Immune system
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Transcript of Immune system
Immune systemImmune system
J. Ochotná
The main functions of the immune The main functions of the immune systemsystem
Immune system belongs to the basic homeostatic mechanisms
DefenseDefense - identification and protection against pathogenic microorganisms and their toxins
AutotoleranceAutotolerance – recognition of own tissues and keeping tolerance to them
Immune surveillanceImmune surveillance - identifying and removing the old ,
damaged and otherwise changed cells
Antigen (immunogen)Antigen (immunogen)
* substance that the immune system recognizes and
responds to it
* usually proteins or polysaccharides (lipids and nucleic
acids only in the combination with proteins or polysaccharides)
* Molecules <5 kDa can´t trigger an immune response,
the optimal size of the antigen molecules to initiate immune response is about 40 kDa
* autoantigen - antigen derived from his own body
* exoantigen - alien substance from the external environment
allergen - exoantigen that in susceptible individuals may cause pathological (allergic) immune response
Haptens Haptens
* small molecules, that are able to induce specific
immune response only after the establishment to the macromolecular carrier (separate haptens are not immunogenic)
* typically drugs (eg penicillin antibiotics, hydralazin)
Interaction antigen – antibody Interaction antigen – antibody
* Binding site of antibody (paratop)
form non-covalent complexes with the corresponding part on antigen molecule (epitope)
* participation: the hydrogen bonds, electrostatic
and hydrophobic interactions, van der Waals forces
* antigen-antibody complex is reversible
Types of antigens according to Types of antigens according to antigen presentationantigen presentation
1) thymus dependent antigens1) thymus dependent antigens
* more frequently, mostly protein Ag
* for specific humoral immune response to antigen
is necessary to cooperate with TH lymphocytes (or response isn´t enough effective)
* assistance implemented in the form of cytokines
produced by TH lymphocytes
Types of antigens according to Types of antigens according to antigen presentationantigen presentation
2) thymus independent antigens2) thymus independent antigens
* in a small number of antigens can be induced antibodies
production directly without the participation of T lymphocytes
* this are mainly a bacterial polysaccharides,
lipopolysaccharides and polymer forms of proteins (e.g. Haemophilus, Str.pneumoniae)
SuperantigensSuperantigens
* stimulate lymphocytesa
polyclonaly and massively
* massive activation of T lymphocytes
can cause shock
* e.g. bacterial toxins (Staph.aureus, Str.pyogenes,
Pseud.aeruginosa)
Sequestered antigensSequestered antigens
* autoantigens that are normally hidden from the immune
system and therefore unknow (e.g. the lens of the eye , testes,brain)
* if they are "uncovered" by demage, can induce the
immune response (one of the theories of autoimmune processes)
Components of the immune Components of the immune systemsystem
Components of the immune Components of the immune systemsystem
* Lymphoid tissues and organs
* Cells of the immune system
* Molecules of the immune system
Lymphoid tissues and organsLymphoid tissues and organs
* are linked with the other organs and tissues by network
of lymphatic and blood vessels
Primary lymphoid tissues and organsPrimary lymphoid tissues and organs
* bone marrow, thymus
* place of maturation and differentiation of immunocompetent
cells
* immature lymphocytes acquire here their antigenic specificity
Secondary lymphoid tissues and organsSecondary lymphoid tissues and organs
* meeting place of immunocompetent cells with Ag
spleen - in contrast to the lymph nodes filter the blood and captures presented antigens
lymph nodes and their organized clusters (tonsils, appendix, Peyer patches in the intestine) - filter lymph and capture present antigens MALT (mucous associated lymphoid tissue) - diffuse lymphatic tissue, the main role is capture of antigens that penetrate through the mucous membrane
Cells of the immune systemCells of the immune system
* evolution of red and white blood cells begin at yolk sack,
then haematopoiesis travels to fetal liver and spleen (3 to 7 month gestation), the main hematopoietic function has bone marrow
* all blood cells arise from a pluripotent stem cell (CD 34)
* stem cells self-renew and maintain throughout life
* haematopoiesis is regulated by cytokines that are
secreted by bone marrow stromal cells, activated TH cells and macrophages
Immune mechanismsImmune mechanisms
Nonspecific immune mechanismsNonspecific immune mechanisms
* non-adaptive, innate
* evolutionarily older
* no immunological memory
* in the presence of pathogens react quickly, in minutes
(based on molecules and cells which are in the body prepared in advance)
* component cellular - phagocytes (some are APC), NK cells
humoral - complement, interferons, lectins and other serum proteins
Specific immune mechanismsSpecific immune mechanisms
* adaptive, antigen-specific
* evolutionarily younger
* have immunological memory
* development of a full-specific immune response takes
several days even weeks
* component cellular - T lymphocytes (TCR)
humoral - antibodies
Mucosal and skin Mucosal and skin
immune systemimmune system
Function and structure of the Function and structure of the mucosal and skin immune systemmucosal and skin immune systemMucous membranes and skin are in constant contact with the outside environment, there is concentrated about 80% of immunocompetent cells.
