85B) and early secreted antigenic target-6 kDa antigen (ESAT6) of Mycobacterium tuberculosis (MTB) fusion protein. Both rBCG strains have the same protein insertion but in a different order (Ag85B-ESAT6 and ESAT6-Ag85B). The cultured supernatant of rBCG strains and the sera from the mice immunized with the fusion protein Ag85B-ESAT6 or ESAT6-Ag85B formed a band with a fraction size of 37 kDa, equalivalent to the sum of Ag85B and ESAT6. Six weeks after BALB/c mice were immunized with BCG or rBCG, spleen lymphocytes showed significant proliferation in response to culture filtrate protein of MTB. Compared with the BCG group, mice vaccinated with rBCG elicited a high level increase of immunoglobulin G antibodies to culture filtrate protein in the serum. The gamma-interferon levels in the lymphocyte culture medium supernatants increased remarkably in the rBCG1 group, significantly higher than that of the BCG immunized group (p<0.05). Four weeks after vaccination, mice were infected with M. tuberculosis H37Rv and a dramatic reduction in the numbers of MTB colony forming units in the spleens and lungs was observed in the two rBCG immunization groups. Although these rBCG strains were more immunogenic, their protective effect was comparable to the classical BCG strain, and there were no significant differences between two rBCG groups (p>0.05).     

结核分枝杆菌分泌蛋白Ag85B、Hsp16.3和ESAT6在血清学检测中的初步应用

目的：探讨结核分枝杆菌分泌蛋白Hsp16.3、Ag85B以及融合蛋白ESAT6-CFP10、Ag85B-Hsp16.3和Ag85B-ESAT6用于TB病人血清学检测的意义。方法：将已构建的含5种目的基因的表达载体（pProEXHTb-Hsp16.3、pProEXHTa-Ag85B、pProEXHTb-ESAT6-CFP10、pProEXHTa-Ag85B-Hsp16.3、pProEXHTa-Ag85B-ESAT6）,分别转入宿主菌E.coli DH5α中,诱导表达后分别获得Hsp16.3、Ag85B、ESAT6-CFP10、Ag85B-Hsp16.3和Ag85B-ESAT6五种蛋白,采用Ni2＋亲和层析柱进行纯化,并用透析方法进行目的蛋白的复性。将经过复性的5种蛋白分别作为抗原,采用间接ELISA方法检测待测的血清样本,经OPD显色,测定各孔OD490值并判定结果。结果：五种蛋白被成功纯化并复性,通过ELISA方法共检测了22例TB病人血清、10例非结核病人血清和6例正常对照血清,Hsp16.3、Ag85B、ESAT6-CFP10、Ag85B-Hsp16.3和Ag85B-ESAT6这5种抗原的灵敏度分别为36.4%、90.9%、77.3%、95.5%、100%,特异性分别为100%、75%、100%、93.8%、93.8%。统计分析显示,ESAT6-CFP10和Ag85B、Ag85B-Hsp16.3、Ag85B-ESAT6这三种蛋白ELISA检测的结果无差异,而与Hsp16.3和痰涂片检测结果有显著差异。结论：Ag85B-Hsp16.3和Ag85B-ESAT6可作为结核分枝杆菌ELISA检测的初选抗原。     

结核分枝杆菌抗原重组酿酒酵母免疫诱导小鼠特异性免疫应答

近年来基于重组酿酒酵母全细胞的新型疫苗研究报道不断出现。以结核杆菌重要保护抗原ESAT6和Ag85B为对象,采用pHR酿酒酵母表达系统,构建了两种分别表达ESAT6-Ag85B(EA)和IFN-γ-ESAT6-Ag85B(IEA)融合抗原的重组酿酒酵母Yeast-EA和Yeast-IEA。重组酵母以皮下注射方式免疫小鼠后,小鼠产生高水平Ag85B特异性抗体,淋巴细胞分泌IFN-γ、IL-2等细胞因子,无IL-4产生,发生Th1型细胞免疫应答,其中Yeast-IEA效应更强,优于传统的BCG疫苗。实验证实重组酵母能够刺激树突状细胞的成熟分化。研究结果显示结核分枝杆菌抗原重组酿酒酵母全细胞疫苗具有发展成为新型抗结核疫苗的潜力。     

