Difference between revisions of "T cell differentiation"
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<big><center>[[Immunology - WikiBlood|'''BACK TO IMMUNOLOGY''']]</center></big> | <big><center>[[Immunology - WikiBlood|'''BACK TO IMMUNOLOGY''']]</center></big> | ||
− | == | + | ==Introduction== |
==Development of CD4+ T-Cell Subpopulations== | ==Development of CD4+ T-Cell Subpopulations== | ||
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* The proliferation of T cells continues until antigen disappears. | * The proliferation of T cells continues until antigen disappears. | ||
− | ==TH<sub>1</sub> Cells== | + | ===TH<sub>1</sub> Cells=== |
* TH<sub>1</sub> cells secrete a range of cytokines. | * TH<sub>1</sub> cells secrete a range of cytokines. | ||
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*** Can act to suppress antibody synthesis. | *** Can act to suppress antibody synthesis. | ||
− | ==TH<sub>2</sub> Cells== | + | ===TH<sub>2</sub> Cells=== |
* The TH2 population influences B-cell activation, proliferation and immunoglobulin production. | * The TH2 population influences B-cell activation, proliferation and immunoglobulin production. | ||
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*** Promotes immunoglobulin synthesis. | *** Promotes immunoglobulin synthesis. | ||
− | ==Common Functions of Th<sub>1</sub> and TH<sub>2</sub> Cells== | + | ===Common Functions of Th<sub>1</sub> and TH<sub>2</sub> Cells=== |
* Both TH1 and TH2 cells produce IL-3 and granulocyte-macrophage colony stimulating factor (GM-CSF). | * Both TH1 and TH2 cells produce IL-3 and granulocyte-macrophage colony stimulating factor (GM-CSF). |
Revision as of 11:00, 22 August 2008
Introduction
Development of CD4+ T-Cell Subpopulations
- Within the blood and lymphoid organs the majority of CD4+ T cells are antigen-naive T-cells.
- There is only a small proportion of memory T-cells.
- Naive T-cells have yet to encounter antigen.
- can only be activated by antigen presented by dendritic cells.
- After initial antigenic activation, naïve T-cells develop into an intermediate stage cell.
- The TH0 cell.
- Can then be activated by any antigen-presenting cell.
- Dendritic cell, macrophage or B-cell.
- The TH0 cells have the capacity to differentiate into TH1 and TH2 cells.
- The type of cell that develops depends on the antigen presenting cell.
- Macrophages cause the TH0 cell to develop into TH1 cells.
- Caused by IL-12 production following macrophage-antigen interaction.
- B-cells cause the TH0 cell to develop into TH2 cells.
- Caused by IL-10 production following B-cell-antigen interaction,
- Macrophages cause the TH0 cell to develop into TH1 cells.
- The type of cell that develops depends on the antigen presenting cell.
- On antigenic stimulation the TH1 or TH2 cells become activated.
- Undergo clonal expansion and secrete a range of different cytokines.
- For any one cell the cytokine-secreting activation state is short-lived.
- 4 - 40 hours.
- After this time these cells either:
- Die, or
- Mature into the long-lived memory cells.
- For any one cell the cytokine-secreting activation state is short-lived.
- Undergo clonal expansion and secrete a range of different cytokines.
- The proliferation of T cells continues until antigen disappears.
TH1 Cells
- TH1 cells secrete a range of cytokines.
- Cytokines secreted include:
- IL-2.
- Gives proliferation of both CD4+ and CD8+ T-cells.
- This stimulation of proliferation of T-cells is the main function of the TH1 cell.
- Interferon gamma (IFNγ).
- Activates tissue macrophages
- Is the principal effector mechanism in the defence against intracellular bacteria and parasites.
- E.g. Mycobacteria, Brucella, Rickettsia (bacteria) and Leishmania, Coccidia, Babesia (parasites).
- Activates macrophages and stimulates them to produce enzymes triggering the intracellular killing mechanisms, e.g.
- Superoxide dismutase and myeloperoxidase.
- Produce H2O2 and trigger the "superoxide burst".
- Nitric oxide synthase.
