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Lecture 8
The Development of Lymphocytes
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Core content
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Students should know:
• T cell receptor gene rearrangement and lineage commitment• preTCR• Positive selection• Negative selection• Changes in surface phenotype during T cell maturation in
thymus.• The order and location of T cell selection• Cell types involved in T cell selection• Why it is important to match MHC molecules between donor
and recipient during bone marrow transplantation for donor-derived T cells to be functional in recipient?
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100%
2% CD4 or CD8 TCR T cells
TCR
Selections for T cells that are MHC-restricted and not self reactive
Generation of naïve T cells in thymus
T cell progenitors
TCR gene rearrangement
TCR
not selected
Blood
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Generation of T cell clones: clonality
ThymusTCRrecombination
G G
A
B
C
A
B
C
A
A
A
C
C
CThymusSelection of T cells with Good TCR
Ag For TCR A
Ag For TCR B
Secondary Lymphoid tissuesAg-dependent expansion of clones
Stem cells
G: TCR in germ line configurationA, B, C: rearranged TCRs with different specificities
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Origin, generation and differentiation of T cells
• T cell progenitors migrate from bone marrow and seed thymus. T cell progenitors undergo differentiation to CD4, CD8 and NKT cells in thymus. Mature CD4 and CD8 T cells circulate between blood and lymphoid tissues until they meet antigens presented on dendritic cells in lymphoid tissues. T cells further undergo maturation to become functional memory or effector T cells in LT
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Figure 5-2Thymic involution: Human thymus is fully developed before birth and increases in size until puberty. It then progressively shrinks during adult life.
Thymectized adults have no problem in T cell immunity because enough T cells are present in periphery, and these T cells are long-lived.
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Figure 5-3 part 1 of 2
Dif
fere
ntia
tion
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Figure 5-3 part 2 of 2
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Lineage commitment to or T cells
• Successful gene rearrangement in and before T
• Successful gene rearrangement in before or pT T (not committed yet). This signals to halt rearrangement of the and -chain genes and to enter a phase of proliferation.
• Further rearrangement in and . Lineage commitment now depends on whether a functional or T-cell receptor is made first.
• More T cells are made than T cells
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Figure 5-5
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TCR gene rearrangement generates the TCR repertoire
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Gene rearrangement at
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Gene rearrangement at
Pre-TCR complex stops further gene rearrangement at locus, and induces thymocyte proliferation
Finally DP cells are made
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Two chances for productive (=correct reading frame) rearrangement: chain
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Multiple chances for productive (=correct reading frame) rearrangement: chain
Successful rearrangement at one copy does not block at the other.Therefore, many T cells express two different chains.
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T cells with different TCRs are generated at different time points during life time
Epidermis homing
Reproductive tract homing
Intestinal epithelium or lymphoid tissues
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CD8 binds MHC class ICD4 binds MHC class II
Most mature T cells are either CD4+ or CD8+.CD8 T cells kill cells infected with intracellular pathogens or tumor cellswhile CD4 T cells regulate other immune cells’ function to respond to pathogens
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CD4+CD8+ DP cells: To be CD4 or CD8?
Interaction of DP cells with Ag:MHC I CD8+ T cellsInteraction of DP cells with Ag:MHC II CD4+ T cells
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Positive selection
Negative selection
Both selections occur at DP stages
To survive, T cells need to bind self MHC but not too strongly
Self MHCs shape the TCR repertoire. Individuals with different MHCs will have different TCR repertoire. Most DP thymocytes don’t survive to become SP cells.
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Positive selection selects T cells that recognize peptides on self MHCThis is to assure that mature T cells can respond to antigen-presented on self MHC.
-Self MHC I and II harboring self peptides on thymic epithelial cells recognize and activate TCRs on some DP thymocytes.-DP thymocytes should receive this signal within 3-4 days to survive.Otherwise they undergo apoptosis.
After positive selection, rearrangement at remaining locus stops.
Negative selection eliminates T cells with TCRs that bind too strongly to self antigen/MHC complex.
This is to assure that T cells don’t react against self antigens. In other words, autoreactive cells are removed by this process.Dendritic cells and macrophages in cortico-medullary junction mediate it.Negative selection cannot eliminate T cells whose receptors are specific for self peptides that are present outside of thymus (These cells enter circulation, but soon to be rendered anergic or unresponsive).
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Is this a positive or negative selection?
Step 1: Selected people for the show by CBS(=selected “useful” T cells by epithelial cells)
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Is this a positive or negative selection?
Step 2: Selected persons are eliminated(=eliminated “harmful” T cells by thymic APC)
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Figure 5-15 part 1 of 2
In this example, the child has twice more positively selected TCR repertoire but 4 times more negatively deleted TCR repertoire
The effects of pos. and neg. selections on TCR repertoire size
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The number of MHC molecules changes selected T cell repertoire
As the number (N) of MHC molecules increases, the proportion of T cells that are positively selected (= # of the cells that survive) goes up arithmetically (N times), while that of negatively selected (=# of deleted cells) goes up geometrically (N2 times).
N= number of MHC isotypes a person expresses
Therefore the magic N to result in maximum T cell repertoire is around 12.
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Figure 5-10Bone marrow transplantation therapy
What happens if there is a complete mismatch in MHC I/II TYPE?See the next slide.
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Figure 5-11
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Figure 5-18
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Figure 5-19
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Figure 5-14Person A Person B
White blood cells
Mixed Lymphocyte Reaction (MLR) is used to test for HLA compatibility between individuals
The higher the responseThe higher the mismatch
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What happens if you do not have the thymus?
It depends on age.
DiGeorge’s syndrome
No or few T cells
Symptoms similar to SCID patients