三重表达肺结核DNA疫苗在细胞水平的检测

目的 检测共表达siRNA、抗原基因与hIL-12的新型肺结核DNA疫苗在人胚肾293细胞中表达。方法 在已构建含有靶向抗调亡基因Mcl-1L的siRNA、结核分枝杆菌抗原基因Ag85B-ESAT6 (PVAE)、hIL-12的新型肺结核DNA疫苗pVAX-siRNA-PVAE-IL-12基础之上,将抗原基因与增强型绿色荧光蛋白（EGFP）基因融合,得到真核表达重组质粒pVAX1-siRNA-PVAE-EGFP-hIL12。并将siRNA单元用靶向EGFP基因的siEGFP代替,得到pVAX1-siEGFP-PVAE-EGFP-hIL12重组表达载体。用重组质粒转染人胚肾细胞293,分别观察融合抗原基因与siEGFP的表达。以ELISA测定培养细胞上清中hIL-12的表达。结果 经酶切鉴定和测序证实肺结核DNA疫苗改造成功。转染细胞中检测到绿色荧光,证实抗原表达。对照组检测到siEGFP的表达。转染48 h后检测出细胞上清中hIL-12的量为1571.63 pg/mL;72 h后检测出细胞上清中hIL-12的量为2392.25pg/mL。结论 已构建的肺结核质粒DNA疫苗能在真核细胞中有效表达siRNA、抗原基因与hIL-12。为进一步研究该DNA疫苗抗肺结核的免疫治疗和基因治疗效果打下基础。     

Recombinant BCG coexpressing Ag85B, ESAT-6 and mouse-IFN-gamma confers effective protection against Mycobacterium tuberculosis in C57BL/6 mice

In this study, the protective efficacy of a novel recombinant bacille Calmette Géurin (BCG) strain (rBCG-AEI) expressing fusion protein the antigen 85B (Ag85B)- the 6-kDa early secreted antigen target (ESAT-6)-IFN-gamma against Mycobacterium tuberculosis H37Rv in mice was evaluated. The immunogenicity study showed that rBCG-AEI could induce higher specific antibody titers and significantly increase cellular immune response than BCG, or rBCG-A strain (expressing Ag85B), or rBCG-AE strain (expressing fusion protein Ag85B-ESAT-6). The protective experiment demonstrated that rBCG-AEI could confer similar or even better protective efficacy against M. tuberculosis infection compared with others in organ bacterial loads, lung histopathology and net weight gain or loss. The results suggested that rBCG-AEI is a potential candidate for further study.     

小鼠对结核分枝杆菌Ag85B-Esat6-HspX融合基因的免疫反应

目的研究结核分枝杆菌Ag85B-Esat6-HspX融合基因的免疫原性。方法将40只BALB/c小鼠随机分成4组,NS组、BCG组、pcDNA-HspX组和pcDNA-Ag85B-Esat6-HspX组,每组10只。BCG组只在0周时皮内注射卡介苗1次。NS组、pcDNA-HspX组及融合基因组分别于0、2、4周肌肉注射生理盐水和重组质粒DNA,共免疫3次。在免疫的第2周,4周及最后一次免疫后2周检测体血清中的总IgG水平。同时,最后一次免疫后2周,取脾细胞检测细胞免疫反应。结果构建的融合基因重组质粒DNA免疫动物后能产生针对结核杆菌特定抗原的特异性细胞免疫和体液免疫应答,具有较强的免疫原性。结论结核分枝杆菌Ag85B-Esat6-HspX融合基因可作为DNA疫苗进行保护作用的研究。     

Immunogenicity and protective efficacy study using combination of four tuberculosis DNA vaccines

Tuberculosis is an ancient scourge of mankind. According to statistics, there are more than 10 million new cases of tuberculosis each year and the annual death toll for tuberculosis exceeds three millions. The current available BCG is of questionable efficacy, and its protection ranges from 0 to 85%. Therefore, developing a safe and effective vaccine against this scourge is very important. Previous studies have shown that the secreted proteins of Mycobacterium tuberculosis (M. TB) can induc…     

Immunogenicity and protective efficacy study using combination of four tuberculosis DNA vaccines