- Produces nitric oxide.
- Superoxide dismutase and myeloperoxidase.
- This is another example of the immune system working through the innate immune response.
- Can act to suppress antibody synthesis.
- IL-2.
TH2 Cells
- The TH2 population influences B-cell activation, proliferation and immunoglobulin production.
- The TH2 T cell population secrete a range of cytokines.
- IL-4
- Stimulates B cell growth.
- Gives heavy chain switch from IgM to IgG , IgA and IgE.
- Proliferation of basophils/ mast cells.
- Can inhibit some T-cell responses.
- IL-5
- Activates B-cells.
- Stimulates high rate B-cell proliferation.
- Promotes immunoglobulin synthesis.
- Proliferation and differentiation of eosinophils.
- IL-6
- Activates B-cells.
- Stimulates high rate B-cell proliferation.
- Promotes immunoglobulin synthesis.
- IL-4
Common Functions of Th1 and TH2 Cells
- Both TH1 and TH2 cells produce IL-3 and granulocyte-macrophage colony stimulating factor (GM-CSF).
- These act to activate and induce proliferation of neutrophils and also macrophages.
- Neutrophils are the major phagocytic cells in the blood and the principal cells in acute inflammatory lesions.
- Function chiefly in the defence against extracellular bacteria.
- Neutrophils are the major phagocytic cells in the blood and the principal cells in acute inflammatory lesions.
- Therefore, one of the major biological functions of the activation of either TH subset is cytokine-controlled reactive haematopoiesis.
- These act to activate and induce proliferation of neutrophils and also macrophages.
T-Cell Activation
- T-cells function only after recent activation by antigen.
- CD4 binds MHC class II.
- CD4+ T-cells therefore recognise antigen only in association with MHC class II
- CD8 binds MHC class I.
- CD8+ T-cells recognise antigen only in association with MHC class I.
- Activation of T cells requires two distinct signals.
- Signal 1
- The interaction of the TcR with the antigenic peptide/MHC complex on the antigen presenting cell.
- Signal 2
- The interaction of CD28 on the T-cell with its ligand, CD80, on the antigen-presenting cell.
- APC expression of CD80 only occurs after:
- The engagement of pattern recognition or Fc receptors.
- Activation with cytokines.
- Interferons, IL-1β or TNFα.
- Therefore signal 2 only occurs after the recognition of danger.
- APC expression of CD80 only occurs after:
- The interaction of CD28 on the T-cell with its ligand, CD80, on the antigen-presenting cell.
- Signal 1
Scenarios
- No signal 1
- T-cell is not activated as there is no antigen.
- Both signal 1 and signal 2
- T-cell is activated into clonal expansion.
- Produces cytokines or becomes cytotoxic.
- This is the response to a dangerous antigen.
- T-cell is activated into clonal expansion.
- Signal 1 but no signal 2
- T-cell is triggered into apoptosis and dies.
- This is the basis of "clonal deletion".
- A major mechanism of tolerance.
- Ensures that T-cells do not react with self (non-dangerous) antigens.
Response to Activation
- The response of the T cells to obtaining Signals 1 and 2 is:
- To express the receptor for the cytokine interleukin-2 (IL-2).
- In CD4+ T-cells only, the secretion of IL-2.
- The final trigger for clonal expansion is the engagement of IL-2R with IL-2.
- The IL-2 can come from any activated CD4+ T-cell.
- IL-2 produced by a CD4+ cell may also stimulate clonal expansion of that cell.
T-Helper Cell Function
- The function of T helper cells is to regulate the immune response.
- The cytokines they secrete exert their influence on other cell populations.
- Most of the different effector cells of the immune system are affected by one or more of the cytokines secreted by TH cells.
- The cytokines they secrete exert their influence on other cell populations.
- TH cells secrete cytokines for only a short period after they have been activated.
- The range of cytokines that TH cells secrete after activation chiefly determines their function.
- Different T-helper cell subpopulations secrete different sets of cytokines.
- Th1 and TH2 cells.
- Different T-helper cell subpopulations secrete different sets of cytokines.