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Cytokines Cytokines and their Receptors in Inter-Cellular Communication Cytokines-Based Diseases and Cytokine Therapy Folder: Cytokine Cells in the immune.

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Presentation on theme: "Cytokines Cytokines and their Receptors in Inter-Cellular Communication Cytokines-Based Diseases and Cytokine Therapy Folder: Cytokine Cells in the immune."— Presentation transcript:

1 Cytokines Cytokines and their Receptors in Inter-Cellular Communication Cytokines-Based Diseases and Cytokine Therapy Folder: Cytokine Cells in the immune response must communicate with each other and with their environment in order to carry out their complex regulated functions throughout the host ("systemically'). The cells communicate by contact in some cases, and also by sending and receiving protein signals, the cytokines.Cytokines are signal molecules produced by cells to communicate with receptors on other cells. When cytokines are produced by lymphocytes, they are also called "lymphokines". Updated: November 15, 2012 Folder title: Cytokine

2 Key Hematopoietic Growth Factors and Their Targets
(Presented in Part 2 under “Cells of the Immune Response”) Key Hematopoietic Growth Factors and Their Targets Relatively Multi-Specific: Granulocyte-Macrophage Colony-Stimulating Factor GMCSF Interleukin III - IL3 Relatively Mono-Specific: Granulocyte Colony Stimulating Factor - GCSF Macrophage Colony Stimulating Factor - MCSF Erythropoietin - EPO Folder: Cell This is a repeat of a slide shown in the folder "Cells". Interleukin 3 is an example of a cytokine. The other factors shown here are called growth factors, although they are functionally indistinquishable from cytokines. In fact, one often fudges by calling them "cytokine growth factors". This is the Speaker Note that appeared in "Cells": Some cytokine growth factors exert their effects on a variety of cellular targets. These multiple functions make it more difficult to use such cytokines as pharmaceutical agents because it is more difficult to predict and control their effects. Other cytokines such as erythropoietin have fairly specific cellular targets and produce more predictable effects. Erythropoietin is an important biopharmaceutical produced by AMGEN for the treatment of red-blood cell anemias.

3 Cytokine Table P l eo t r o pic R e d u n d a n t Folder: Cytokine
This slide is also a repeat from "Cells". It shows the potential target cells for specific cytokines and growth factors. It reminds us that the cytokines have specific functions to perform, and sometimes they have multiple specific functions. It also reminds us that cytokine signal must be received by potential target cells. In fact it is the presence of specific cytokine receptors that make these cells the cytokine "targets". We saw earlier that IL3 and GMCSF are pleiotropic cytokines. They do multiple functions (reading down the columns). G-CSF, M-CSF, and EPO (Erythropoetic) are more selective and specific in what they do.

4 Activities of Cytokines: What They Do Cytokines in Hematopoiesis
Cytokines in Innate and Adaptive immunity

5 Hematopoiesis Lymphocytes Hematopoietic Cytokines and Hematopoiesis:
Stem Cell Factor from Bone Marrow Stromal Cells Hematopoiesis Lymphocytes Hematopoietic Cytokines and Hematopoiesis: Immunology, 5th Edition, Figure 12-16, p. 297 Myelocytes

6 Stem Cell Production Myelocyte Production Lymphocyte Production

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8 The Complexity of Cytokine-Receptor Signaling and Effects
What cytokine is being made? When is it being made? At what concentration? How long will it be around? Is it being modified by other proteins? Activated? Degraded? What other cytokines are being made? Do they affect the first cytokine? Do they activate or inhibit the first cytokine? Is the cytokine receptor available on the target cell or cells? Is the receptor being activated or inhibited? Is the receptor defective? Does the receptor have a high enough affinity for the cytokine?

9 Where They Come From: The Discovery of IL1
Cytokines: Where They Come From: The Discovery of IL1 How They Work

10 Macrophage to T-Helper
Folder: Cytokine The paracrine effect of a cytokine such as IL-1 is enhanced by bringing the cytokine producing cell, in this case the activated macrophage, into close proximity to its target cell, in this case the Helper T-cell. The ideal way to achieve this specific proximity is to have the antigen-presenting activated macrophage physically bonded to the antigen-specific T-cell Receptor of the "correct" T-cell clone. This specific physical bonding involves antigen presentation on a class II MHC protein by the activated macrophage. The activated macrophage is also producing and secreting IL-1. The attached Helper-T-cell naturally experiences the highest concentration of IL-1 at the earliest point simply because the T-cell is close by.