Immune response and protective efficacy for the combination of four tuberculosis DNA vaccines were evaluated in this study. We obtained 1:200 antibody titers against Ag85B 21d after mice were vaccinated for the first time by four recombinant eukaryotic expression vectors containing coding sequences for Ag85B, MPT-64, MPT-63 and ESAT-6. The titers of Ag85B were elevated to 1:102400 after the second injection and decreased to 1:12800 after the third injection. Antibody titers for MPT-64 and MPT-63 reached 1:25600 21 d after the first vaccination, and were then decreased following the second and third injections. No antigen-specific antibody titer against ESAT-6 was detected in sera harvested from immunized mice at any time. These DNA vaccines evoked specific IFN-λ responses in the spleens of vaccinated mice as well. When challenged with M. tuberculosis H37Rv, we found that the lungs of the vaccinated mice produced 99.8% less bacterial counts than that of the empty-vector control group and the bacterial counts were also significantly less than that of the BCG group. Histopathological analyses showed that the lungs of vaccinated mice produced no obvious caseation while over 50%-70% of the pulmonary parenchyma tissue produced central caseation in the vector control group. Our results indicated that the combination of four tuberculosis DNA vaccines may generate high levels of immune responses and result in better animal protection.     

Attempted immunotherapy for Mycobacterium tuberculosis with viral and protein vaccines based on Ag85B-ESAT6 in a mouse model

The increasing threat of drug-resistant strains of Mycobacterium tuberculosis (M. tb) and co-infection with human immunodeficiency virus (HIV) has worsened the international public health crisis and challenged conventional chemotherapy. Therapeutic vaccines, which possess the capacity to stimulate the immune system and affect the disease progression, deserve reconsideration to aid chemotherapy. Vaccines based on Ag85B-ESAT6 fusion protein were tested as potential immunotherapeutic vaccines against ongoing intravenous infection in a mouse model. Therapeutic efficacy was evaluated by enumeration of bacilli in infected tissues and by histological examination of the lungs. Ag85B-ESAT6 with the adjuvant dimethyl dioctadecylammonium bromide (DDA) - monophosphoryl lipid A (MPL) did not reduce bacterial load, however induced a sharp weight loss and worsened pathology. Recombinant virus-based vaccines failed to protect mice against tuberculosis either. More efforts should be taken to search for protective candidates and elucidate the mechanism for immunotherapy.     

Subunit Vaccine Consisting of Multi-Stage Antigens Has High Protective Efficacy against Mycobacterium tuberculosis Infection in Mice

To search for more effective tuberculosis (TB) subunit vaccines, antigens expressed in different growth stages of Mycobacterium tuberculosis (M. tuberculosis), such as RpfE (Rv2450c) produced in the stage of resuscitation, Mtb10.4 (Rv0288), Mtb8.4 (Rv1174c), ESAT6 (Rv3875), Ag85B (Rv1886c) mainly secreted by replicating bacilli, and HspX (Rv2031c) highly expressed in dormant bacilli, were selected to construct six fusion proteins: ESAT6-Ag85B-MPT64_190-198-Mtb8.4 (EAMM), Mtb10.4-HspX (MH), ESAT6-Mtb8.4, Mtb10.4-Ag85B, ESAT6-Ag85B, and ESAT6-RpfE. The six fusion proteins were separately emulsified in an adjuvant composed of N,N’-dimethyl-N, N’-dioctadecylammonium bromide (DDA), polyribocytidylic acid (poly I:C) and gelatin to construct subunit vaccines, and their protective effects against M. tuberculosis infection were evaluated in C57BL/6 mice. Furthermore, the boosting effects of EAMM and MH in the adjuvant of DDA plus trehalose 6,6''-dimycolate (TDM) on BCG-induced immunity were also evaluated. It was found that the six proteins were stably produced in E. coli and successfully purified by chromatography. Among them, EAMM presented the most effective protection against M. tuberculosis. Interestingly, the mice that received EAMM+MH had significantly lower bacterial counts in the lungs and spleens than the single protein vaccinated groups, and had the same effect as those that received BCG. In addition, EAMM and MH could improve BCG-primed protective efficacy against M. tuberculosis infection in mice. In conclusion, the combination of EAMM and MH containing antigens from both replicating and dormant stages of the bacilli could induce robust immunity against M. tuberculosis infection in mice and may serve as promising subunit vaccine candidate.     

