* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download innate immunity
Survey
Document related concepts
Gluten immunochemistry wikipedia , lookup
Lymphopoiesis wikipedia , lookup
Inflammation wikipedia , lookup
Social immunity wikipedia , lookup
Complement system wikipedia , lookup
DNA vaccination wikipedia , lookup
Molecular mimicry wikipedia , lookup
Adoptive cell transfer wikipedia , lookup
Polyclonal B cell response wikipedia , lookup
Cancer immunotherapy wikipedia , lookup
Hygiene hypothesis wikipedia , lookup
Immune system wikipedia , lookup
Immunosuppressive drug wikipedia , lookup
Adaptive immune system wikipedia , lookup
Transcript
JPEMS– Nantes, 2014- Basic Immunology INNATE IMMUNITY Teacher: Pr. Régis Josien, Laboratoire d’Immunologie and INSERM U1064, CHU Nantes [email protected] 1 Contents 1. General features and specificity of innate immune response 2. Recognition of microbes by the innate immune system 3. Components of innate immunity 4. Innate immune reactions 2 Contents 1. General features and specificity of innate immune response 2. Recognition of microbes by the innate immune system 3. Components of innate immunity 4. Innate immune reactions 3 The response to an initial infection occurs in three phases 4 Specificity and receptors of the innate and adaptive immunity 5 Innate immunity ü Constitute the first of defense againt microbes ü Highly conserved system during the evolution (preceding adaptive immunity) ü Mediated by cells (phagocytes, DCs, NK cells, innate lymphoid cells) and soluble molecules (complement, cytokines) ü Recognizes structures shared by various classes of microbes, not present on host cells and often essential for microbes survival (PAMPs) ü Recognizes also endogen molecules (DAMPs) ü Uses a limited number of receptors encoded in the germline ü Induces 2 types of reactions: inflammation (bacteria) and antiviral defense ü The innate immune response instructs the adaptive immune system 6 Contents 1. General features and specificity of innate immune response 2. Recognition of microbes by the innate immune system 3. Components of innate immunity 4. Innate immune reactions 7 Pathogens can be found in various compartments of the body and of the cell The innate immune system used molecular sensors to detect extacellular and intracellular microbes 8 Pathogens have different mebrane structures Ex: structure of bacterial walls 9 Pattern Recognition Receptors, PRRs • Recognize various pathogen associated molecular patterns (PAMPs): • shared by several classes of microbes • not expressed by host cells (self non-self discrimination) • often critical for microbe survival and infectivity • Some PRR can also recognize molecules released by damaged or necrotic cells: damage-associated molecular patterns (DAMPs) • Non clonal expression (identical receptors on different cells) • Immediate response • 3 classes of PRR : 1. Secreted Molecules. Ex: mannane-binding lectin 2. Endocytic PRR. Ex: macrophage mannose receptor 3. Signalisation PRR. Toll-like receptors (TLR); NOD-like receptors (NLR), RIG-like receptors (RLR), C-type lectin-like 10 receptors (CLR) Secreted PRR: ex: mannane-binding lectin (MBL) General functions of secrecred PRR: Others: • Opsonisation • C-reactive protein (CRP) • Complement activation • surfactants 11 Endocytic PRRs MMR: macrophage mannose receptor MMR 2 families: - Lectins - Scavenger receptors 12 Signalisation PRR Ø PRR recognizing microbes and damaged cells Ø Binding of ligand to PRR triggers intracellular activation leading to the activation of specific transcription factors Ø These transcription factors induce production of cytokines and adhesion molecules in phagocytes and dendritic cells Ø Distinct PRR stimulations lead to specific transcription factor activation and responses (inflammation vs. antiviral response) Ø These PRR are critical for inducing costimulation molecules expression and therefore adaptive immune responses 13 Cellular locations of receptors of the innate immune system 14 Toll-like receptors or TLR • Toll = Drosophila gene controlling dorso-ventral polarisation (Anderson et al., Cell 1985, 42-779) • Major role in immune responses in Drosophila . Induces production of Drosomycine, a fongicidal peptide (Lemaitre et al., Cell 1996, 86:873) • Vertebrate counter part: Toll-like receptor (TLR4) Nature 1997, 388:394) • 10 members in human: TLR1-TLR10 (Medzithov et al., 15 TLR structure Domaine Ig Leucinrich repeat (LRR) Domain TIR (Toll-IL-1 R) Akira et Takeda, Nat Rev Immunol 2004, 4:499 16 Structure and specificities of TLR TLR10: ligands unknown 17 Signaling functions of TLR 18 Adaptor molecules in TLR signaling MyD88: myeloid differentiation primary-response protein 88 TIRAP: TIRdomaincontaining adaptor protein (TLR 2 et 4) TRIF: TIRdomaincontaining inducing IFN-β (TLR 3 et 4) TRAM: TRIFrelated adaptor molecule (TLR 4) http://www.biken.osaka-u.ac.jp/act/act_akira_e.php Cooperation and synergy between TLR Trinchieri G. and Sher A. Nat Rev Immunol. 