11 Discovery of IL1 “PHA” (Phytohemagglutinin) is a mold product that is a T-cell mitogen. That means it stimulates T-cell activation the way an antigen-presenting macrophage would. However, PHA is a polyclonal mitogen, meaning it stimulates T-cells regardless of their antigen specificity. That means that PHA stimulates almost all of the T-cells, not just a small sub-set. PHA = phytohemagglutinin (poly-clonal t-cell mitogen from fungi

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15 This shows that the cytokine IL4 produced by activated helper T-cells can affect at least three different types of responding cells. This makes IL4 and pleiotropic cytokine.

16 Pleiotropic activity of Interferon Gamma.
Gamma Interferon Pleiotropic activity of Interferon Gamma. Immunology, 5th Edition, Figure 15-15, p. 355

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18 Table of Redundancy and Pleiotropy
Folder: Cytokine Examples of pleiotropic effects are seen by reading down the columns for IL-1, Tumor Necrosis Factor alpha, or IL-6. Examples of redundant effects are seen by reading across the rows. For example, all three cytokines can affect the production of pyrogens, agents that elevate body temperature. Allthree affect vascular permeability, or activate B or T-Cells. See Table 15-3, Immunology, 5th Edition, p. 350

19 Cytokines and TH1 and TH2 Helper T-Cell Subsets: Immunological and Pathobiological Effects

20 TH1 and TH2 in Disease Blocked Blocked Folder: Cytokine
This is a repeat of a slide shown earlier where two types of helper T-cells are pictured. TH2 cells support the humoral immune response, and TH1 cells support the cellular response. The levels of antagonistic cytokines IL-4 and Interferon gamma affect which type of Helper T-cell is functionally predominant.

21 Dashed -------- arrow indicates blocking response
Roles of TH1 and TH2

22 Cytokines and TH1 and TH2 See Table 12-4, p. 315,
Top Half Immunology, 6th Edition

23 Functions of TH1 and TH2 See Table 4-4, p. 96 for structures and functions of IgG subtypes The sub-set of Helper T-cells activated (TH1 vs TH2) has a profound effect on the nature of the immune response supported. The outcome of a disease process (leprosy) based on TH1 vs TH2 cell response is shown on the next slide. See Table 12-4, Bottom Half, p315, 6th Edition

24 TH1 and TH2 Helper Cell Subsets in the Pathology and Progression of Infection with Mycobacterium leprae Tuberculoid (Cell-mediated) and Lepromatous (Humoral response) Leprosy (Figure 12-14, Immunology, 6th Edition, p. 318) M-RNA from Tuberculoid or lepromatous lesions analyzed for types of cytokines being produced TH1 activity supports a cellular immune response that keeps the bacterial infection localized into tuberculoid lesions that limit the effects of the disease. TH2 activity supports a humoral response that is ineffective against the disease and that allows the disease to spread to distant sites.

25 Cytokine Receptors in Normal immune Response and in Pathobiology
The Specific Cytokines that are present, and their concentrations matter in how the immune response reacts. The presence and structure of cytokines receptors matter just as much as the cytokines themselves.

26 Receptors for IL2 Gamma subunit is used by other cytokine receptors
(IL15, IL7, IL9, IL4)

27 General model of cytokine receptors for interleukin and interferon types of cytokines.
See figure 12-6 (b) and (c) p. 308, for interleukin (“hematopoietin”) and interferon class of cytokines STAT = signal transducers and activators of transcription. See Table 12-2, p. 313 for STAT family of transcription factors associated with different cytokines of the interleukin and interferon series

28 IL2 Receptor Family Figure 12-7 (c) Kuby, 6th Ed., p. 309 IL2RFam

29 Cytokines, Cytokine Receptors, and Human Disease (Part 1): Over-production of Cytokines
Bacterial Septic Shock: Bacterial Cell-wall Endotoxins Macrophage Overproduction if IL-1 and TNF-alpha Bacterial Toxic Shock Polyclonal activation of T-cells by Super-Antigens Over-production of IL-1, TNF, other cytokines Example organisms potentially producing endotoxins: Neisseria meningitidis, E coli, Pseudomonas aeruginosa, Enterobacter aerogenes, Klebsiella pneumoniae Example organisms producing super-antigens: Staphylococcus aureus, Streptococcus pyrogenes See pages 291 and 292, Kuby, Edition 5

