Abstract: Rational design of immunotherapeutics relies on clear knowledge of the immunodominant epitopes of antigens. Current methods for identifying kinetically stable peptide-MHC complexes are in many cases inadequate for a number of reasons. Disclosed herein is a reductionistic system incorporating known participants of MHC class II antigen processing in solution to generate peptide pools from antigens, including those for which no immunodominant epitope has yet been identified, that are highly enriched for proteolytic fragments containing their immunodominant epitopes. HLA-DM-mediated editing contributes significantly to immunodominance and is exploited in discovering immunodominant epitopes from novel or previously uncharacterized antigens, particularly antigens associated with pathogens, tumors or autoimmune diseases.

Abstract: Rational design of immunotherapeutics relies on clear knowledge of the immunodominant epitopes of antigens. Current methods for identifying kinetically stable peptide-MHC complexes are in many cases inadequate for a number of reasons. Disclosed herein is a reductionistic system incorporating known participants of MHC class II antigen processing in solution to generate peptide pools from antigens, including those for which no immunodominant epitope has yet been identified, that are highly enriched for proteolytic fragments containing their immunodominant epitopes. HLA-DM-mediated editing contributes significantly to immunodominance and is exploited in discovering immunodominant epitopes from novel or previously uncharacterized antigens, particularly antigens associated with pathogens, tumors or autoimmune diseases.

Abstract: The present invention relates to immunodominant compositions, including immunodominant peptides of HA1 of influenza H5 hemagglutinin, polynucleotides encoding such peptides, and their methods of use. Such peptides are useful, for example, for the prevention, treatment and diagnosis of influenza.

Abstract: Rational design of immunotherapeutics relies on clear knowledge of the immunodominant epitopes of antigens. Current methods for identifying kinetically stable peptide-MHC complexes are in many cases inadequate for a number of reasons. Disclosed herein is a reductionistic system incorporating known participants of MHC class II antigen processing in solution to generate peptide pools from antigens, including those for which no immunodominant epitope has yet been identified, that are highly enriched for proteolytic fragments containing their immunodominant epitopes. HLA-DM-mediated editing contributes significantly to immunodominance and is exploited in discovering immunodominant epitopes from novel or previously uncharacterized antigens, particularly antigens associated with pathogens, tumors or autoimmune diseases.

Abstract: Assay methods for determining whether a peptide is likely to be immunogenic are based on a computer modeling of binding to a Class II MHC DR1 receptor. This is confirmed by competitive inhibition binding assays. The peptides are useful for eliciting an immune response for vaccination or the production of antibodies or T-cells.

Abstract: Assay methods for determining whether a peptide is likely to be immunogenic are based on a computer modeling of binding to a Class II MHC DR1 receptor. This is confirmed by competitive inhibition binding assays. The peptides are useful for eliciting an immune response for vaccination or the production of antibodies or T-cells.