The development of a vaccine against S. pyogenes would provide many benefits, preventing streptococcal infections and sequelae. Several vaccine development studies have focused on the M protein due to its high immunogenicity and have been tested since 1923 [21] and [22]. The first vaccines used whole selleck inhibitor inactivated bacteria. The use of the entire M protein from specific strains started in 1979, but the results were not satisfactory. In the 1980s, synthetic peptide models were introduced. Later, molecular biology models based on the N-terminal portion were developed, and hexavalent and 26-valent vaccines containing
the most prevalent serotypes in United States entered into phase I/II clinical trials [23]. Simultaneously, new approaches for defining protective epitopes were designed based on both N and C-terminal regions. Currently, researchers are studying models that are based on streptococcal antigens other than the M protein [24]. Approximately 15 years ago, our group started to develop an effective
vaccine against S. pyogenes. The approach considered how the immune system could be more effective in inducing a protective immune response via T and B lymphocytes without triggering autoimmunity [25]. Briefly, the vaccine is based on amino acid sequences from the M5 protein conserved region (C2 and C3 regions). Reactivity was evaluated by humoral and cellular analyses to define potentially protective epitopes. The B epitope, Bosutinib composed of 22 amino acid residues, is linked
by 8 amino acid residues to the T epitope, which consists of 25 amino acid residues, using a segment of the natural M5 protein. We synthesized a peptide with 55 residues called StreptInCor (medical ID), which contained both the B and T epitopes [25]. The analysis of StreptInCor sequence binding to different HLA class II molecules was conducted using theoretical possibilities of processed peptides to fit into the pockets of antigen presenting cells (APC), followed by T cell activation via T cell receptor (TCR) that stimulates B cells to secrete antibodies with protective potential. until The StreptInCor sequence contain seven potential binding sites that were recognized by HLA class II (DRB1*/DRB3*/DRB4*/DRB5*), making StreptInCor a candidate vaccine with broad capacity of coverage [26]. The vaccine peptide was tested in animal models. Inbred and outbred mice showed strong humoral response against StreptInCor with high IgG production [27]. Challenge with M1 strain in immunized Swiss mice showed a survival rate of 100% for up to 21 days, compared to the control group’s lower survival rate (40%) [28].
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