Development of toxin-antitoxin self-destructive bacteria, aimed for salmonella vaccination

This study aimed to develop a novel vaccination strategy, which combines the effectiveness of live-attenuated and safety of inactivated vaccines by construction of inducible self-destructing bacteria utilizing toxin-antitoxin (TA) systems. Hok-Sok and CeaB-CeiB toxin-antitoxin systems were coupled with three induction systems aimed for activating cell killing upon lack of arabinose, anaerobic conditions or low concentration of metallic di-cations. The constructs were transformed into a pathogenic Salmonella enterica serovar Enteritidis strain and bacteria elimination was evaluated in vitro under specific activating conditions and in vivo following administration to chickens. Four constructs induced bacterial killing under the specified conditions, both in growth media and within macrophages. Cloacal swabs of all chicks orally administered transformed bacteria had no detectable levels of bacteria within 9 days of inoculation. By day ten, no bacteria were identified in the spleen and liver of most birds. Antibody immune response was raised toward TA carrying Salmonella which resembled response toward the wildtype bacteria. The constructs described in this study led to self-destruction of virulent Salmonella enteritidis both in vitro and in inoculated animals within a period which is sufficient for the induction of a protective immune response. This system may serve as a safe and effective live vaccine platform against Salmonella as well as other pathogenic bacteria.PMID:3740028...
Source: Vaccine - Category: Allergy & Immunology Authors: Source Type: research