2007, 7:179 21 NOD-like receptors (NLR) and the inflammasome NOD= nucleotide olimerization domain 22 Signalisation PRR RIG-I: retinoic acid inducible gene I Contents 1. General features and specificity of innate immune response 2. Recognition of microbes by the innate immune system 3. Components of innate immunity 4. Innate immune reactions 24 Mechanisms of protection of epithelial barriers 25 Phagocytes • Monocytes/macrophages (mononucleated phagocytes) • Neutrophils (polymorphonuclear cells) 26 Cells of the immune system Hemogram: Leuk: 4000-10000/mm3 Neutr: 52-75% Lympho: 20-45% Mono: 3-9 % Eosino: 0-5% HSC Lymphoid progenitor Myeloid progenitor Baso: 0-1,5 % DC: 0,1-0,5% GM precursor Gran. Prec. MonocytesDC precursor M-CSF Monocyte B T NK ILCs Lymphocytes Innate lymphoid cells Eosinophil Basophil PreDC Neutrophil Polymorphonuclear cells plasmocytes antibodies Blood FLT3L 27 Mastocyte Macrophage Dendritic cell Tissues Blood and lymph nodes G-CSF Maturation of mononucleated phagocytes 28 Monocytes/macrophages • Monocytes: – Circulating cells (500-1000/ml) – ½ life: 2-3 days – Specific surface marker: CD14 • Macrophages (MØ): – Tissular – ½ life: long (until several months) – Differentiation varies with microenvironnement – Recent data indicate that most tissue MØ derive actually from embryonic cells and self renew locally – Activity: proinflammatory ou favoring tissue repair 29 Activation and functions of macrophages 30 Infection stimulates macrophages to release cytokines chemokines and lipid mediators that initiate an inflammatory response médiateurs lipidiques Roles of inflammation: Inflammatory cytokines : TNF-α, IL-1, IL-6 1. Recrutement of cellular and soluble effectors 2. Limit pathogen dissemination 3. Initiate tissue repair Lipid mediators of inflammation: prostaglandins, leucotriens and platelet activating factor (PAF) 31 Classical and alternative macrophage activation 32 Neutrophils • Circulating cells (> 50% of leucocytes), not found in healthy tissus but recruted in large numbers if inflammation • Polynucleated + granules which stain for acidic and basic colorants (May Grünwald Giemsa) • Role: phagocytosis +++ and bactericidal • Production in bone marrow increase ++ in response to infection • Infectious risk +++ if neutropenia (+++ if < 500/mm3) • ½ life: short (6-10 h in blood) • Die rapidly after phagocytosis: elimination by MØ and pus 33 formation Eosinophils and basophils • Are not phagocytes • Mostly secretory functions • Eosinophils: – Granulation stained with acidic colorants (eosin – orange in MGG) – Bone marrow production induced by IL-5 – Circulating cells; also found in large number in gut mucosa (role?) – Proinflammatory functions: secretion of basic proteins (cationics): MBP, ECP – Role in responses to parasites ++ and allergies34 Eosinophils et basophils • Basophils: – Granulations stained with basic colorants (violet in MGG) – Found in pathological tissues (parasites, allergies) – Differentiation and activation induced by IL-3 – Role in allergic response (immediate) +++ – Maybe a role in antigen presentation? – Secretory functions: cytokines, chemokines 35 Mast cells • Cells constitutively present in skin and mucosal epithelium (not in the blood) • Can be activated by TLR and antibody (IgE)-dependent mechanisms • Secretory functions: vasoactives amines (histamin), enzymes, cytokines chemokines, lipid mediators • Promote strong inflammation • Role in responses to helminths and allergies +++ 36 Dendritic cells • Phagocytic cells • Main function: antigen presentation to naive T cells • Lesson#4 37 • NK cells • Complement èLesson#3 38 Contents 1. General features and specificity of innate immune response 2. Recognition of microbes by the innate immune system 3. Components of innate immunity 4. Innate immune reactions 39 Innate responses to bacteria: inflammation Ø Inflammatory cytokines Ø Recrutement of phagocytes to inflammatory tissues Ø Phagocytosis and killing of microbes 40 Acute inflammatory response 41 Activated macrophages secrete cytokines with local and systemic effects 42 Cytokines produced by macrophages induce production of acute phase proteins in liver Acute phase proteins have anti-bacterial functions: ( • Opsonisation • Complement activation = CRP ) 43 Neutrophil extravasation. Step 1= rolling 44 Leukocyte rolling 45 Steps of neutrophil extravasation 46 Leukocyte extravasation 47 Phagocytosis and intracellular killing of microbes 48 Mechanisms of respiratory burst H2O2 O2- SOD NOX 49 Bactericidal agents produced or released by phagocytes on the ingestion of microorganisms 50 Chemotaxis of neutrophils Bacteria produce the tripeptide formyl-Met-LeuPhe (fMLP) that is chemoattractant for neutrophils 51 Innate responses to virus 52 PRR involved in virus recognition Viral PAMPs PRR Transcription factor Cellular sources of type I IFN 1. Plasmacytoid dendritic cells: a subset of leukocytes specialized in the recognition of virus and the production of massive amounts or type I IFN 2. All virus infected cells 54 Anti-viral action of type I interferons 55 Interferons are antiviral proteins produced by cells in response to viral infection 56 57 Role of innate immunity in stimulating adaptive immune responses 58 Role of TLR in induction of adaptive immunity 59 Medzhitov, Nat Rev Immunol 2001, 1:135