Skin - barrier against mechanical, physical and chemical damage, and against the penetration of microorganisms, humans surface of about 1,5 m2
Mucosal immune system - prevents the penetration of pathogenic microorganisms, preventing the development of self-harm inflammatory immune responses against pathogens and harmless antigens from the external environment, mucosa with an area of about 400 m2
Natural non-immune protective Natural non-immune protective mechanismsmechanisms
In protection the body against infection are important intact mucous membranes and skin and nonimmune protective mechanisms.
mechanical – movement of cilia, air flow in the airways, or fluid flow in the urinary tract
chemical – fatty acids on skin; lysozyme in saliva, tears and sweat; antibacterial defensins, acid pH in stomach and urine
microbial - non-pathogenic microflora
Structure of mucosal immune systemStructure of mucosal immune systemMALT (mucous associated lymphoid tissue) BALT (bronchus associated lymphoid tissue) GALT (gut associated lymphoid tissue) NALT (nasal associated lymphoid tissue)
o-MALT (organized) – consists from lymphoid follicles in the mucous membrane, tonsil and adenoids, appendix, Peyer patches
d-MALT (diffuse) - is made up of leukocytes diffusely distributed in the lamina propria (T and B lymphocytes, macrophages, neutrophils, eosinophils and mast cells)
Humoral immune mechanisms of Humoral immune mechanisms of the mucous systemthe mucous system
sIgAsIgA *(secretory immunoglobulin A)
* most significant mucosal immunoglobulin, in breast milk
* transcytosis - IgA is transported across the epithelium using transport Fc receptor (poly-Ig receptor), on luminal side is IgA split off with the part of the receptor called secretory component, which protects IgA against intestinal proteases
* neutralize antigens on mucosal surfaces, don´t activate complement, binds to Fc receptors on phagocytes, in Peyerś patches may be immune complexes with IgA captured and can induce immune response
sIgMsIgM
* secretory immunoglobulin M
* applied in newborns and in selective IgA deficiency
* more prone to intestinal protease degradation
* neutralizing antigens on mucosal surfaces
IgGIgG
* get on the mucous membrane by diffusion
* applies particularly in the lower airways
Induction of mucosal immune Induction of mucosal immune responseresponse
* M cells - specialized enterocytes that provide transport of Ag
(endocyte Ag from the surroundings) - are in close contact with lymphocytes and APC
* mucosal immunization leads to stimulation of TH2 and TH3
lymphocytes and IgA production
Induction of mucosal immune responseInduction of mucosal immune response
Immune mechanisms Immune mechanisms
of inflammation of inflammation
(Local and systemic (Local and systemic
reactions)reactions)
InflammationInflammation
* Is a summary of physiological responses to breach the
integrity of the organism, leading to protection against infection of damaged sites, localization of damage and healing.
* The first signals to the development of inflammatory
responses come from mast cells, phagocytes, and the substances released from damaged cells and extracellular components of matter.
