Protein based vaccines are the most safe and affordable strategy to combat pneumococcal disease circumventing the limitations of conventional polysaccharide-based vaccines like serotype dependence, high cost and inability to be administered to immunocompromised. SP0845 is a highly conserved vaccine candidate shown to provide protection against heterologous strains of Streptococcus pneumoniae, the primal cause of pneumonia. However, the associated poor immunogenicity warrants the need for adjuvants and multiple doses to mount desired responses. The present study relates to improve the immunogenicity of pneumococcal protein SP0845 by use of poly lactic acid biodegradable polymer microparticles. The immunization studies showed that microparticles elicited higher antibody response compared to alum adjuvanted protein and this immunopotentiation was achieved without the use of any additional adjuvant. They were also capable of eliciting secondary antibody response upon boosting after four months. Further, the particles upon storage at 25 and 37 °C for one month were still capable of mounting an immune response equivalent to those stored in cold chain. Thus, using microparticles entrapping SP0845 for immunization not only improve the immunogenicity but also offer better temperature stability. This can greatly reduce the cost and increase access of protein-based vaccine to resource limited settings.
Keywords: Enhanced immunogenicity; Microparticle; Pneumococcal protein vaccine; Thermostable vaccine.
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