Kaur, Manpreet ; Bhatnagar, Rakesh (2011) Recent progress in the development of anthrax vaccines Recent Patents on Biotechnology, 5 (3). pp. 148-159. ISSN 1872-2083
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Official URL: http://www.benthamdirect.org/pages/content.php?BIO...
Abstract
Bacillus anthracis is the etiological agent of anthrax. Although anthrax is primarily an epizootic disease; humans are at risk for contracting anthrax. The potential use of B. anthracis spores as biowarfare agent has led to immense attention. Prolonged vaccination schedule of current anthrax vaccine and variable protection conferred; often leading to failure of therapy. This highlights the need for alternative anthrax countermeasures. A number of approaches are being investigated to substitute or supplement the existing anthrax vaccines. These relied on expression of Protective antigen (PA), the key protective immunogen; in bacterial or plant systems; or utilization of attenuated strains of B. anthracis for immunization. Few studies have established potential of domain IV of PA for immunization. Other targets including the spore, capsule, S-layer and anthrax toxin components have been investigated for imparting protective immunity. It has been shown that co-immunization of PA with domain I of lethal factor that binds PA resulted in higher antibody responses. Of the epitope based vaccines, the loop neutralizing determinant, in particular; elicited robust neutralizing antibody response and conferred 97% protection upon challenge. DNA vaccination resulted in varying degree of protection and seems a promising approach. Additionally, the applicability of monoclonal and therapeutic antibodies in the treatment of anthrax has also been demonstrated. The recent progress in the direction of anthrax prophylaxis has been evaluated in this review
Item Type: | Article |
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Source: | Copyright of this article belongs to Bentham Science Publishers. |
Keywords: | In Vivo Challenge; Lethal Toxin; Neutralizing Antibodies; Protection; Protective Antigen; Therapeutics; Vaccines; Anthrax Toxins; Anthrax Vaccine Adsorbed; Edema Toxin; Plasmids; Proteolytic Cleavage; Furin-like Protease |
ID Code: | 93511 |
Deposited On: | 21 Jun 2012 05:44 |
Last Modified: | 21 Jun 2012 05:44 |
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