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Cytokines

Cytokines. Dr. Adel Almogren Assistant Professor of Immunology Consultant Immunologist Dept. of Pathology/ Immunology Unit Email: almogren@ksu.edu.sa Office: 467-1843. Soluble mediators secreted by a large variety of cells Act via interactions with specific receptors on target cells

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Cytokines

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  1. Cytokines Dr. Adel Almogren Assistant Professor of Immunology Consultant Immunologist Dept. of Pathology/ Immunology Unit Email: almogren@ksu.edu.sa Office: 467-1843

  2. Soluble mediators secreted by a large variety of cells Act via interactions with specific receptors on target cells Regulate immune cells / functions. Nomenclature?! Lymophkine / Monokine/ Chemokine/ Interleukin/ Interferon/ TNF

  3. Cytokine Regulation Of Immune Responses 1 2 3 4 5 6

  4. Properties of Cytokines Low-molecular weight (< 30 kDa) proteins or glycoproteins Monomeric or polymeric Bind with very high affinity to specific receptors Trigger specific signal transduction pathways alteration of gene expression

  5. Biological Activities Regulated by Cytokines Hematopoiesis Cell proliferation and differentiation Inflammation Innate Immunity Adaptive Immunity Cellular immunity Humoral immunity

  6. Cytokines Mode of Action I Autocrine Paracrine Endocrine Close proximity Distant cells

  7. Cytokines : Mode of Action II Pleiotropic Cascade induction Redundant Synergistic Antagonistic -

  8. Factors that Influence the Mode of Action of Cytokines Interaction of Cytokines with their Receptors Analysis of function 1º cytokines: IL-1, TNF >>> NF-kB pathways (IL-18) 2º cytokines: their production is induced after cell stimulation by IL-1 and/or TNF. Cytokine Structural families Hematopoetins IL-3, IL-4, IL-5, IL-6, IL-7, IL-15, a helical structures GM-CSF Few or no b -sheet Interferons IFN-g, IFN-a/b Tumor necrosis factors TNF-a, LT-a / TNF-b Chemokines IL-8, RANTES, MIP,

  9. Factors that Influence the Mode of Action of Cytokines Interaction of Cytokines with their Receptors Cytokine Receptors families Immunoglobulin superfamily IL-1, M-CSF, c-Kit Hematopoetins IL-3, IL-4, IL-5, IL-6, IL-7, IL-15, Class I cytokine receptor GM-CSF Interferons IFN-g, IFN-a/b Class II cytokine receptor Tumor necrosis factors TNF-a, LT-a / TNF-b Chemokines IL-8, RANTES, MIP,

  10. Cytokine Receptors • Multiple polypeptide chains (subunits) • Cytokine binding subunit(s) • Signal-transducing subunit (s) Many cytokine receptors share common signal-transducing subunits (pathways) Signal transduction mediated by cytokine receptors: of central importance are the NF-kB pathway and JAK-STAT pathway

  11. NF-kB signaling • Agonist binding to cell surface receptor. • Induction of IkB kinase (IKK) activity. • Phosphorylation and ubiquitination of IkB. • Degradation of IkB by 26S proteasome. • NF kB release and nuclear translocation. • Transcription of NF-kB responsive genes. JAK-STAT signaling • Ligand binding triggering receptor oigomerization. • Activation of tyrosine phodphorylation by Jak kinase. • Docking of SH2 domain proteins including specific STATs. • STAT Phosphorylation, dimerization, and gene transcription.

  12. Factors that Influence the Mode of Action of Cytokines Subfamily of Cytokines Shared Receptors And Signaling pathways Jaks STATS Receptors share a common g chain IL-2, IL-7, IL-9, IL-15 Jak1, Jak3 Stat3, Stat5a, Stat5b IL-4, Jak1, Jak3 Stat6 Receptors share b chain IL-3, IL-5, GM-CSF Jak2 Stat5a, Stat5b Receptors share gp130 IL-6, IL-11 Jak1, Jak2 Stat3 Receptor related to gp130 IL-12 Jak2, Tyk2 Stat4 Interferon IFN-g Jak1, Jak2 Stat1 IFN-a, IFN-b Jak1, Tyk2 Stat1, Stat2 IL-10 Jak1, Tyk2 Stat3