新型抗结核蛋白亚单位疫苗Ag85A-γ干扰素的免疫效果评价

本研究旨在评价新型抗结核融合蛋白亚单位疫苗Ag85A-γ干扰素(Ag85A-IFN-γ)的免疫效果.在成功表达并纯化了去除Ag85A信号肽的融合蛋白Ag85A-IFN-γ后,将其与免疫佐剂二甲基三十六烷基铵(DDA)混合,皮下免疫C57BL/6小鼠3次,每次间隔2周,末次免疫2周后进行效果评价.采用酶联免疫吸附试验(ELISA)检测血清中IgG、IgG1和IgG2c水平.结果显示,融合蛋白Ag85A-IFN-γ组的IgG水平均高于单独抗原组,且融合蛋白组IgG2c/IgG1 比值显著高于对照组,表明融合蛋白能刺激宿主产生更强烈的体液免疫反应,更倾向于激发T辅助细胞1型(Th1型)免疫反应.流式细胞术检测特异性CD4+和CD8+ T细胞比例,发现Ag85A-IFN-γ组CD8+/CD4+最高,显示该融合蛋白能显著增强CD8+ T细胞增殖.上述结果表明,融合蛋白Ag85A-IFN-γ有望成为有效的新型抗结核融合蛋白亚单位疫苗.     

The Ag85B protein of Mycobacterium tuberculosis may turn a protective immune response induced by Ag85B-DNA vaccine into a potent but non-protective Th1 immune response in mice

Clarifying how an initial protective immune response to tuberculosis may later loose its efficacy is essential to understand tuberculosis pathology and to develop novel vaccines. In mice, a primary vaccination with Ag85B-encoding plasmid DNA (DNA-85B) was protective against Mycobacterium tuberculosis (MTB) infection and associated with Ag85B-specific CD4+ T cells producing IFN-gamma and controlling intramacrophagic MTB growth. Surprisingly, this protection was eliminated by Ag85B protein boosting. Loss of protection was associated with a overwhelming CD4+ T cell proliferation and IFN-gamma production in response to Ag85B protein, despite restraint of Th1 response by CD8+ T cell-dependent mechanisms and activation of CD4+ T cell-dependent IL-10 secretion. Importantly, these Ag85B-responding CD4+ T cells lost the ability to produce IFN-gamma and control MTB intramacrophagic growth in coculture with MTB-infected macrophages, suggesting that the protein-dependent expansion of non-protective CD4+ T cells determined dilution or loss of the protective Ag85B-specific CD4+ induced by DNA-85B vaccination. These data emphasize the need of exerting some caution in adopting aggressive DNA-priming, protein-booster schedules for MTB vaccines. They also suggest that Ag85B protein secreted during MTB infection could be involved in the instability of protective anti-tuberculosis immune response, and actually concur to disease progression.     

Immunization with the gene expressing woodchuck hepatitis virus nucleocapsid protein fused to cytotoxic-T-lymphocyte-associated antigen 4 leads to enhanced specific immune responses in mice and woodchucks

A number of options are available to modify and improve DNA vaccines. An interesting approach to improve DNA vaccines is to fuse bioactive domains, like cytotoxic-T-lymphocyte-associated protein 4 (CTLA-4), to an antigen. Such fusion antigens are expressed in vivo and directed to immune cells by the specific bioactive domain and therefore possess great potential to induce and modulate antigen-specific immune responses. In the present study, we tested this new approach for immunomodulation against hepadnavirus infection in the woodchuck model. Plasmids expressing the nucleocapsid protein (WHcAg) and e antigen (WHeAg) of woodchuck hepatitis virus (WHV) alone or in fusion to the extracellular domain of woodchuck CTLA-4 and CD28 were constructed. Immunizations of mice with plasmids expressing WHcAg or WHeAg led to a specific immunoglobulin G2a (IgG2a)-dominant antibody response. In contrast, fusions of WHcAg to CTLA-4 and CD28 induced a specific antibody response with comparable levels of IgG1 and IgG2a. Furthermore, the specific IgG1 response to WHcAg/WHeAg developed immediately after a single immunization with the CTLA-4-WHcAg fusion. Woodchucks were immunized with plasmids expressing WHeAg or the CTLA-4-WHcAg fusion and subsequently challenged with WHV. CTLA-4-WHcAg showed an improved efficacy in induction of protective immune responses to WHV. In particular, the anti-WHsAg antibody response developed earlier after challenge in woodchucks that received immunizations with CTLA-4-WHcAg, consistent with the hypothesis that anti-WHs response is dependent on a Th cell response to WHcAg. In conclusion, the use of fusion genes represents a generally applicable strategy to improve DNA vaccination.     

