Stable expression of Leptospira interrogans antigens in auxotrophic Mycobacterium bovis BCG (original) (raw)
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Vaccine, 2020
Leptospirosis is a zoonotic disease worldwide and caused by the pathogenic spirochetes of the genus Leptospira. Bacterins make up the vaccines used against leptospirosis, but they only succeed in providing short-term and serovar-specific protection. The use of Mycobacterium bovis BCG as a live vaccine vector expressing leptospiral antigens is a promising alternative, particularly due to its adjuvant properties. Four distinct portions P 1 (lipL32), P 2 (ligAni), P 3 (lemA:ligAni) and P 4 (lipL32:lemA) of a recombinant chimera composed of the lipL32, lemA and ligANI genes from Leptospira interrogans were cloned individually according to the BioBricks Ò strategy in the plasmid pUP500/P pAN. These constructs were individually transformed into a BCG Pasteur strain, and protein expression was detected by Western blot. For vaccination, 5 groups of 10 Golden Syrian hamsters were used, aged 4-6 weeks-group 1, rBCG (LipL32); group 2, rBCG (LigAni); group 3, rBCG (LemA:LigAni); group 4, (LipL32:LemA); group 5, wild-type BCG Pasteur (negative control). Two doses containing 10 6 CFU of rBCG were administered subcutaneously, the challenge was performed with 5 Â LD 50 of Leptospira interrogans serovar Copenhageni L1-130, and the animals were observed for a 30-day period until the endpoint was reached. Humoral immunity was assessed via indirect ELISA, while renal colonisation was assessed by culture and quantitative real-time PCR. All vaccinated groups were protected against lethal challenge and renal colonisation, in comparison with negative control group (P < 0.05). Recombinant vaccines were not effective at inducing significant humoral immunity, which suggests the induction of cellular immunity-a characteristic of M. bovis BCG. In conclusion, all formulations provide 100% significant protection against leptospirosis in hamsters with no renal colonisation. The use of rBCG as a vaccine vector represents a promising alternative for the control of animal leptospirosis, allowing for protection against clinical signs of leptospirosis and renal colonisation.
FEMS Microbiology Letters, 2000
In spite of major advances in our understanding of the biology and immunology of tuberculosis, the incidence of the disease has not reduced in most parts of the world. In an attempt to improve the protective efficacy of Mycobacterium bovis bacille Calmette^Guërin (BCG), we have developed a generic vector system, pSD5, for expression of genes at varying levels in mycobacteria. In this study, we have cloned and overexpressed three immunodominant secretory antigens of M. tuberculosis, 85A, 85B and 85C, belonging to the antigen 85 complex. All the genes were cloned under the control of a battery of mycobacterial promoters of varying strength. The expression was analysed in the fast-growing strain M. smegmatis and the slow-growing vaccine strain M. bovis BCG. The recombinant BCG constructs were able to express the antigens at high levels and the majority of the expressed antigens was secreted into the medium. These results show that by using this strategy the recombinant BCG approach can be successfully used for the development of candidate vaccines against infections associated with mycobacteria as well as other pathogens.
Infection and immunity, 1996
The activation of antigen-specific T lymphocytes is essential for the control of leprosy infection in humans and experimental animals. T cells recognize a variety of protein antigens from Mycobacterium leprae, including the 18-kDa protein, which is limited in distribution among mycobacteria and which is absent from Mycobacterium tuberculosis and the vaccine strain, Mycobacterium bovis BCG. Adjuvant preparations of mycobacterial protein antigens have had limited protective efficacy for experimental infections in animals. Since recombinant vectors may elicit more effective T-cell responses than adjuvant preparations, recombinant vaccinia virus (VV18) and M. bovis BCG (BCG18) vectors expressing the 18-kDa protein of M. leprae were prepared. Both VV18 and BCG18 stimulated anti-18-kDa protein antibody and lymphocyte proliferative responses. Sequential immunization with VV18 followed by BCG18 induced higher levels of specific immunoglobulin G2a antibodies than immunoglobulin G1 antibodies...
