Next-Generation Vaccines Based on Bacille Calmette–Guérin (original) (raw)
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Recombinant BCG Vaccine Candidates
Current Molecular Medicine, 2007
Given the variable protective efficacy provided by Mycobacterium bovis BCG (Bacillus Calmette-Guérin), there is a concerted effort worldwide to develop better vaccines that could be used to reduce the burden of tuberculosis. Recombinant BCG (rBCG) are vaccine candidates that offer some potential in this area. In this paper, we will discuss the molecular methods used to generate rBCG, and the results obtained with some of these new vaccines as compared with the conventional BCG vaccine in diverse animal models. Tuberculosis vaccine candidates based on rBCG are promising candidates, and some of them are now being tested in clinical trials.
Future Path Toward TB Vaccine Development: Boosting BCG or Re-educating by a New Subunit Vaccine
Frontiers in immunology, 2018
Tuberculosis (TB), an infectious disease caused by (), kills 5,000 people per day globally. Rapid development and spread of various multi drug-resistant strains of emphasize that an effective vaccine is still the most cost-effectives and efficient way of controlling and eradicating TB. Bacillus Calmette-Guerin (BCG), the only licensed TB vaccine, still remains the most widely administered human vaccine, but is inefficient in protecting from pulmonary TB in adults. The protective immunity afforded by BCG is thought to wane with time and considered to last only through adolescent years. Heterologous boosting of BCG-primed immune responses using a subunit vaccine represents a promising vaccination approach to promote strong cellular responses against . In our earlier studies, we discovered lipopeptides of ESAT-6 antigen with strong potential as a subunit vaccine candidate. Here, we have investigated that potential as a booster to BCG vaccine in both a pre-exposure preventive vaccine an...
Nonclinical Development of BCG Replacement Vaccine Candidates
Vaccines, 2013
The failure of current Mycobacterium bovis bacille Calmette-Gué rin (BCG) vaccines, given to neonates to protect against adult tuberculosis and the risk of using these live vaccines in HIV-infected infants, has emphasized the need for generating new, more efficacious and safer replacement vaccines. With the availability of genetic techniques for constructing recombinant BCG (rBCG) strains containing well-defined gene deletions or insertions, new vaccine candidates are under evaluation at both the preclinical and clinical stages of development. Since most BCG vaccines in use today were evaluated in clinical trials decades ago and are produced by outdated processes, the development of new BCG vaccines offers a number of advantages that include a modern well-defined manufacturing process along with state-of-the-art evaluation of safety and efficacy in target populations. We provide a description of the preclinical development of two novel rBCGs, VPM1002 that was constructed by adding a modified hly gene coding for the protein listeriolysin O (LLO) from Listeria monocytogenes and AERAS-422, which carries a modified pfoA gene coding for the protein perfringolysin O (PFO) from Clostridium perfringens, and three genes from Mycobacterium tuberculosis. Novel approaches like these should be helpful in
BCG Vaccine and New Tuberculosis Vaccines Against Mycobacterium tuberculosis: A review
2020
Mycobacterium tuberculosis (M. tuberculosis) causes tuberculosis (TB) which is a serious infectious disease. Bacteria are spread from person to person through tiny droplets released into the air via sneezing and coughing. Despite global efforts to control TB, the disease is the second most common cause of death after Acquired Immune Deficiency Syndrome (AIDS). Currently, Bacillus Calmette-Guerin (BCG) vaccine is used to prevent tuberculous meningitis and miliary disease, particularly in young children, but its protective efficacy is variable in adults. Therefore, there is an urgent need for the development of alternative TB vaccines. Recently, new TB vaccine development efforts have been advanced in different clinical studies. Most of these vaccines are live-attenuated or recombinant mycobacterium, live viral vector-based, and protein/adjuvant vaccines. This review explains the recapitulation of the current status of new TB vaccines updated with scientific literature references.
