Abstract
Group A Streptococcus (GAS)-associated rheumatic heart disease is a leading cause of death caused by GAS infection. While antibiotics can treat the infection in most cases, growing antibiotic resistance, late medical intervention, and recurrent infection are major obstacles to the effective treatment of GAS-associated diseases. As GAS infection typically originates from the bacterial colonization of mucosal tissue in the throat, an oral vaccine that can generate both systemic and mucosal immune responses would solve problems associated with traditional medical interventions. Moreover, orally delivered vaccines are more easily administered and less expensive for mass immunization. In this study, the B-cell epitope J8, derived from GAS M protein, and universal T-helper Pan HLA-DR-binding epitope peptide (PADRE), were conjugated to poly (methyl acrylate) (PMA) to form a self-assembled nanoparticle vaccine candidate (PMA-P-J8). Strong systemic and mucosal immune responses were induced upon single oral immunization of mice with the conjugate. The antibodies generated were opsonic against GAS clinical isolates as measured after boost immunization. Thus, we developed a simple conjugate as an effective, adjuvant-free oral peptide-based vaccine.
Highlights
Vaccination is the most successful and cost-effective public health intervention to counter infectious diseases and related mortality
Poly-azide terminal (PMA), secondary antibody IgG, 1,2,3-triazolo [4,5-b]pyridinium-3-oxid hexafluorophosphate (HATU) was purchased from and IgA were purchased from Sigma Aldrich (Castle Hill, NSW, Australia)
There is a lack of potent oral adjuvants
Summary
Vaccination is the most successful and cost-effective public health intervention to counter infectious diseases and related mortality. Conventional vaccines consisting of killed or attenuated live pathogens are effective; undesired side-effects such as autoimmune and allergic responses and inflammation limit the use of whole organisms in modern vaccines [1,2]. To overcome these issues, most vaccine research has shifted to the development of subunit-based vaccines that include limited microbial components. Subunit vaccines are composed usually of protein or peptide antigens derived from pathogens [3,4]. The use of only selected antigens and the elimination of redundant components improves a vaccine’s safety profile; it greatly reduces immunogenicity. Adjuvants (immune stimulants) are generally required for subunit vaccines [5,6]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
