Adaptive Immunity - T Cells PDF 2024 (RCSI)

Summary

These are lecture notes from RCSI on Adaptive Immunity - T cells, covering topics such as T cell development, activation, and effector functions. The lecture notes also include questions related to the topics covered.

Full Transcript

November 2024

Adaptive
Immunity - T
cells
Dr Patrick Walsh
Class Year 1
ModuleBMF
Title Adaptive Immunity – T cells
 IMMUNOLOGY LECTURES
OUTLINE TIME
Barrier Immunity Physical barrier (Intro to Instant
Imm lecture)Infection
Mechanical barrier (Intro to Imm
lecture)
T H E W O R L D T O B E T T E R H E A LT H

Chemical barrier (Intro to Imm
lecture) Minutes-
Hours

Innate Immunity Cytokines (Intro to Imm
lecture)
Inflammation (Inn Imm lecture)
Days-weeks
Complement (Inn Imm lecture)
Antigen Presentation (Inn Imm
RCSI LEADING

lecture)
Response to Extracellular Inf
Adaptive Immunity lecture T cells – Cytotoxic and
Dr Chiara
Help (T cell lecture) Response
De Santi, Introduction to the imm unology to Intracellular Inf
 LECTURE LEARNING
OUTCOMES
By the end of this lecture you should be able to:
Outline the key roles of T-cells
Describe the stages of T cell development including T cell
T H E W O R L D T O B E T T E R H E A LT H

receptor rearrangement
Describe the process of negative and positive selection for
T cells
Describe T cell activation
Define the key effector functions of T helper cells and
cytotoxic T cells
Identify the different T helper cell subsets (Th1, Th2, Th17,
Treg) and understand their different roles in infection
RCSI LEADING

Outline central and peripheral tolerance for T cells
List diseases associated with T cell deficiencies
Dr Chiara De Santi, Adaptive Immunity T cells
 KEY ROLES OF T-CELLS
T H E W O R L D T O B E T T E R H E A LT H

T cells are cells of the adaptive immune system (antigen-specific
response)
They have two main functions:
RCSI LEADING

 Helper T cells (Th)  they ‘help’ the immune responses
 Cytotoxic T cells (CTL)  they kill cells infected by intracellular
Dr
pathogens (and cancerous cells!)
Chiara De Santi, Adaptive Immunity T cells
 RECAP – Antigen
presentation
MHC class II and MHC class I are cell
surface receptors specialised in
presenting antigens
Present only peptide antigens
T H E W O R L D T O B E T T E R H E A LT H

MHC-peptide complexes are recognised
T helper cell
by T cells

MHC class I
TCR TCR recognises presented peptides,
Antigen binds and becomes activated

Communicating about the pathogen to
the adaptive immune arm
RCSI LEADING

T
Epithelium
Endothelium
Cytotoxic T Cell
MHC class II – T helper cell
Fibroblasts
(all nucleated cells) MHC class I – Cytotoxic T cell
Dr Chiara De Santi, Adaptive Immunity T cells
 Unique features of T cells
T cells must interact with other cells

TCR recognises antigen bound to MHC
T H E W O R L D T O B E T T E R H E A LT H

Each T cell has a unique TCR - hugely
T helper cell diverse repertoire

Once a T cell is activated – clonal expansion
TCR
MHC class I
Antigen
T helper and cytotoxic T cells have different
effector functions
T
Generate memory T cells that live for >20
RCSI LEADING

Epithelium
Endothelium Cytotoxic T Cell
years
Fibroblasts
(all cells)

Dr Chiara De Santi, Adaptive Immunity T cells
 Pertinent Questions

Where do the T cells come from?

How do they express TCR with specific affinity for
T H E W O R L D T O B E T T E R H E A LT H

peptide?

What is the activation process and why is it
important?

What is the difference between T helper and
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cytotoxic T cells?

Dr Chiara De Santi, Adaptive Immunity T cells
 LIFE CYCLE OF A T CELL
T cell Development T cell Activation T cell Effector Function
Thymus Lymph Nodes Peripheral Tissue
(primary lymphoid tissue)(secondary lymphoid tissue) (any tissue)
Direct
T H E W O R L D T O B E T T E R H E A LT H

KILLING
CD8+ T cells
(Cytotoxic)