结核分枝杆菌融合蛋白Ag85B-Hsp16．3、Ag85B-ESAT6和分泌蛋白Hspl6．3体外对人肝癌细胞HepG-2的作用

目的：探讨结核分枝杆菌融合蛋白Ag85B-Hspl6．3、Ag85B-ESAT6及分泌蛋白Hspl6-3对人肝癌细胞HepG-2的作用。方法：将已构建的含3种目的基因的表达载体pProEXHTa-Ag85B-Hspl6．3、pProEXHTa-Ag85B-ESAT6和pProEXHTb-Hspl6．3,分别转入宿主菌EcoliDH5α中,诱导表达后分别获得Ag85B-Hspl6．3、Ag85B-ESAT6和Hspl6．3三种蛋白,采用Ni^2＋亲和层析柱进行纯化,并用透析方法进行目的蛋白的复性。复性的蛋白按照不同浓度和作用时间分别与肝癌细胞HepG-2反应,用MTT法检测细胞生长情况。结果：三种蛋白被成功纯化并复性。MTT数据统计分析显示,终浓度101xg／ml的三种蛋白对HepG-2细胞生长没有明显作用,当三种蛋白的终浓度分别为20、40、801μg／ml时均能够抑制HepG-2细胞的生长,并且抑制作用随着蛋白终浓度的增大以及作用时间的延长而增强。不同类别的蛋白抑制作用没有明显差别。结论：结核分枝杆菌的部分分泌蛋白能够抑制肝癌细胞HepG-2的生长。     

A novel recombinant Mycobacterium bovis bacillus Calmette-Guerin strain expressing human granulocyte macrophage colony-stimulating factor and Mycobacterium tuberculosis early secretory antigenic target 6 complex augments Th1 immunity

Since Mycobacterium bovis bacillus Calmette-Guerin strain (BCG) fails to protect adults from pulmonary tuberculosis (TB), there is an urgent need for developing a new vaccine. In this study, we constructed a novel recombinant BCG strain (rBCG) expressing human granulocyte macrophage colony-stimulating factor (GM-CSF) and the 6 kDa early secretory antigenic target (ESAT6) of Mycobacterium tuberculosis, named rBCG:GE (expressing GMCSF-ESAT6 complex), and evaluated the immunogenicity of the construct in BALB/c mice. Our results indicated that the rBCG:GE was able to induce higher titer of antibody than the conventional BCG, the rBCG:G (expressing GM-CSF) and the rBCG:E (expressing ESAT6). Moreover, the rBCG:GE also elicited a longer-lasting and stronger Th1 cellular immune responses than the other groups, which was confirmed by the incremental proliferation of splenocytes, the increased percentages of CD4(+) and CD8(+) T cells of spleen, the elevated level of interferon-γ in splenocyte culture after tuberculin-purified protein derivative stimulation, and the increased concentration of GM-CSF in serum. The data presented here suggested the possibility that the recombinant BCG:GE might be a good vaccine candidate to TB.     

A novel DNA vaccine containing multiple TB-specific epitopes cast in a natural structure elicits enhanced Th1 immunity compared with BCG

Vaccination is expected to make a major contribution to the goal of eliminating tuberculosis worldwide by 2050. Because the protection afforded by the currently available tuberculosis vaccine, BCG, is insufficient, new vaccine strategies are urgently needed. Protective immunity against MTB depends on generation of a Th1-type cellular immune response characterized by secretion of IFN-γ from antigen-specific T cells. Epitope-driven vaccines are created from sub-sequences of proteins (epitopes) derived by scanning the protein sequences of pathogens and selecting epitopes with patterns of amino acids which permit binding to human MHC molecules. Guided by the crystal structure of HSP65 and its characteristics, four functional T cell epitopes elaborately elicited from ESAT-6, Ag85A, CFP-10 and Ag85B were cast into the intermediate domain of HSP65. A panel of a novel chimeric vaccine, ECANS, expressing HSP65 and combined T cell epitopes was created. Gene cloning and sequencing, DNA vaccination and humoral and cellular responses were studied. After being immunized with DNA vaccine three times, all mice injected with ECANS had specific cellular immune responses. In addition, lymphocytes obtained from the spleen of ECANS immunized mice at week eight exhibited significantly greater specific lymphocyte proliferation, IFN-γ secretion and CTL activity than those of mice that had been immunized with BCG. DNA vaccine with ECANS can successfully induce enhanced specific cellular immune response to PPD, and further study of its protective effects against Mycobacterium tuberculosis in vivo is needed.     