Local response to inflammationLocal response to inflammation - increased permeability of blood vessels (vasoactive amines, complement components C3a, C5a, leukotrienes ..., swelling at site of inflammation)
- increased expression of adhesion molecules on endothelia
- activation of coagulation, fibrinolytic, kinin and complement system - influence of local nerve endings (prostaglandins, pain)
- changes in temperature (IL-1, IL-6, TNF, prostaglandins)
Systemic response to Systemic response to inflammationinflammation
- depends on the extent of damage and duration of local inflammation
- fever (proinflammatory cytokines TNF, IL-1, IFN stimulate hypothalamic center of thermoregulation)
- mobilization of tissue metabolism
- induction of expression of Hsp (heat-shock-proteins; function as chaperones)
- production of acute phase proteins(CRP, SAP, C3, C4; opsonization and complement activation)
- increased hepatic synthesis of certain serum transport proteins (ceruloplasmin, transferrin)
- increased synthesis of protease inhibitors ( macroglobulin)
- leukocytosis
Septic shock - the massive penetration of microorganisms into the bloodstream ( TNF)
Anaphylactic shock - basophil degranulation and complement activation with allergen
Repair of damaged tissueRepair of damaged tissue
- elimination of damaged cells with phagocytes
- activation of fibroplastic mechanisms
- activation of angiogenesis
- regeneration and tissue remodeling
PhagocytosisPhagocytosis
PhagocytosisPhagocytosis= ability to absorb particles from the surroundings
Professional phagocytesProfessional phagocytes
* cells, which provide defenses by mechanism of phagocytosis
* neutrophilic and eosinophilic granulocytes, monocytes
and macrophages
granulocytes - defense against extracellular pathogens - able to perform effector functions immediately - neutrophils don´t express MHCgpII (not APC)
macrophages - removal of own apoptotic cells, defense against certain intracellular parasites - fully functional after activation by cytokines (IFN, TNF)
The intersection of phagocytesThe intersection of phagocytesin damaged and infected tissuesin damaged and infected tissues 7% of peripheral neutrophils and phagocytes93% neutrophils and phagocytes in the bone marrow
* this ratio changes due to inflammatory cytokines
and bacterial products
* in place of damage are captured phagocytes
to endothelium (due to inflammatory cytokine expression of adhesion molecules is higher)
* the first is interactions slows the movement of neutrophils
- called roling,
* then there is a stronger link between endothelial
cells and leukocytes and subsequent penetration between endothelial cells to the tissue - diapedesis , extravasationdiapedesis , extravasation
* phagocytes are directed to the site of inflammation by
chemokineschemokines (IL-8, MIP-1 and, MCP-1, RANTES, C3a, C5a, bacterial products ...), for which phagocytes have receptors
Receptors on phagocytesReceptors on phagocytes
PAMPs - "pathogen associated molecular patterns„ - structures that are located on the surface of microorganisms, but not on their own intact cells
* mannose receptor* galactose receptor* CD14 (binds bacterial LPS)* receptors of TLR group (binds bacterial lipoproteins, lipopolysaccharides, bacterial DNA)* scavenger receptors (bind phospholipids on the surface of apoptotic cells)
Opsonization - process, which increases the efficiency of foreign particles phagocytosis - the establishment of opsonins (IgG, IgA, C3b, MBL, fibronectin, fibrinogen, CRP, SAP) on the surface of foreign particles
* Fc receptors on phagocytes (recognize antibodies linked to surface of micro-organism)
* complement receptors (for binding C3b)
Liquidation of absorbed organismLiquidation of absorbed organism* fusion of fagosome with lysosomesfusion of fagosome with lysosomes lysosomes contains - bactericidal substances (defensins) - hydrolytic enzymes (cathepsin, lysozyme) - liquid with a pH of 4-5
