Protective immune-response of aluminium hydroxide gel adjuvanted phage lysate of Brucella abortus S19 in mice against direct virulent challenge with B. abortus 544

The prophylactic efficacies of plain and alum adsorbed lysate were evaluated by direct virulent challenge in mice model. A recently isolated brucellaphage ‘ϕLd’ was used for generation of lysates. Twenty four h incubated Brucella abortus S19 broth cultures standardized to contain approximately 108 CFU/ml were found suitable for generation of lysates. Three lysate batches produced through separate cycles did not show any significant variation with respect to protein and polysaccharide contents, endotoxin level and phage counts, indicating that compositionally stable lysate preparations can be generated through an optimized production process. Three polypeptides of ∼16, 19 and 23 kDa could be identified as immuno-dominant antigens of the lysate which induced both humoral and cell-mediated immune responses in a dose dependent manner. Results of efficacy evaluation trial confirmed dose-dependent protective potencies of lysate preparation. The lysate with an antigenic dose of 0.52 μg protein and 60 μg CHO adsorbed on aluminium gel (0.1 percent aluminium concentration) exhibited the highest protective potency which was greater than that induced by standard S19 vaccine. Phage lysate methodology provides a very viable option through which an improved immunizing preparation with all desirable traits can be developed against brucellosis, and integrated with immunization programmes in a more efficient manner. •Brucellaphage (lytic to Brucella abortus S19) was used for phage lysate generation.•HI, CMI, cytokine response & protective efficacy by direct challenge was evaluated.•Adjuvant lysate PL-Ad 100μl showed protective efficacy better than S19 vaccine.•Phage lysate can be viable option to improve immunizing agent against brucellosis.