A novel live recombinant mycobacterial vaccine against bovine tuberculosis more potent than BCG
Vaccine, 2006
Mycobacterium bovis infection of cattle and other domesticated animals exacts a significant economic toll in both economically developing and industrialized countries. Vaccination of herds and/or wild animals that share their grazing land and serve as reservoirs of infection has been proposed as a strategy to combat bovine tuberculosis. However, the only currently available vaccine, M. bovis BCG, is not highly efficacious. Here we show that a live recombinant vaccine, rBCG30, which expresses large amounts of the Mycobacterium tuberculosis 30 kDa major secretory protein, is more efficacious against bovine tuberculosis than BCG in the highly demanding guinea pig model of pulmonary tuberculosis. Compared with the parental wild-type BCG strain, rBCG30 administered intradermally induced significantly greater cell-mediated and humoral immune responses against the 30 kDa protein, as determined by measuring cutaneous delayed-type hypersensitivity and antibody titers. As for potency, in three independent experiments, rBCG30 induced greater protective immunity than BCG against aerosol challenge with a highly virulent strain of M. bovis, reducing the burden of M. bovis by 0.4 ± 0.2 log colony-forming units (CFU) in the lung (P < 0.05) and by 1.1 ± 0.4 log CFU in the spleen (P = 0.0005) below the level in BCG-immunized animals. A recombinant BCG vaccine overexpressing the identical M. bovis 30 kDa protein, rBCG30Mb, also induced greater cell-mediated and humoral immunity against the 30 kDa protein than BCG and greater protective immunity against M. bovis challenge; however, its potency was not significantly different from rBCG30. As rBCG30 is significantly more potent than BCG against M. bovis challenge, it has potential as a vaccine against bovine tuberculosis in domesticated animals and in wild animal reservoirs.
Recombinant BCG to Enhance Its Immunomodulatory Activities
Vaccines
The bacillus Calmette–Guérin (BCG) is an attenuated Mycobacterium bovis derivative that has been widely used as a live vaccine against tuberculosis for a century. In addition to its use as a tuberculosis vaccine, BCG has also been found to have utility in the prevention or treatment of unrelated diseases, including cancer. However, the protective and therapeutic efficacy of BCG against tuberculosis and other diseases is not perfect. For three decades, it has been possible to genetically modify BCG in an attempt to improve its efficacy. Various immune-modulatory molecules have been produced in recombinant BCG strains and tested for protection against tuberculosis or treatment of several cancers or inflammatory diseases. These molecules include cytokines, bacterial toxins or toxin fragments, as well as other protein and non-protein immune-modulatory molecules. The deletion of genes responsible for the immune-suppressive properties of BCG has also been explored for their effect on BCG-...
Genetic screening for the protective antigenic targets of BCG vaccination
Tuberculosis, 2020
Bovine tuberculosis is an important animal health problem and the predominant cause of zoonotic tuberculosis worldwide. It results in serious economic burden due to losses in productivity and the cost of control programmes. Control could be greatly improved by the introduction of an efficacious cattle vaccine but the most likely candidate, BCG, has several limitations including variable efficacy. Augmentation of BCG with a subunit vaccine booster has been shown to increase protection but the selection of antigens has hitherto been left largely to serendipity. In the present study, we take a rational approach to identify the protective antigens of BCG, selecting a BCG transposon mutant library in naïve and BCG-vaccinated cattle. Ten mutants had increased relative survival in vaccinated compared to naïve cattle, consistent with loss of protective antigen targets making the mutants less visible to the BCG immune response. The immunogenicity of three putative protective antigens, BCG_0116, BCG_0205 (YrbE1B) and BCG_1448 (PPE20) was investigated using peptide pools and PBMCs from BCG vaccinated cattle. BCG vaccination induced PBMC to release elevated levels of IP10, IL-17a and IL-10 in response to all three antigens. Taken together, the data supports the further study of these antigens for use in subunit vaccines.