commitment positive selection i positive selection ii ... · commitment positive selection i...
TRANSCRIPT
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Commitment Positive selection I Positive selection II Allelic exclusion Negative selection
T
B
Harvard-MIT Division of Health Sciences and TechnologyHST.176: Cellular and Molecular ImmunologyCourse Director: Dr. Shiv Pillai
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pro -T
NK
B, T, NK, LD
LD
T, NK, LD
B
αβ γδ
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A schematic view of an HLA class II molecule
peptide
α1 β1
β2α2
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HELPER T CELL
Nucleus
Endoplasmic reticulum
T cell receptor
CD4
MHC class II
membrane immunoglobulin
protein antigen
CLIPPeptide -CLIP exchange mediated by HLA-DM
Invariant chain
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A schematic view of an HLA class I molecule
α1 α2
α3 β 2-microg lobu l in
Transmembrane domain
Cytoplasmic tail
peptide
Heavy chain
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Nucleus
Endoplasmic reticulumCytosolic antigen
Proteasome
MHC class I molecules
Signals
CD8 T cell receptor
CYTOTOXIC T CELL
TAP
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MHC RESTRICTION
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αβ T CELL DEVELOPMENT
1. Development occurs in the thymus
2. T cells with receptors biased towardsself MHC must be generated
3. Self-reactive T cells must be tolerized
4. CD4 T cells which see MHC class II-peptide complexes and CD8 T cells which recognize MHC class I-peptide complexes must be generated
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HSC
"Lymphoid" restricted Multipotent progenitor B, T, NK, LD
CD3-
CD4lo
CD8-
TCRβ germlineOligopotent progenitor
TCRγ germlineT, NK, LD
?SCF, IL-7, Flk-2/Flt-3 ligand
TN
CD44+
CD25-
T lineage committed TCRβ/γ germline TN
CD44+
CD25+
Rag gene expression
Progenitors of both αβ TN
CD44-
CD25+ TCRβ/γ/δ rearranged
and γδ lineages
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Thymic versus extra-thymic development
1. Most αβ T cell develop in the thymus
2. Feedback effect: recently generated mature αβ T cells inhibit the further development of precursors
3. The thymus provides a compartmentalization functionseparating precursors from mature T cells
4. Many γδ T cells and some αβ T cells develop in extra-thymic sites. Intestinal "cryptopatches" are an important site for the development of intra-epithelial γδ and αβ T cells
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Thymic Epithelium formed from endoderm of third pharyngeal pouch and ectoderm of third branchial cleft.
whn is required for thymic epithelial cell differentiation and the ability of the thymus to attract lymphoid progenitors.
Proper formation of cortex requires development of early T cells. A block at the pro-Tp (CD44 + CD25-) stage
Thymic progenitors andleads to cortical disruption. Bone-marrow derived stromal components
A block at the Early pre-T (CD44 -CD25+) stage leads to specific medullary defects A block at the CD4 +CD8+ DP stage also leads to medullary defects Cortex
Medulla
Migration of thymic progenitors starts soon after.Bone-marrow also provides macrophagesand dendritic cells. Stromal developmentcompleted by end of gestation.Cell-cell and ECM-cell interactions,IL-7, and SCF contribute to T cellcommitment and development.
Stroma necessary for positive and negative selection
Developing T cells are required for the architectural development of the cortex and the medulla
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T CELL RECEPTOR BINDING SITES
Model 1: Initial repertoire like Ig Thymic education selects a small fraction of cells
Model 2: Initial repertoire already has structural bias for MHC
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PRE-TCR SIGNALING
CD4 +8+
CD4 +
CD8 +
NEGATIVE
SELECTION
POSITIVE
SELECTION II
POSITIVE
SELECTION II
Vα-J α pre-T
IL-7 SIGNALING
SCF/C-KIT SIGNALING
pro-T
TCR
CD8 CD4
POSITIVE SELECTION I
Non-productive Death by Neglect β chain rearrangement
Double Negative Double positive Single positive
REARRANGEMENT ELIMINATION RESPONDERS
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No known ligand
β
pTα γ ε ε δ
ζζ
ITAM
CD3δ not essential for pre-TCR signaling
Src-family kinases (Lck and Fyn)
Syk family kinases (Syk and ZAP70)
1) Survival and proliferation signals 2) Allelic exclusion at TCR β locus 3) Induction of TCR α rearrangement d) Shut-off of pTα expression
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Cortex Medulla
ICAM-1
?Glucocorticoid levels high
ICAM-1 and B7-1
?Glucocorticoid levels low
Cathepsin-L Cathepsin-S
POSITIVE SELECTION NEGATIVE SELECTION
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High affinity Low affinity No affinity of TCR TCR- TCR-MHC for MHC MHC interactions interactions
"negative "positive "death by neglect" selection" selection"
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Lineage Commitment - CD4+ versus CD8+
Stochastic versus instructive
TCR Signal strength
Duration of signaling
Notch attenuates signal strength?
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DP CD5lo
CD69lo
DP CD5hi
CD69hi
Bcl-2lo
TCRlo
CD4 committed CD8 committed
TCR/CD3 signaling
TCR and CD8 signalsDefault
4+8lo
Notch signaling
DP CD5lo
CD69lo
Bcl-2hi
TCRhi
DP CD5lo
CD69lo
Bcl-2hi
TCRhi
DP cell DP cell
4+8lo 4lo8+
SP CD4
SP CD8
TCR sees MHC class II
SP CD4
TCR sees MHC class I
TCR sees MHC class I
TCR sees MHC class II
SP CD8
Selected CD8 cellsSelected CD4 cells
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γδ T cells
1. Not educated in the thymus
2. Often develop extrathymically
3. Most IELs (intraepitheliallymphocytes) are γδ T cells
4. Either use CD8 or no coreceptor
5. Innate immunity?
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STOCHASTIC INSTRUCTIVE
pro-γδ pro-αβ
pro-T pro-T
γδ in-frame
β in-frame
βNP γδNP
γδ lineage αβ lineage
γδ in-frame
γδ NP
β in-frame
γδ lineage αβ lineage
β NP
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- -
Vα-JαLatep r e -T
- -
Pre-TCR SIGNALING (only in αβ committed cells)
CD44+CD25 CD44+CD25+ CD44 CD25+ CD44 CD25
c-Kit + c-Kit + c-Kit -/lo c-Kit -
- T Small pre-T
cycling
Large pre-T
IL-7/γc required for
TNK p r o
In αβ committed T cells TCR γ expression is downregulated; TCR δ segments are deleted during TCR α rearrangement
survival of progenitors
γδ T CELL DEVELOPMENT
γδ REQUIRES IL-15 REQUIRES TCR TO BE TRIGGERED VIA MICA AND MICB NO NEGATIVE SELECTION STEP KNOWN
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Vα/Vδ Dδ Jδ Eδ Cδ Vδ5 TEA Jα Cα Eα LCR
BEAD-1 Silencers