  13. Factors that Influence the Mode of Action of Cytokines Expression of cytokine receptors limited or upregulated on antigen-activated cells Secretion of cytokines Induced or upregulated by direct interaction between cells (i.e., APCs and T cells) Half life of cytokines Short Cytokine Antagonists Cytokine receptor antagonists (IL-1Ra) Cytokine mimics or cytokine binding proteins Contribute to the specificity of immune responses

  14. Cytokine Regulation Of Immune Responses Innate Immune Responses Mediated by Phagocytes (MØ, Neutrophils) and NK cells Involve Inflammatory Cytokines: TNF-a, IL-1, and IL-6 Chemokines: CXC, CC, CX3C Interferons: IFN-g, IFN-a / b (Type-I IFNs) Adaptive Immune Responses Mediated by effector B and T cells Involve: T helper cell cytokines

  15. T Helper Cells Effector function restricted to cytokine secretion Two subsets based on the pattern of cytokine secreted and immune responses promoted Cell mediated immunity Th1 Th0 CD4+ T cell Humoral immunity Th2 Th1 and Th2 cell cytokines reciprocally regulate differentiation of the other subset

  16. Th1 Th0 Th2 Th1 / Th2 Cell Subsets pTh IL-4 IL-5 IL-6 IL-9 IL-10 IL-13 IL-2 IFN-g LT-a IFN-g IL-4

  17. Th1 / Th2 Cell Subsets In Various Diseases Th1 Dominant Th2 Dominant Tuberculosis Allergy Asthma Type 1 Diabetes Mellitus Inflammatory Bowel Diseases (IBD) Inflammatory Bowel Diseases (IBD) Parasitic Infections NormalPregnancy Multiple Sclerosis Parasitic Infections (Schistosoma) Tumors Recurrents Abortions Tumor Progression Rheumatoid Arthritis Progression to AIDS Acute Allograft Rejection

  18. Pregnancy is a Th2 biased “Disease” Fetus : foreign organism (allograft) Normal Gestation : No rejection of graft Cytokine secreted by PHA-stimulated PBMCs Normal Gestation Recurrent Spontaneous Abortions IL-2, IFN-g TNF-a, TNF-b Th1 Th2 IL-4, IL-5 IL-6, IL-10 Raghupathy R, 2000. Hum Reprod 15:713

  19. Th1 / Th2 Cell Subsets Differentiation Nature and dose of antigen Environment factors (cytokines) Cross-regulation Distinct effects on immune responses Th1 Phagocytic Cell Mediated Immunity (activation of MØ, neutrophils and NK cells) Complement fixing Abs for Opsonization Th2 Humoral immunity IgG1, IgE (IL-4) Activation of Eosinophils (IL-5) IL-4 IFN-g

  20. Cytokine Regulation of Macrophage Functions IFN-g + “Resting” Macrophage Activated Macrophage IL-10 High High High High Low No or Low No or Low No or Low MHC and co-stimulatory molecules Inflammatory cytokines (IL-1, IL-6, IL-12, TNF-a) Chemokines (IL-8) Toxic oxygen radicals

  21. Examples of some cytokines functions • IL-5 & TGF-b induces class switch to IgA • IL-4 Up-regulates MHC II expression • With IL-5 Induce switch to IgE • IL-10 Down-regulates MHC II expression • IL-2 & IL-12 Synergisitically induce differentiation into CTL • Interferon a/b Inhibition of viral replication • Interferon g +Immunoregulatory process; switching to certain IgG subclasses, mononuclear phagocytosis. • IL-18 induction of INF- g

  22. Allergy Excessive Th2 responses in atopic individuals Many common allergens are delivered to the nasal mucosa by inhalation of low doses of antigen Presentation of a low dose of antigen favors the activation of Th2 over Th1 cells. Approaches to treatment of allergy Desensitization: Shift Th2 (IgE) Th2 (IgG) Injection with escalating doses of allergen + adjuvant Cytokine therapy: Reduce IgE responses IFN-g, IL-12, TGF-b, IL-4R Inhibition of eosinophil recruitment: eotaxin receptor CCR-3 (on Th2 cells)

  23. Th1 / Th2 Cell Subsets In Various Diseases T Helper Cells In Multiple Sclerosis And Autoimmunity Cytokine profiles in patients with progressive multiple sclerosis Increased IL-12 production by monocytes Increased IFN-g production by T cells Comabella M, 1998. J Clin Invest 102:671.

