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Cytokines. Dr. habil. Kőhidai László Assoc. Professor Dept. Genetics, Cell- and Immunobiology Semelweis University. Chemotaxis - Elective Course 20 10/2011 – EM-ED. Cytokine s - D efin ition. ” Cytokin e ” (Cohen 1974): Molecules capable for chemical communication between cells;
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Cytokines Dr. habil. Kőhidai László Assoc. Professor Dept. Genetics, Cell- and Immunobiology Semelweis University Chemotaxis - Elective Course 2010/2011 – EM-ED
Cytokines - Definition • ”Cytokine”(Cohen 1974): • Molecules capable for chemical communication between cells; • Most of them are growth factors or differentiation inducers; • Regulators of embryogenesis, haematopoesis, tissue‘repair’, inflammatory and immune functions.E.g. normal growth and development, wound healing. • Lymphokines, monokines, chemokines
Proteines / glycoproteines Work in solved form Low M.W. Inducibility Effects elicited on low cc. Narrow spectrum Specific receptors Network Multifunctionality Synergy Progression factor Competency factor Characterization of cytokinesSummary
Grouping - Functions • Natural immunity and inflammation • (IFN, TNF, IL-1, IL-6, chemokines) • Regulating of lymphocyte activity, • differenctiation • (IL-2, IL-5, IL-6) • Maturation of immune cells • (IL-3, GM-CSF)
Characteristics • Low M.W. 15-25kDa • Products of leukocytes – BUT other cells can also produce them • Production induced by • infectious substances and toxins (e.g. LPS) • tissue damage(thrombocyte aggregation) • immune iductions (stages of hypersensitivity) • other cytokinese.g. IL-1 (pro-inflammatory cytokines) • Constitutive – e.g. IL-16, IL-18, EPO, M-CSF
Characteristics • Majority of cytokines are released by the cells before action BUT there are • membrane bound forms (TNF), • pooled in i.c. vesicles i.c. (mast cells vagy thrombocyte) • stored in extra-cellular matrixban (TGF-beta) – rapid release and action • Narrow action radius • autocrine – cytokine produced by the cell acts on the producer cell • paracrine – cytokine acts on the neighbour cells of the producer cell • endocrine – cytokine acts on cells far from the producer cell IL-1from site of injury to thalamus – regulation of temperature IL-6from site of injury to liver– acut phase reaction Erythropoetinfrom kidney to bone marrow – RBC differentiation
IL-1 Autocrine Paracrine Endocrine Brain Macrophage T cell Cytotoxicity ^ Monokine prod. ^ Adhesion mol. ^ Activation ^ IL-2R ^ Lymphokines ^ Prostaglandins Pain threshold Fever
Characteristics • Effects on low concentrations : 10-12– 10-9M ! 10 IL-1 molecules are enough to induce IL-2 synthesis in T cells ! ! 50 IFN gamma molecules are enough to induce anti-viral effects !
Receptors • Specific receptors: high affinity, inducibility, • specific intracellular signal-transduction and • second messenger pathways.
Cytokine networks:cytokines are never produced • alone, their synthesis is controlled by the balance of • positive and negative signals.
Defense against infections inflammation Immune- suppression Autoimmunity, rejection
Characteristics • Synery :combined effetc of two or more cytokines is higher than the simple summary of the individual effects • Antagonism : cytokines can block each other e.g. IL-4 and IFN-g. • Multifunctionality: (pluripotent , pleiotrope) several cytokines possess more, different effects on the diverse target cells • Progressive factor: cytokines induce cell proliferation (IL-2, IL-3, IL-5) • Competency factor: inducing of differentiation (IL-1, IL-4, IL-6)
Nomenclature • Factors (names)describe the function - Historical • colony stimulating factorCSF • tumor necrosis factor TNF • transforming growth factor TGF • Classification based on characteristic gene sequence • – result of joint agreement • IL-1 – IL-24 • Names describing the structure and function • chemotactic factors - ‘chemokins’.
Regulation • DNA-level • genes turned on continouslye.g. M-CSF, G-CSF, SCF, IL-6, Epo génjei • other genes of cytokines are turned off • co-ordinated expressione.g. IL-3, IL-4, IL-5, GM-CSF genes on 5. Chrs q • Post-transcription level • Post-secretion level • short half life time in serume.g. TNF = 15min • soluble cytokine receptors, e.g. sTNF-R • Target cell • up- and down-regulation of receptors • induction or amplification of inflammation by i.e. pro-inflammatory cytokines
Examples IL-1– produced by all cells possessing nucleus, its spectrum is wide, it has several target cells. In vivoeffects: hypotensio, fever, loss of weight, neutropoenia and acut phasereaction. The chief function is elicited as a factor released from dendritic cells. Promotes proliferation of T lymphocytes. IL-3– haematopoeticgrowth factor, inducerof colony formationin erythroid, megakaryocyte, neutrophil, eosinophil, basophil, mast cell and monocyte cell lines.
Examples IL-6– multifunctional cytokine, produced by lymphoid and non-lymphoid cells. Regulator of B-cell funkcions,haematopoesisand theacut phasis reakction. IL-8 - cytokine released in inflammation, several cells can produce it, It works as chemoattractant in neutrophils. Can also influence activity of basophils and some subpopulations of lymphocytes. Effective angiogenfactor.
Examples IL-12– important in responses against intracellular pathogens. Inducer of IFN gamma synthesis in T-cellsand in NK cells. Increases theNK and ADCC activity. Inducer of proliferation and differentiation in Th1 CD4 cells.
Clinical significance • auto-immune diseases • infections • immune-defficiencies • malignant tumors