CD4+ T cells
Immature (Helper)
T cells HELP given
to B cells
and
TCR rearrangement T cell is ACTIVATED
macrophag
Selection process Clonal expansion of
es
Differentiation into antigen specific Antibody
CD4/CD8 lineage clone productio
RCSI LEADING

n
Now known as Naïve T Differentiation into
cells Effector cell

Dr Chiara De Santi, Adaptive Immunity T cells
 LIFE CYCLE OF A T CELL
T cell Development T cell Activation T cell Effector Function
Thymus Lymph Nodes Peripheral Tissue
(primary lymphoid tissue)(secondary lymphoid tissue) (any tissue)
Direct
T H E W O R L D T O B E T T E R H E A LT H

CD8+ T cells KILLING
(Cytotoxic)

CD4+ T cells
Immature (Helper)
T cells HELP given
to B cells
and
macrophag
PRIOR TO INITIAL
es
ANTIGEN EXPOSURE ANTIGEN EXPOSURE Antibody
productio
RCSI LEADING

n

RESPONSE TO
RECOGNISED ANTIGEN

Dr Chiara De Santi, Adaptive Immunity T cells
T H E W O R L D T O B E T T E R H E A LT H

T CELL DEVELOPMENT
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity T cells
 thymus

Immature T cells
T H E W O R L D T O B E T T E R H E A LT H

migrate from bone
marrow to thymus
Undergo development
in thymus
Mature cells exit to
the circulation as
NAÏVE T cells as
either CD4+ or CD8+
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Naïve = they haven’t met any antigen
Dr yet
Chiara De Santi, Adaptive Immunity T cells
 T cell development –
CHECKPOINTS
Checkpoints are required to ensure the selection of appropriate T cells

1. Do you have a TCR?
T H E W O R L D T O B E T T E R H E A LT H

2. Can you recognise an MHC
(positive selection)?

3. Do you recognise self-
antigen (negative
selection)?

In fact, 98% of all Thymocytes (immature T
RCSI LEADING

cells) will not leave Thymus – majority die
Why???

Dr Chiara De Santi, Adaptive Immunity T cells
 T cell receptor (TCR)

Millions of T cells with a
single TCR
Variable It is a membrane bound
T H E W O R L D T O B E T T E R H E A LT H

region protein composed of an a
chain and b chain
Each chain contains one
Constant variable region (V) and one
region constant (C) region
V region is the antigen
binding site which is different
for every T cell clone
RCSI LEADING

Constant region doesn’t
change
Dr Chiara De Santi, Adaptive Immunity T cells
How do we create T cells able to respond to all
possible antigens?
At any one time we have millions of T cells in our body,
each having a TCR with a different specificity for antigen
How? During T cell development gene rearrangement of
TCR genes (VDJ recombination) occurs and variable TCRs
T H E W O R L D T O B E T T E R H E A LT H

with unique specificities are generated!
VDJ recombination – randomly combine V(D)J genes to
form VDJ or VJ segments  1014 different combinations!!!!!

α- β-chain Rearranged at
chain the DNA level –
once changed
can’t alter – T
RCSI LEADING

cell has a single
receptor
Dr Chiara De Santi, Adaptive Immunity T cells
throughout life
 T cell development –
CHECKPOINTS
Checkpoints are required to ensure the selection of appropriate T cells

1. Do you have a TCR? Yes!
Double
- Cells at this point are also CD4 Positive
and CD8 positive
T H E W O R L D T O B E T T E R H E A LT H

CD4+ CD8+

- CD4 and CD8 are co-receptors

2. Can you recognise an MHC
(positive selection)?

3. Do you recognise self-
antigen (negative selection)?
CD – Cluster of Differentiation
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity T cells
 The TCR interacts with MHC POSITIVE SELECTION
expressed on epithelial cells
and dendritic cells in the
thymus

Immature T cells bind MHC and
T H E W O R L D T O B E T T E R H E A LT H

get a positive signal to
survive
Dendritic cell

Depending on whether the
interaction occurred with MHC
class I or MHC class II results in
a single positive CD8 or CD4 T
cell
RCSI LEADING

Positive selection –
retains T cells that
recognise MHC
Dr Chiara De Santi, Adaptive Immunity T cells
 T cell development –
CHECKPOINTS
Checkpoints are required to ensure the selection of appropriate T cells

1. Do you have a TCR? Yes!
Double
- Cells at this point are also CD4 Positive
and CD8 positive
T H E W O R L D T O B E T T E R H E A LT H

CD4+ CD8+

- CD4 and CD8 are co-receptors

2. Can you recognise an MHC
(positive selection)? Yes!
- Cells at this point are CD4 or CD8
single positive

3. Do you recognise self- CD – Cluster of Differentiation
RCSI LEADING

antigen (negative selection)?

Dr Chiara De Santi, Adaptive Immunity T cells
 NEGATIVE SELECTION
MHC in the thymus only expresses
SELF-PEPTIDE!