Recombinant Mycobacterium bovis BCG
Vaccine, 2009
The Bacillus Calmette-Guerin (BCG) is an attenuated strain of Mycobacterium bovis that has been broadly used as a vaccine against human tuberculosis. This live bacterial vaccine is able to establish a persistent infection and induces both cellular and humoral immune responses. The development of mycobacterial genetic systems to express foreign antigens and the adjuvanticity of BCG are the basis of the potential use of this attenuated mycobacterium as a recombinant vaccine. Over the years, a range of strategies has been developed to allow controlled and stable expression of viral, bacterial and parasite antigens in BCG. Herein, we review the strategies developed to express heterologous antigens in BCG and the immune response elicited by recombinant BCG constructs. In addition, the use of recombinant BCG as an immunomodulator and future perspectives of BCG as a recombinant vaccine vector are discussed.
Infection and immunity, 1997
Recombinant Mycobacterium bovis BCG expressing foreign antigens represents a promising candidate for the development of future vaccines and was shown in several experimental models to induce protective immunity against bacterial or parasitic infections. Innate resistance to BCG infection is under genetic control and could modify the immune responses induced against an antigen delivered by such engineered microorganisms. To investigate this question, we analyzed the immune responses of various inbred strains of mice to recombinant BCG expressing beta-galactosidase. These experiments demonstrated that BALB/c mice developed strong antibody responses against BCG expressing beta-galactosidase under the control of two different promoters. In contrast, C57BL/6, C3H, and CBA mice produced high anti-beta-galactosidase antibody titers only when immunized with recombinant BCG expressing beta-galactosidase under the control of the pblaF* promoter, which induced the production of high levels of ...
Novel vaccination strategies based on recombinant Mycobacterium bovis BCG
International Journal of Medical Microbiology, 2003
In this manuscript, we will review the utilization of Mycobacterium bovis Bacille Calmette-Gue ¬rin (BCG) as a vaccine against tuberculosis (TB) and as a carrier system for heterologous antigens. BCG is one of the most widely used vaccines. Novel techniques in genome manipulation allow the construction of virulence-attenuated recombinant (r)-BCG strains that can be employed as homologous vaccines, or as heterologous antigen delivery systems, for priming pathogen-specific immunity against infectious diseases, including TB. Several approaches are available for heterologous antigen expression and compartmentalization in BCG and recent findings show the potential to modulate and direct the immune responses induced by r-BCG strains as desired. Recent achievements in complete genome analysis of various target pathogens, combined with a better understanding of protective pathogenspecific immune responses, form the basis for the rational design of a new generation of recombinant mycobacterial vaccines against a multitude of infectious diseases.
Vaccine, 2019
Leptospirosis is a zoonosis that is responsible for one million human cases per year. Fusing multiple immunogenic antigens represents a promising approach to delivering an effective vaccine against leptospirosis. Mycobacterium bovis bacillus Calmette-Guérin (BCG) is a potential vaccine vector due to its adjuvant properties and safety. Two chimeric genes based on genic sequences of ligANI, ligBrep, lipL32, and lemA, were individually cloned into five BioBrick vectors with different promoters (pAN, Hsp60, 18 kDa, Ag85B and Ag85B plus signal sequence) for antigen expression in BCG. Groups of ten hamsters were vaccinated with recombinant BCG (rBCG) strains in two doses of 10 6 CFU and challenged with 5 Â LD 50 of L. interrogans serovar Copenhageni. All rBCG vaccines expressing chimera 1, based on antigens LipL32, LigANI, and LemA, under the control of any promoter, protected 80-100% of the hamsters from challenge (P < 0.05) and four of them also protected from renal carrier status; for chimera 2, based on LigANI and LigBrep antigens, the only vaccine that afforded survival rates statistically different from the control was the vaccine that incorporated the pAN promoter (60% of survival). A single vaccine dose was sufficient to induce significant IgG levels by all vaccine compositions evaluated; however, humoral response was not related to protection. These findings suggest that the combination of potential vaccine candidates in chimeric antigens and the use of BCG as a live vector are promising strategies by which it is possible to obtain an effective and sterilizing vaccine against leptospirosis.
