The anti-Shigella vaccine is one of the WHO’s top priorities. Every year the disease kills more than 200,000 people worldwide and poses a serious threat to children under 5 years of age and the elderly. Increasing antibiotic resistance and limitations in diagnostics emphasize the need to develop an effective vaccine. Recent research and clinical trials report multiple approaches used in Shigella-vaccine development. However, despite the efforts of researchers, pharmaceutical companies and health care organizations, there is no licensed vaccine against shigellosis available to the community. Here, we expressed, broadly characterized and demonstrated the protective properties of outer membrane protein C as an effective molecule serving as a universal antigen for Shigella vaccine. Most of the current approaches to the development of Shigella vaccine are based on the polysaccharide antigens, which are serotype specific and have always been challenging in terms of their high specificity, targeting the most exposed surface antigens identified for certain Shigella serotypes. Here, we confirm immunogenic and protective properties of the recombinant OmpC protein, which protects mice against a lethal dose of a virulent strain 2 weeks after active immunization.
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