30 Cytokines, Cytokine Receptors, and Human Disease (Part 2)
Cytokine Receptor Miss-expression Cutaneous T-Cell Lymphoma Inappropriate Expression of IL-2 and IL-2R X-Linked Severe Combined Immune-Deficiency (X-SCID) Boy-in-the Bubble Syndrome Failure to Express IL-2R Gamma Subunit May Also Affect IL4R and IL7R Produces Broad-ranging Immune Unresponsiveness Example organisms potentially producing endotoxins: Neisseria meningitidis, E coli, Pseudomonas aeruginosa, Enterobacter aerogenes, Klebsiella pneumoniae Example organisms producing super-antigens: Staphylococcus aureus, Streptococcus pyrogenes See pages 291 and 292, Kuby, Edition 5

31 Gamma C Subunit Shared

32 Cytokines, Cytokine Receptors, and Human Disease (Part 3)
Cytokine Receptor Blocking Chagas Disease (Trypanosoma Cruzi) Severe Immunosuppression of Infectious Etiology Blocked Expression of IL-2R Alpha Subunit Example organisms potentially producing endotoxins: Neisseria meningitidis, E coli, Pseudomonas aeruginosa, Enterobacter aerogenes, Klebsiella pneumoniae Example organisms producing super-antigens: Staphylococcus aureus, Streptococcus pyrogenes See pages 291 and 292, Kuby, Edition 5

33 Cytokines, Cytokine Receptors, and Human Disease (Part 4) Cytokine Mimics
Anti-inflammatory and Immunosuppressive Viral Products as Mimics of Cytokines and Cytokine Receptors XSCID

34 Viral Mimics of Cytokines and Receptors
Immunosuppression and Anti-inflammatory Effects of Viral Mimics of Cytokines and of Cytokine Receptors. (Kuby, 6th Ed., p. 314) Viral Mimics of Cytokines and Receptors Macrophage inflammatory protein Chemokines: Small molecular weight polypepetide (90 to 130 amino acid residues) cytokines attracting cells to inflammatory sites. (See pages 329 to 332, Edition 6, Kuby Immunology) See Chapter 15, p. 346, Kuby Edition 5 RANTES: Regulated upon activation, T-Cell expressed and secreted MCP: Monocyte chemoattractant protein MIP: Macrophage inflammatory protein Also see complement-protein breakdown products For information on chemokines, See Table 13-2, p. 330, and footnotes to Table 13-2, Kuby, 6th Edition. Chemokines are small MW cytokines that mostly regulate leukocyte trafficking and adherence but also regulate non-leukocyte cellular interactions. Monocyte chemoattractant protein

35 Other Sources of Cytokines used in Host Response to Pathogens:
e.g. Mediators in Type I Immediate Hypersensitivity

36 Overview of Mast Cell Mediated Type I Immediate Hypersensitivity: Triggering of Sensitized Cells and Release of Early and Late Mediators: How Do We Treat This??? IgEOView

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38 Cytokines in Therapy of Diseases
Since cytokines have potent activities at low concentrations in controlling responses of host cells to normal and pathological events, can we use Cytokines deliberately in therapy?

39 Tumor Necrosis Factor and Melanocytes

40 Tumor Necrosis Factor in Vivo

41 Tumor Necrosis Factor and Weight Loss

42 Cytokine Therapies in the Clinic

43 Turning Down Helper T-Cell and Cytotoxic T-Cell Mediated Auto-immune Responses

44 IL2 is needed to activate T-cells
IL2 is needed to activate T-cells. If these are autoreactive T-cells causing autoimmune disease, the effect of IL2 (illustrated with the Black Dots) can be blocked by using an antibody that blocks the IL2 receptor. Similarly, and analog of IL2 that binds to the receptor with high affinity but does not trigger T-cell differentiation and T-cell production of cytokines can prevent the authentic IL2 from reaching its receptor thus turning down the autoimmunity.

45 Autoreactive T-cells can also be shut down and destroyed with toxins bound to IL2 that are brought to the T-cell by the IL2. This is much like antibody-based immuno-toxins where an antibody bring a toxin to a cancer cell based on an antigen that the cancer cell is expressing.

46 Cytokine Activation of Leucocytes in Anti-Leukemia Treatments

47 LAK Cells This and the next slide show an approach to using IL2 to activate lymphocytes to attack a cancer in a patient. These approaches were developed by Stephen Rosenberg in the 1990’s. You can check to see whether they have been successful in clinical applications over the succeeding years.

48 TIL Cells

49 On a scale of -2 to +2 rate: 1 = -2 = I’m totally lost; 2 = -1 = I’m having a hard time but I get some of it 3 = 0 = I’m doing OK. I get a lot of it. I’ll figure the rest out later 4 = +1 = I’m doing fine. I get most of it; 5 = +2 = This is no problem. Please get moving before I get totally bored

50 n I am here! Yes No Not sure 0 of 103


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