The Open Conference Proceedings Journal, 2016
Tuberculosis (TB) is a major global health problem and has been declared "a global emergency" by the World Health Organization. The failures of the currently available vaccine against TB, i.e. Mycobacterium bovis BCG, to impart consistent protection against TB, have led to the need for alternative vaccines. The low molecular weight major antigenic proteins, i.e. PE35, CFP10 and ESAT6, encoded by Mycobacterium tuberculosis-specific region of difference-1 (RD1) are among the antigens considered important to develop new TB vaccines. To deliver these antigens, two DNA vaccine vectors (pUMVC6 and pUMVC7) and three live mycobacterial species (M. bovis BCG, M. vaccae and M. smegmatis) were evaluated for the induction of antigenspecific cellular immune responses in animals. DNA corresponding to pe35, esat6 and cfp10 genes were amplified using polymerase chain reaction (PCR) from the genomic DNA of M. tuberculosis and cloned into plasmids pUMVC6 and pUMVC7 to prepare DNA vaccine constructs. Furthermore, the PCR-amplified DNA were cloned into a shuttle plasmid (pDE22), and the recombinant shuttle plasmids (pDE22-PE35, pDE22-CFP10 and pDE22-ESAT6) were electroporated into mycobacteria. The induction of antigen specific cellular immune responses was studied by immunizing mice and guinea-pigs with the recombinant constructs. The results with all the recombinant constructs and both animal models showed the consistent induction of antigen-specific cellular immune responses (spleen cell proliferation and secretion of protective T helper 1 cytokine interferon-γ in mice, and delayed-type hypersensitivity skin responses in guinea-pigs) only with the recombinant constructs expressing PE35 protein. These results suggest the superiority of PE35 antigen in inducing protective cellular immune responses in animals.
Memórias do Instituto Oswaldo Cruz, 2017
BACKGROUND Bovine tuberculosis (TB) is a zoonotic disease caused by Mycobacterium bovis, responsible for causing major losses in livestock. A cost effective alternative to control the disease could be herd vaccination. The bacillus Calmette-Guérin (BCG) vaccine has a limited efficacy against bovine TB, but can improved by over-expression of protective antigens. The M. bovis antigen 85B demonstrates ability to induce protective immune response against bovine TB in animal models. However, current systems for the construction of recombinant BCG expressing multiple copies of the gene result in strains of low genetic stability that rapidly lose the plasmid in vivo. Employing antibiotic resistance as selective markers, these systems also compromise vaccine safety. We previously reported the construction of a stable BCG expression system using auxotrophic complementation as a selectable marker. OBJECTIVES The fundamental aim of this study was to construct strains of M. bovis BCG Pasteur and the auxotrophic M. bovis BCG ΔleuD expressing Ag85B and determine their stability in vivo. METHODS Employing the auxotrophic system, we constructed rBCG strains that expressed M. bovis Ag85B and compared their stability with a conventional BCG strain in mice. Stability was measured in terms of bacterial growth on the selective medium and retention of antigen expression. FINDINGS The auxotrophic complementation system was highly stable after 18 weeks, even during in vivo growth, as the selective pressure and expression of antigen were maintained comparing to the conventional vector. MAIN CONCLUSION The Ag85B continuous expression within the host may generate a stronger and long-lasting immune response compared to conventional systems.
Infection and Immunity, 2002
ABSTRACTBivalent recombinant strains ofMycobacterium bovisBCG (rBCG) expressing the early regulatorynefand the structuralgag(p26) genes from the simian immunodeficiency virus (SIV) SIVmac251 were engineered so that both genes were cotranscribed from a synthetic operon. The expression cassette was cloned into a multicopy-replicating vector, and the expression levels of bothnefandgagin the bivalent rBCG(nef-gag) strain were found to be comparable to those of monovalent rBCG(nef) or rBCG(gag) strains. However, extrachromosomal cloning of thenef-gagoperon into a replicative plasmid resulted in strains of low genetic stability that rapidly lost the plasmid in vivo. Thus, thenef-gagoperon was inserted site specifically into the BCG chromosome by means of mycobacteriophage Ms6-derived vectors. The resulting integrative rBCG(nef-gag) strains showed very high genetic stability both in vitro and in vivo. The in vivo expression of the heterologous genes was much longer lived when the expressio...