negative regulation of the immune system
DESCRIPTION
NEGATIVE REGULATION OF THE IMMUNE SYSTEM. NEGATIVE REGULATION IN THE IMMUNE SYSTEM Decrease of antigen concentration in the course of the immune response Inhibition of B lymphocyte activation - antibody feedback Cross linking of BCR with Fc RIIB (CD32) by antigen-antibody complex - PowerPoint PPT PresentationTRANSCRIPT
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NEGATIVE REGULATION OF THE IMMUNE SYSTEM
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NEGATIVE REGULATION IN THE IMMUNE SYSTEM1. Decrease of antigen concentration in the course of the immune response2. Inhibition of B lymphocyte activation - antibody feedback
• Cross linking of BCR with FcRIIB (CD32) by antigen-antibody complex• ITIM-induced negative signaling of B cell activation - phosphatases• B cells without T cell help are excluded from follicles
3. Death of activated T lymphocytes• Passive cell death mediated by the shortage in survival factors (cytokines)• Activation induced FasL expression sensitizes activated T cells for Fas-• mediated apoptosis (AICD)• Activation induced cell death (AICD) is induced by repeated antigenic
stimulation4. Inhibition T lymphocyte activation• Anergy of CD4+ T lymphocytes • Late in the immune response activated T cells express CTLA-4, the ligand of
B74. Suppression by regulatory T lymphocytes
• Counter regulation of Th1 and Th2 cytokines• Production of suppressive cytokines• IL-10 inhibits APC function such as IL-12 secretion and B7 expression• TGF inhibits T-cell proliferation• IL-4 inhibits IFN-mediated functions• IL-10 and TGF inhibit macrophage activation
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NEGATIVE REGULATION OF IMMUNE RESPONSES
Days5 10 15 20 25 30
Naive lymphocytes
Number of antigen specific cells
Primary effectors
Secondary effectors
Memory
DIFFERENTIATION
AICD
EXPANSION
AICD
MEMORY
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Ia
SS
SS
SS
SS
SS
Ib
SS
SS
IIb1 IIb2/IIb3
S S S SS S
SS
SS
IIIa IIIb
SS
SS
SS
SS
SS
SS
ITIMITAM
S S
IIc
SS
SS
IIa trimerCa2+
Ca2+Ca2+
SS
ITAM
SS
tetramer
-S-S--S-S-
SS
SS
ITAM
SS
SS
SS
SS
SS
SS
poli-Ig receptor
SECRETORY PIECE
ITAM
Iγ-γ
FcγRI (CD64) FcεRIIFcγRII (CD32)
IIIaζ-ζ IIIaζ-γ IIIaγ-γ IIIaβ
α β γ-γ α γ-γ
γ-γ α
FcεRI
FcγRIII (CD16)
IMMUNOGLOBULIN BINDING Fc RECEPTORS
IgG Fc receptors
FcRI
Ig supergene family, MIRR
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Activating receptorITAM
Expression Inhibitory receptorITIM
Expression
Fc receptorok
Ig supergene family BCR* B cell
TCR,* CD3* T cell
FcRIa (CD64)FcRI*
Macrophage, DC (internalization)
FcRIIa (CD32) Macrophage, DC (internalization)
FcRIIb (CD32) B cell
FcRIIIa (CD16) FcRI* vagy *
NK cell (ADCC)
FcRI, FcRI* Mast cell (ADCC)
C-type lectin
FcRIIb (CD23b) FcRIIa (CD23a) B cell
MHC I receptorok
Ig supergene family Human KAR Human KIR NK and T cell
C-típusú lektin Egér KIR
Human NKG2C/D NK and regulatory T cell Human NKG2A/B NK and regulatory T cell
Other receptors
BCR CD22 B cell
CD28 CTLA-4 T cell
MIRR Multisubunit Immune Recognition Receptors The ligand binding and signal transducing subunits are separated, they co-localize in membrane microdomains.
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ITAM
ITIM
NEGATIVE REGULATION OF B LYMPHOCYTES BY IMMUNE COMPLEXES
FcRIIb
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CD28
Activated T cell
CD28 cross linked by B7
Costimulatory molecules also associatewith inhibitory receptors
CTLA-4 binds CD28 with a higher affinity than B7 molecules
/CTLA-4
B7
CD28
T cell
B7
2 2Signal 1 +
Co-stimulationinduces CTLA-4
The lack of signal 2 to the T cell shuts down the T cell response.
Cross-linking of CTLA-4by B7 inhibits co-stimulationand inhibits T cell activation
- - -- -
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NEGATIVE REGULATION OF T CELL ACTIVATION BY CTLA-4
CTLA-4
CD28
B7
LATE EXPRESSION
HIGHER AFFINITY TO B7 THAN CD28
TAPC
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C D 8 + Tc
F a s
C D 4 + T h 1
F a s L
C D 4 +
T h 1
A P C
B
THE ROLE OF CD4+ T CELLS IN APOPTOSIS
T CELL HOMEOSTASIS SHUT OFF IMMUNE RESPONSES
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REGULATORY T CELLS
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TregTregCD25IL-2Rα
CTLA4B7 ligand
GITR
MARKERS OF THYMUS DERIVED NATURAL Treg CELLS
CD127IL-7Rα ↓
Treg differentiation, maintenance, functionTranscription factor – many target genesItself is not sufficient to confer suppressive function A TGFβ does not induce regulatory function
FoxP3
CD4+CD25+FOXP3+
REGULATORY T CELLS
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FUNCTIONS OF REGULATORY T CELLSFUNCTIONS OF REGULATORY T CELLS
•Maintenance of peripheral tolerance
•Prevention of autoimmunity
•Limiting inflammatory processes (asthma, inflammatory bowel diseases)
•Inhibit protection against infectious diseases
•Limit immune responses to tumors
MECHANISM
Intrinsic and extrinsic regulation
Various inhibitory mechanisms
Cell contacts – Cytokines
Interaction with the target effector T cells
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REGULATORY FUNCTION OF REGULATORY T LYMPHOCYTESREGULATORY FUNCTION OF REGULATORY T LYMPHOCYTES
IL-35
Inhibitory cytokines
TGFβ
IL-10
Cytolysis
Metabolic dysregulation Inhibition of dendritic cell maturation
Descreased cytokine production (IL-2)Adenosin around the cell
cAMP transfer
Indolamin2,3-dioxigenaseLAG-3 – CD4 homologTreg : effektor T cell = 1 : 8Treg : DC = 1 : 0,8
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THE ROLE OF IL-35 IN THE FUNCTION OF REGULATORY T CELLSTHE ROLE OF IL-35 IN THE FUNCTION OF REGULATORY T CELLS
Induced capability, the effector cell is involved
NOT ONLY A FUNCTION
•The molecular patterns of activated Treg cells are different in the presence and absence of effector cells
•The expression of EBI3 and IL-12α/p35 (IL-35) subunits is increased in the presence of effector T cells
•Treg cells in contact with effector cell act also on effector cells out of contact through IL-35
Initial T cell activation Sensed by Treg cells
Increased suppressive mechanisms
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REGULATORY CELLS ARE ABLE TO CONTROL LOW LEVEL ACTIVATION