* activation of membrane NADPH oxidaseactivation of membrane NADPH oxidase after activation of Fc receptors and complement receptors, which leads to respiratory (oxidative) flash, when arise reactive oxygen intermediates (superoxid radical O2-, singlet oxygen, hydrogen peroxide, hydroxyl radical), which damage the structure of biopolymers, enzymes and DNA of microorganisms; enzyme myeloperoxidase catalyses the reaction of H2O2 with Cl- to form chlornan anions (ClO-)* creation of nitric oxide (NO)creation of nitric oxide (NO), which produces NO synthase of macrophages after activation with cytokines (IFN, TNF) that are produced by TH1 lymphocytes, NO liquidate intracellular parasites of macrophages
Secretory products of phagocytesSecretory products of phagocytes
* IL-1, 6, TNF (systemic response to inflammation)
* IL-8 (chemokine)
* IL-3, GM-CSF (control haematopoiesis)
* TGF, TGF (helping healing of tissues)
* metabolic products of arachidonic acid (prostaglandins, prostacyclin, leukotrienes and thromboxanes
ComplementComplement
ComplementComplement
* system of about 30 serum and membrane proteins (humoral component of nonspecific immunity)
* complement components in serum are present in inactive form
* complement activation has cascade character
* complement proteins are synthesized in the liver, less by tissue macrophages and fibroblasts
* the main complement components: C1-C9 (C3 is the central component)
* other complement components: factor B, factor D, factor P
* regulatory proteins: C1 - inhibitor, factor I, factor H, DAF, MCP, CR1, CD59 (protektin) inactivator of anafylatoxin
Function of complementFunction of complement
* Opsonization (C3b)
* Chemotaxis (C3a, C5a)
* Osmotic lysis (MAC C5b-C9)
* Anafylatoxins (C3a, C4a, C5a)
Complement activationComplement activation
* Alternative pathway
* Clasial pathway
* Lektin pathway
An alternative pathway An alternative pathway
* C3 component of complement rarely spontaneously break into C3b and C3a* C3b can covalently bind on the surface of a particle (own cell, microorganism) or reacts with water and inactivate * to bound C3b join a factor B, which is cleaved by factor D to Ba and Bb, resulting complex C3bBb is stabilized by factor P and functions as an alternative C3 convertase* C3 convertase cleaves C3 to C3a (chemotactic for phagocytes) and C3b, which binds to the surface of the particles (opsonization), or gives rise to other C3 convertases* from some C3 convertases form C3bBbC3b that act as an alternative C5 convertase, which cleaves C5 to C5a (chemotaxis) and C5b (starts terminal lytic phase)
Classical pathwayClassical pathway
* Can be initiated by antibodies (IgG, not by IgG4; IgM) or so-called pentraxins (CRP, SAP - acute phase proteins)* after binding of antibodies to the bacteria surface, there is
a change in its conformation and C1 protein can bind * C1 have to bind to the 2 molecules of antibodies, change their conformation and get proteolytic activity - will cleave proteins C4 and C2* fragments C4b and C2a bind to the surface of organism and create the classic C3 convertase (C4bC2a), which cleaves C3 to C3a and C3b* then creates a classic C5 convertase (C4bC2aC3b) that cleaves C5 to C5a and C5b
Lektin pathwayLektin pathway
* is initiated by serum mannose binding lectin (MBL)
* MBL binds to carbohydrate structures on the surface of some microbes, after the bindins starts cleave C4 and C2
* this way is similar to the classical way
Terminal (lytic) phase of the Terminal (lytic) phase of the complement cascadecomplement cascade
C5b fragments creates a complex with C6, C7 and C8, the complex dive into the lipid membrane of the cell and attached to it into a circle 13-18 molecules of C9, thus create in the membrane pores and cell can lysis (G-bacteria, protozoans, some viruses).
Most microorganisms is to this lytic effect of complement resistant (protection by cell wall).
Regulation of complement and Regulation of complement and protection of own cellsprotection of own cells
Activation of complement cascade is controlled by the plasma and membrane inhibitors.
* C1 inhibitor
* DAF (decay-accelerating protein)-degradation of C3 convertase
* factor I, MCP (membrane cofactor protein), CR1, factor H – C3b cleavage
* CD 59 (protectin) - prevents the polymerization of C9
* inactivator of anafylatoxin - inactivates anafylatoxins (C3a, C4a, C5a)
Complement receptorsComplement receptors
* Bind fragments of complement components
CR1 - on various cells - removing of immunecomplexes
CR2 - on B lymphocytes and FDC - activation of B cells
CR3, CR4 - on phagocytes - participation in opsonization, adhesion