chapter 10 t-cell maturation, activation, and differentiation dr. capers
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Chapter 10
T-cell Maturation, Activation, and Differentiation
Dr. Capers
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Kuby IMMUNOLOGYSixth Edition
Chapter 10T-Cell Maturation,
Activation,and Differentiation
Copyright © 2007 by W. H. Freeman and Company
Kindt • Goldsby • Osborne
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Progenitor T cells migrate from bone marrow to thymus
T cells can be grown in vitro in absence of thymic fragmentsGrown on bone
marrow stem cells with Notch protein
Notch protein is key in determining T-lineage specification
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Progenitor T cells migrate to thymus○ At about 8th or 9th week of gestation in humans
T cell maturation involves rearrangements of the germ-line TCR genes
In thymus, thymocytes proliferate and differentiate
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Selection process in thymusPositive selection
○ Survival of only T cells whose TCRs recognize self-MHC molecules
Negative selection○ Eliminates T cells that react too strongly with
self MHC or MHC with self-peptides
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T-cell Development
Begins with arrival of small numbers of lymphoid precursors migrating from blood to thymus
○ When they do arrive in thymus, T-cell precursors don’t express signature surface markers (CD3, CD4, and CD8)
○ Do not express RAG-1 or RAG-2 that are necessary for gene rearrangement
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T-cell Development
During 3 week development, differentiating T cells pass through stages of development based on surface phenotypes
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DN = Double negativeCD4- and CD8-
DP = Double positiveCD4+ and CD8+
C-kit – receptor for stem cell growth factorCD44 – an adhesion moleculeCD25 - alpha chain of IL-2 receptor
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T cell development is expensive for host○ 98% of all thymocytes do not mature, die by
apoptosis within thymus
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Insertion of rearranged TCR genes suppress other gene rearrangements in these mice
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T cell Activation
Initiated by TCR-CD3 complex with processed antigen on MHC molecule
○ CD8+ cells with Class I○ CD4+ cells with Class II
Initiates cascade of biochemical events○ Inducing resting T cell to enter cell cycle,
proliferate, differentiate into memory and effector T cells
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T cell Activation
Cascade of biochemical events leading to gene expression:Interaction of signal and molecule (example:
TCR + MHC and antigen)Generation of “second messenger” that
diffuses to other areas of cellProtein kinases and protein phosphatases
are activated or inhibitiedSignals are amplified by enzyme cascades
http://www.youtube.com/watch?v=tMMrTRnFdI4&feature=player_detailpageClick on link to see example
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T cell Activation
Gene products after activation○ Immediate genes (1/2 hour of recognition)
Transcription factors (c-Myc, NFAT, NF-κB)
○ Early genes (1-2 hours from recognition)IL-2, IL2R, IL-6, IFN-γ
○ Late genes (more than 2 days later)Encode adhesion molecules
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Go ontoNext slide
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Superantigens Bind to BOTH the TCR and
MHC Can cause over-activation
Overproduction of TH-cell cytokines, leading to systemic toxicity
Exogeneous Variety of exotoxins
secreted by some Gram+ bacteria
Endogeneous Cell membrane proteins
encoded by viruses
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T-Cell Differentiation CD4+ and CD8+ cells leave thymus and enter circulation in
G0 phase
○ Naïve cells (condensed chromatin, little cytoplasm)○ About twice as many CD4+
Naïve cell recognized MHC-antigen complex○ Initiated primary response○ After 48 hours, enlarges into blast cell and undergoes
repeated rounds of cell division○ Differentiate into:
- Effector cells – cytokine secretion, B-cell help- Memory cells – long lived, respond with heightened
activity (secondary response)
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Treg Cells
Shown to inhibit proliferation of other T cells in vitro
CD4+CD25+ Shown to inhibit development of
autoimmune diseases
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Cell Death and T Cell Populations Apoptosis plays critical role
Deletion of potentially autoreactive thymocytes
Deletion of T cell populations after activation○ Fas and FasL pathway to induce self death