  24. Cytokine-related diseases • Bacterial septic shock: Bacterial cell-wall endotoxins stimulate MǾ to overproduce IL-1 and TNF-a • Bacterial toxic shock: TNF and IL-1 • Lymphoid and myeloid cancers: Levels of IL-6 are secreted by; cardiac myxoma cells, myeloma and plasma-cytoma cells, and cervical and bladder cancer cells. • Chaga’s disease: expression of the a subunit of IL-2 receptor

  25. Clinical applications Recombinant cytokines • enough • safety - FDA and EC approval • clinical relevance Which diseases • auto-immune disease • infectious diseases • immuno-deficiencies • malignancy

  26. Auto-immune disease r-human insulin • for type 1, insulin-dependent diabetes rsTNFR • effective in RA, better than anti-TNF, effects transient IFN-alpha • Multiple sclerosis. Erythropoetin • anaemia of chronic renal failure (NB kidney synthesis) IFN-gamma • decrease collagen in Scleroderma - doubtful benefit.

  27. Infectious disease IFN-alpha • Hepatitis B - conversion of Hep B antigen positive to negative, reduction in infection spread, improvement in pathology • Hepatitis C - may cure infection or at least lead to remission while on treatment (in combination with ribovirin). • Papilloma virus - benficial for genital and common warts. • HIV and Kaposi’s sarcoma - no significant benefit. Interferon-gamma • Leprosy - beneficial in lepromatous leprosy. • Leishmaniasis - beneficial in visceral leishmaniasis • Toxoplasma - used as experimental therapy. IL-2 and IFN-alpha, IFN-gamma • HIV - no benefit

  28. Malignancy Malignant disease • IL-2 (LAK cells) • Melanoma trials disappointing (limited by side effects) • Renal cell carcinoma small uncontrolled trial show some benefit • IFN- alpha • Hairy-cell leukaemia treatment of choice self-administered at home • Chronic myeloid leukaemia Thought to be toxic for Phi chromosome positive cells.

  29. Malignancy Treatment of malignant disease • Autologous stem-cell harvest G-CSF increases the circulating CD34+ stem cells. • Post-chemo- or radio-therapy G-CSF / GM-CSF shortens the neutropoenic period. • Post BMT G-CSF / GM-CSF / IL-3 hastens engraftment in autologous transplants • Myelodysplasia GM-CSF / IL-3 / EPO to encourage recovery

  30. Immune-deficiency • Vaccination • adjuvant incorporate cytokine gene sequence eg.IL-12 into vaccines vector (animal models) • Primary Immunodeficiencies - IFN-gamma • chronic granulomatous disease (CGD) • partially corrected defect - acute treatment for abscesses, low-dose prophylactic therapy. Thought to work by increasing bactericidal activity of neutrophils by unknown mechanism. • hyper-IgE syndrome • based on theoretical Th2 imbalance

  31. Cytokines - other applications • Erythropoetin - anaemia of chronic renal failure and dialysis (NB kidney synthesis) • Fibroblast Growth Factor for wound healing, recalcitrant ulcers, non-healing fractures. • Pregnancy- survival of the ‘allograft’, very high secretion of M-CSF from endometrial cells, also high levels of TGF-beta in amniotic fluid.

  32. Therapeutic Uses of Cytokines * TNF a in inflammatory diseases RA, psoriasis New clinical drugs targeting TNF pathway: Humanized anti-TNF a antibody inflixmab (Remicade) Soluble TNF receptor etanercept (Enbrel) not all AID <MS> * INF type I >>>>> melanoma and cutaneous lymphoma * Systemic cytokines

  33. Therapeutic Uses of Cytokines Advantages Known ligands, receptors and mechanisms of action Problems Short half life Toxicity of high repeated doses Broad effects (redundancy) Alternatives Cytokine receptors Alternative delivery routes (skin)

  34. Interleukins - 1 • This nomenclature started in 1979. For this designation • the gene sequence of the protein must be unique. • the protein will have also been cloned (cDNA) • the recombinant protein (eg, rIL-1) shown to have the same activity as the native purified molecule. • IL-1 can be produced by all nucleated cells, has a wide range of biological activities on many target cell types. In vivo it induces hypotension, fever, weight loss, neutropoenia and acute phase response. Main function is as a dendritic cell-derived factor which specifically promotes the proliferation of T lymphocytes.