Occurs early in development (7-8
weeks gestation)
T H E W O R L D T O B E T T E R H E A LT H

Does the TCR bind tightly to self-
peptide?  T cell dies

Does the TCR bind self-peptide
weakly/moderately/not at all?
T cell lives
(= NEGATIVE SELECTION)
RCSI LEADING

Protects against
autoimmunity
Dr Chiara De Santi, Adaptive Immunity T cells CENTRAL
 T cell development –
CHECKPOINTS
Checkpoints are required to ensure the selection of appropriate T cells

1. Do you have a TCR? Yes!
Double
- Cells at this point are CD4 and CD8 Positive
positive
T H E W O R L D T O B E T T E R H E A LT H

CD4+ CD8+

- CD4 and CD8 are co-receptors

Single
2. Can you recognise an MHC Positive
CD4+ or
(positive selection)? Yes! CD8+

- Cells at this point are CD4 or CD8
Naïve CD4+ or
single positive CD8+

3. Do you recognise self-
RCSI LEADING

antigen (negative selection)?
Naïve T cells circulate in lymph nodes
Only weakly!
to await antigen
Dr Chiara De Santi, Adaptive Immunity T cells
 LIFE CYCLE OF A T CELL
T cell Development T cell Activation T cell Effector Function
Thymus Lymph Nodes Peripheral Tissue
(primary lymphoid tissue)(secondary lymphoid tissue) (any tissue)
Direct
T H E W O R L D T O B E T T E R H E A LT H

CD8+ T cells KILLING
(Cytotoxic)

CD4+ T cells
Immature (Helper)
T cells HELP given
to B cells
and
macrophag
PRIOR TO INITIAL
es and
ANTIGEN EXPOSURE ANTIGEN EXPOSURE Antibody other
productio
immune
RCSI LEADING

n
cells
RESPONSE TO
RECOGNISED ANTIGEN

Dr Chiara De Santi, T cell Biology
 FILL THE BOXES!
TCR
MHC class I
Antigen
CD8 co-
T helper cell receptor
T H E W O R L D T O B E T T E R H E A LT H

Dendritic cells
Macrophages
T
B cells
All nucleated cells
Cytotoxic T cell
CD4 co-
receptor
APC stands for: TCR stands for:
A. Activated Patrolling A. Tandem Complex Reaction
RCSI LEADING

Cell B. Tea Cup Rearrangement
B. Antigen Presenting C. T Cell Receptor
Cell
Dr Chiara D e C.
S a nAnti
t i , A d Pus
a p t i v eComplex
Immunity T cells
T H E W O R L D T O B E T T E R H E A LT H

T CELL ACTIVATION
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity T cells
 T CELL ACTIVATION OCCURS IN
LYMPH NODES
Naive T cell - Never met antigen
Circulates in secondary lymph organs
Diverse array of T cells each with a
single TCR
Once TCR recognises an antigen bound
T H E W O R L D T O B E T T E R H E A LT H

to MHC on DC

T cell is activated

This specific T cell clone proliferates
(clonal expansion)
Naïve T cell differentiates into an
RCSI LEADING

effector T cell
It leaves the lymph node to carry out
Dr
its effector functions
Chiara De Santi, Adaptive Immunity T cells
Lymph Node
 Activation of Naïve T cells
requires 3 signals
T H E W O R L D T O B E T T E R H E A LT H

B7 CD2
8
RCSI LEADING

ature reviews Immunology 14, Taku Kambayashi & Terri M. Laufer, p719-730
Dr Chiara De Santi, Adaptive Immunity T cells
 SIGNAL 1 – antigen
specific
T H E W O R L D T O B E T T E R H E A LT H

Antigen is the necessary first signal for activation of T
cells
The TCR recognises a peptide presented on MHC II
molecule
CD4 co-receptor interacts with residues on the side of
MHC class II
Adhesion molecules on T cells such as integrin also bind
RCSI LEADING

to ligands on APC to stabilise the synapse
T cell CD4
is primed
+
but here
T cell shown requires
– samesignal
for CD8+2T to
cellbecome fully
recognising MHC class I
Dr Chiara De activated
Santi, Adaptive Immunity T cells
 SIGNAL 2 – co-stimulation

DC CD4+ T cell
T H E W O R L D T O B E T T E R H E A LT H

The proliferation and differentiation of naïve T cells require
co-stimulation
Microbes will stimulate APCs to express costimulatory
receptors such as B7 (this only occurs in presence of
RCSI LEADING

microbes)
Binds to the T cell surface receptor CD28
Dr Chiara
Once CD28 is engaged then T cells are properly activated to
De Santi, Adaptive Immunity T cells
 SIGNAL 3 – instructive
cytokines
T H E W O R L D T O B E T T E R H E A LT H

