150 likes | 462 Views
Pattern recognition in the immune system. Specific peptide recognition. Antibody epitopes T-cell receptors recognizing peptides presented on MHC-molecules. Other types of recognition. MHC subclasses and levels – NK cells Lipid antigens – NK T cells
E N D
Specific peptide recognition • Antibody epitopes • T-cell receptors recognizing peptides presented on MHC-molecules
Other types of recognition • MHC subclasses and levels – NK cells • Lipid antigens – NK T cells • Sugars, glycoproteins and nucleic acids – complement, B cells, T cells, dendritic cells, macrophages etc. • Unknown receptor/ligand interactions and signalling pathways
NK cells and KIR Major class of stimulatory and inhibitory receptors: Killer-Immunoglobulin-like receptors (KIRs)
Recognition of glycolipids • MHC-like molecules (CD1d) on antigen presenting cells present glycolipids to NK T cells with an invariant T cell receptor Which ligands are recognized (self/foreign?)
Recognition of ”pathogenicity” • Direct recognition of pathogens – ”danger signals” (viral, bacterial, fungal, parasitic) • Innate immune system alerts the adaptive immune system in parallel with antigen-presentation (3. signal = cytokines)
Pathogen-associated molecular patterns • Pattern recognition receptors must recognize structures vital to the pathogen!
Complexity in receptor cooperation poorly understood i.e. TLRs, C-type lectins, complement Need for immunological bioinformatics!