  35. Interleukins - 2 • IL-2 is a T-cell-derived cytokine which was first described as a T cell growth factor. Now known to stimulate growth and differentiation of T, B, NK cells, monocytes, macrophages and oligodendrocytes. • IL-3 is a haematopoetic growth factor which stimulates colony formation of erythroid, megakaryocyte, neutrophil, eosinophil, basophil, mast cell and monocyte lineages.

  36. Interleukins - 3 • IL-4 from T-cells and mast cells and acts on B-cells, T-cells, endothelial cells and fibroblasts. It induces the secretion of IgE and IgG4 by B-cells. It shares this property with IL-13. • IL-5 is a T-cell derived glycoprotein which stimulates eosinophil colony formation and is an eosinophil differentiation factor. • IL-6 is multifunctional, secreted by lymphoid and non-lymphoid cells. It regulates B-cell function, haematopoesis and the acute phase response.

  37. Interleukins - 4 • IL-7 is a stromal-cell derived factor for progenitor B-cells and T-cells. The main lymphocyte population in the thymus responsive to IL-7 is CD4-ve/CD8-ve. IL-7 also promotes growth and differentiation of mature T-cells. • IL-8 is an inflammatory cytokine, produced by many cell types, which functions as a neutrophil chemo-attractant and activation factor. It also attracts basophils and a subpopulation of lymphocytes. It is a potent angiogenic factor. • IL-9 enhances the proliferation of T-lymphocytes, mast cell lines and erythroid precursors.

  38. Interleukins - 5 • IL-10 is secreted by TH0 and TH2 subsets of CD4 lymphocytes. It blocks activation of cytokine synthesis by TH1 lymphocytes, activated monocytes and NK cells. It stimulates or enhances the proliferation of B-cells, thymocytes and mast cells and it co-operates with TGF beta to stimulate IgA production by human B-cells. There is a high degree of homology between IL-10 and an open reading frame (BCRF1) in the EBV genome. The protein encoded has some of the activities of IL-10 and has been designated vIL-10. • IL-11 is a growth factor for plasmacytoma and macrophage progenitors. It is related to IL-6.

  39. Interleukins - 6 • IL-12 is important against intracellular pathogens. It induces IFN gamma production by T-cells and NK cells, and enhances NK and ADCC activity. It stimulates the proliferation and differentiation of the TH1 CD4 subset. • IL-13 is secreted by activated T-cells and inhibits the production of inflammatory cytokines eg (IL-1b, IL-6, TNFa, IL-8) by LPS-activated monocytes. It induces CD23 expression on B cells, and with anti-Ig or anti-CD40 can stimulate the secretion of IgM, IgE, and IgG4. • IL-14 enhances the proliferation of activated B-cells. and inhibits Ig synthesis.

  40. Interleukins - 7 • IL-15 shares properties with IL-2. • IL-16 produced by fibroblasts and epithelial cells, chemo-attractant for CD4+ cells (T cells, macrophages, monocytes, eosinophils). • IL-17 produced by CD4+ lymphocytes and activates the production of inflammatory mediators (GM-CSF, IL-1beta and TNF alpha) by synoviocytes in arthritis, and macrophages. • IL-18 produced by activated macrophages. Can induce Th2-type cytokines alone or can induce IFN-gamma production and promotes Th1-type immune responses in synergy with IL-12.

  41. Interleukins - 8 • IL-19 IL-10 family member, no function ascribed • IL-20 IL-10 family member, regulates participation of keratinocytes in inflammation • IL-21 IL-10 family member • IL-22 IL-10 family member, produced by activated T cells, no inhibition of monokines • IL-23 similar to IL-12, produced by activated dendritic cells, stimulates IFN and T memory cell proliferation, transgenics have multiple organ inflammation, • IL-24 IL-10 family member, binds keratinocytes.

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