DC CD4+ T cell

Activated APC produces instructive cytokines
that aid the differentiation of certain CD4+ T
RCSI LEADING

cell subsets
– IL-12 and IFNγ stimulate Th1 subset
– IL-4 stimulates Th2 (although this is a product of Th2 cells, so
Dr Chiara De Santi, Adaptive Immunity T cells
 Cytokines direct different
CD4+ T cell subsets
Th1 Intracellular
Bacterial Infections
T H E W O R L D T O B E T T E R H E A LT H

Helminth
IL-12

Th2 Helminth Infections
IL-4?

IL-23 Extracellular
Th17 bacterial/yeast
RCSI LEADING

infections

Dr Chiara De Santi, Adaptive Immunity T cells
 CLONAL EXPANSION
T H E W O R L D T O B E T T E R H E A LT H

Activated T cells will rapidly start to produce IL-2, a T cell
growth factor
Antigen-specific activated T cells are cloned into large
populations (autocrine signalling via IL-2), i.e. one
activated T cell now must clone itself to make lots of T
RCSI LEADING

cells recognising the same antigen
A fraction of T cells develop into memory T cells which
Dr
circulate for years ready to respond to the same microbe
Chiara De Santi, Adaptive Immunity T cells
 LIFE CYCLE OF A T CELL
T cell Development T cell Activation T cell Effector Function
Thymus Lymph Nodes Peripheral Tissue
(primary lymphoid tissue)(secondary lymphoid tissue) (any tissue)
Direct
T H E W O R L D T O B E T T E R H E A LT H

CD8+ T cells KILLING
(Cytotoxic)

CD4+ T cells
Immature (Helper)
T cells HELP given
to B cells
and
macrophag
PRIOR TO INITIAL
es and
ANTIGEN EXPOSURE ANTIGEN EXPOSURE Antibody other
productio
immune
RCSI LEADING

n
cells
RESPONSE TO
RECOGNISED ANTIGEN

Dr Chiara De Santi, T cell Biology
 T CELL EFFECTOR
FUNCTION
T H E W O R L D T O B E T T E R H E A LT H

(OCCURS IN THE
PERIPHERY)
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity T cells
 EFFECTOR T CELL ENTERS
SYSTEMIC CIRCULATION
T H E W O R L D T O B E T T E R H E A LT H
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity T cells
 T CELLS/LYMPHOCYTES
T cells need to interact with
another cell to carry out their
effector function
Two different types of T cell with
T H E W O R L D T O B E T T E R H E A LT H

distinct functions:
1.T helper cells (CD4+):
‘helps’ to mount the appropriate
immune response Resting Activated
- Th1 subset T lymphocyte T lymphocyte
- Th2 subset
- Th17 subset
- T regulatory subset
RCSI LEADING

2. Cytotoxic T cell (CD8+):
-kill infected or altered cell – killer T
Dr Chiara De Santi, Adaptive Immunity T cells
 T helper subsets
Activating T helper subset Effector Target cells and
cytokines cytokines immune context
(produced by (produced by T
APC) cell)
Th1 IFN-γ Macrophages & Cytotoxic
T cells (intracellular
T H E W O R L D T O B E T T E R H E A LT H

pathogens)
IL-12
IL-4
Th2 Eosinophils (helminth
IL-4? IL-5 infections) & Mast cells
IL-13
All T helper cells activate B cells to (Allergy)
produce
antibodies
IL-23
Th17
IL-17
IL-22 Neutrophils (extracellular
RCSI LEADING

bacterial/yeast infections)
+ Treg (regulatory T cells) – the production of IL-10 helps Treg switch off Th1, Th2
& Th17 responses
Dr Chiara De Santi, Adaptive Immunity T cells
 Cytotoxic T Lymphocyte (CTL)
– CD8+ T cell
Virally infected cell will display
viral antigens on MHC class I
molecule
Activated cytotoxic T cells bind CTL
T H E W O R L D T O B E T T E R H E A LT H

antigen on MHC class I
Packed full of vesicles with toxic
enzymes for killing
Released once CTL is activated
– Perforin forms pores in membrane
– Granzymes activate apoptosis
RCSI LEADING