Novel recombinant BCG coexpressing Ag85B,ESAT‐6 and mouse TNF‐α induces significantly enhanced cellular immune and antibody responses in C57BL/6 mice

The recent emergence of multidrug‐resistant and extensively drug‐resistant strains of Mtb and the epidemic of TB in populations co‐infected with human immunodeficiency virus demonstrate that TB remains a leading infectious disease. Moreover, the failure of BCG to protect against this disease indicates that new vaccines against TB are urgently needed. Experimental evidence has revealed that TNF plays a major role in host defense against Mtb in both active and latent phases of infection. Release of TNF, which would induce mycobacteria‐mediated macrophage apoptosis and thus reduce the spread of mycobacteria, is one of the most important and early responses of macrophages challenged with Mtb. In order to identify the usefulness of TNF in improving the effectiveness of TB vaccine, in the current study a novel rBCG strain expressing the fusion gene of Ag85B‐Esat6‐TNF‐α in BCG Danish strain was constructed, and its ability to induce an immune response in C57BL/6 mice evaluated. It was found that immunization with strains of rBCG‐Ag85B‐Esat6‐TNF‐α can induce a stronger immune response than does immunization with rBCG‐Ag85B‐Esat6 or parental BCG. The results indicate that rBCG‐Ag85B‐Esat6‐TNF‐α is a promising candidate for further study.     

Protective and therapeutic efficacy of Mycobacterium smegmatis expressing HBHA-hIL12 fusion protein against Mycobacterium tuberculosis in mice

Tuberculosis (TB) remains a major worldwide health problem. The only vaccine against TB, Mycobacterium bovis Bacille Calmette-Guerin (BCG), has demonstrated relatively low efficacy and does not provide satisfactory protection against the disease. More efficient vaccines and improved therapies are urgently needed to decrease the worldwide spread and burden of TB, and use of a viable, metabolizing mycobacteria vaccine may be a promising strategy against the disease. Here, we constructed a recombinant Mycobacterium smegmatis (rMS) strain expressing a fusion protein of heparin-binding hemagglutinin (HBHA) and human interleukin 12 (hIL-12). Immune responses induced by the rMS in mice and protection against Mycobacterium tuberculosis (MTB) were investigated. Administration of this novel rMS enhanced Th1-type cellular responses (IFN-γ and IL-2) in mice and reduced bacterial burden in lungs as well as that achieved by BCG vaccination. Meanwhile, the bacteria load in M. tuberculosis infected mice treated with the rMS vaccine also was significantly reduced. In conclusion, the rMS strain expressing the HBHA and human IL-12 fusion protein enhanced immunogencity by improving the Th1-type response against TB, and the protective effect was equivalent to that of the conventional BCG vaccine in mice. Furthermore, it could decrease bacterial load and alleviate histopathological damage in lungs of M. tuberculosis infected mice.     

A multivalent combination of experimental antituberculosis DNA vaccines based on Ag85B and regions of difference antigens

Two candidate DNA vaccines based on the proteins CFP10 and CFP21 encoded by regions of difference (RDs) of Mycobacterium tuberculosis were evaluated individually and in multivalent combination with the immunodominant protein Ag85B for induction of protective immune responses against experimental tuberculosis. Experimental DNA vaccines induced substantial levels of cell-mediated immune responses as indicated by marked lymphocyte proliferation, significant release of the Th1 cytokines IFN-gamma and IL-12 (p40), and predominant cytotoxic T cell activity. High levels of antigen-specific IgG1 and IgG2a antibodies observed in the sera of immunized mice depicted strong humoral responses generated by DNA vaccine constructs. The multivalent combination of three DNA vaccine constructs induced maximal T cell and humoral immune responses. All the experimental vaccines imparted significant protection against challenge with M. tuberculosis H(37)Rv (in terms of colony-forming unit reduction in lungs and spleen) as compared to vector controls. The level of protection exhibited by multivalent DNA vaccine formulation was found to be equivalent to that of Mycobacterium bovis BCG observed both at 4 and 8 weeks post-challenge. These results show the protective potential of the multivalent DNA vaccine formulation used in this study.