Following the ban on the use of in-feed antimicrobials, necrotic enteritis (NE) NE is the most important clostridial disease. Vaccination has been considered as a possible approach to prevent NE. Our previous study showed that a chimeric protein product consisting of antigenic epitopes of NetB, Alpha-toxin and Zinc metallopeptidase (Zmp) triggered immune response against C. perfringens. In the current study we optimized the chimeric gene and constructed a fusion protein containing NetB, Alpha-toxin and Metallopeptidase (NAM) for expressing in tobacco plant to use as an edible vaccine for immunizing the chicken against NE. Simultaneously, we expressed and purified a His-tagged recombinant version of the NAM (rNAM) expressed in E. coli BL21 for subcutaneous immunization of chickens. Immunized birds produced strong humoral immune responses against both edible plant-based and parenteral purified rNAM. The responses were determined by the mean titer of antibody in blood samples to be around 9000 and 32,000, for edible and injected rNAM, respectively. Birds immunized subcutaneously showed the most striking responses. However the edible vaccine provided a more long lasting IgY response 14 days after the third vaccination compared to the injected birds. Chickens immunized with either lyophilized leaves expressing rNAM or purified rNAM, subsequently were subjected to the challenge with a virulent C. perfringens strain using an NE disease model. Our results showed that birds immunized both parenterally and orally with recombinant chimeric vaccine were significantly protected against the severity of lesion in the intestinal tract, but the protection provided with the injectable form of the antigen was greater than that of the oral form. Further analysis is needed to check whether these strategies can be used as the potential platform for developing an efficient vaccine against NE.
Keywords: Chicken; Chimeric vaccine; Necrotic enteritis; Parenteral administration; Plant-based vaccine.
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