They don’t kill pathogens,
they kill cells infected by
pathogens!!!
Dr Chiara De Santi, Adaptive Immunity T cells
 HOMEOSTASIS
As the antigen is cleared, 90% of effector T
cells die by apoptosis
T cells are deprived of activation signals
T H E W O R L D T O B E T T E R H E A LT H

(antigen, CD28 and IL-2 all decrease)
Inhibitory pathways are activated (eg. CTLA-4
and PD-1 are CD28 family members which
inhibit the second signal in T cell activation)
T regulatory cells (Treg) can dampen CD4 and
CD8 T cell responses
RCSI LEADING

Dr Chiara De Santi, T cell Biology - BHI-16
 LIFE CYCLE OF A T CELL
T cell Development T cell Activation T cell Effector Function
Thymus Lymph Nodes Peripheral Tissue
(primary lymphoid tissue)(secondary lymphoid tissue) (any tissue)
Direct
T H E W O R L D T O B E T T E R H E A LT H

CD8+ T cells KILLING
(Cytotoxic)

CD4+ T cells
Immature (Helper)
T cells HELP given
to B cells
and
macrophag
PRIOR TO INITIAL
es and
ANTIGEN EXPOSURE ANTIGEN EXPOSURE Antibody other
productio
immune
RCSI LEADING

n
cells
RESPONSE TO
RECOGNISED ANTIGEN

Dr Chiara De Santi, T cell Biology - BHI-16
 Fatima, a 30-year-old accountant, picks up a helminthic infection while
swimming in a parasite-infested river in West Africa. Following interaction
with the patient's innate immune system, what subtype of CD4+ T cells is
expected in response to this type of infection?
A. Th1 Menti meter
B. Th2 code: 5706 0027
T H E W O R L D T O B E T T E R H E A LT H

C. Th17
D. Treg
Which of the following cytokines do Th2
secrete?
Menti meter
A. IL-5
B. INF-γ code:
C. IL-17 6804 5247
D. IL-8
Which cells are mostly activated by Th2?
RCSI LEADING

A. Macrophages
B. Neutrophils Menti meter
C. Eosinophils code: 1801 8924
Dr
D. Dendritic cells
Chiara De Santi, Adaptive Immunity T cells
 DISORDERS ASSOCIATED WITH T
T H E W O R L D T O B E T T E R H E A LT H

CELL DYSFUNCTION
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity T cells
 AUTOIMMUNITY AND IMMUNE
TOLERANCE
Self-tolerance  unresponsiveness of T
cells to self antigens (prevents
autoimmunity). It is achieved through:
 Central Tolerance  in the thymus
T H E W O R L D T O B E T T E R H E A LT H

(‘central’ or primary lymphoid organ),
it eliminates most of auto-reactive T
cells (negative selection)
 Peripheral Tolerance  in peripheral
tissues, it eliminates T cells which
recognise self-antigens not expressed
in the thymus
When tolerance fails  auto-reactive T
RCSI LEADING

cells recognise self-antigens 
autoimmunity  autoimmune disorders
(such as multiple sclerosis, rheumatoid
arthritis, IBD etc)
Dr Chiara De Santi, T cell Biology - BHI-16
 T cell Immunodeficiencies
DiGeorge syndrome – a deletion on chromosome
22
A small deletion on Chromosome 22  thymus is
small or absent  poor T cell production
Individuals susceptible to recurrent infections
T H E W O R L D T O B E T T E R H E A LT H

Also associated with problems across multiple
organs, e.g. congenital heart problems, abnormal
facial features, learning difficulties, psychiatric
issues, hypocalcaemia…

Severe Combined Immunodeficiency (SCID)
Umbrella of rare disorders caused by mutations
in different genes that impact on T and B cells 
RCSI LEADING

low/absent T/B cells
Typically fatal in first 2 years of life, with severe
bacterial, viral and fungal infections
C Examples:
Dr
X-linked severe SCID (most common
hiara De Santi, T cell Biology - BHI-16
 SUMMARY
T cell Maturation T cell Activation T cell Effector Function
Thymus Lymph Nodes Peripheral Tissue
(primary lymphoid tissue)(secondary lymphoid tissue) (any tissue)
Direct
T H E W O R L D T O B E T T E R H E A LT H

KILLING
CD8+ T cells
(Cytotoxic)

CD4+ T cells
Immature (Helper)
T cells HELP given
to B cells
and
TCR rearrangement T cell is ACTIVATED
macrophag
Selection process Clonal expansion of
es
Differentiation into antigen specific Antibody
CD4/CD8 lineage clone productio
RCSI LEADING

n
Now known as Naïve T Differentiation into
cells Effector cell

Dr Chiara De Santi, Adaptive Immunity T cells