Antigen Processing and Presentation - MHC Canvas 2024 PDF

Summary

This document covers antigen processing and presentation, focusing on the role of MHC molecules in presenting antigens to T cells, a key aspect of the adaptive immune response. It compares innate and adaptive immunity and highlights the different types of MHC and the cells that utilize them. The lecture also details the role of dendritic cells in connecting innate and adaptive responses.

Full Transcript

Antigen Processing &
Presentation
aka MHC

Dr. Sreepoorna
Pramodh
[email protected]
c.uk

wledgements: Dr Alba Llibre and Dr Jenny Marshal
Innate vs Innate immunity
The immune system you
Adaptive immunity
Extremely variable

Adaptive are born with
Does not change during
receptor set
Extreme ability for clonal
immunity life
Fixed number of
expansion
B cells adapt to
preformed pathogen completely new
recognition receptors structures
Advantages:
Advantage:
– Fast – Can react to anything
– Many cells – Immunological memory
Disadvantage: Disadvantage:
– may not be able to react – Slow
to something new
The innate and adaptive immune
interact
Two types of adaptive immune cells:
B lymphocytes
produce antibody
T lymphocytes – of which, two subsets B
Cytotoxic T cells: Kill infected cells (CD8+) Cytotoxic
Helper T cells: Co-ordinate the immune response T cell
and help other immune cells (CD4+)
T
Helper
T cells are very powerful cells and so areT cell T
highly regulated
In this lecture we’ll learn how the
innate immune system talks to T NK

cells:

MHC (major histocompatibility
 MHC

What is MHC? Class I

(Major Histocompatibility Complex)

Complex of proteins
Presents linearised peptides from chopped up
pathogens to T cells
This is a key way T cells are regulated – they can
not respond to anything otherwise
Comes in two types – I and II (one and two)
The human version of MHC is called HLA
(human leukocyte antigen)
There are three types of each human HLA
HLA Class 1- HLA A, HLA B, HLA C
HLA Class 2- HLA DP, HLA DQ, HLA DR
 MHC-Types
MHC Class II MHC Class I
Present on antigen presenting Present on all nucleated cells
cells- dendritic cells, Structure- α1, α2, α3 and β2
macrophages, B cells macroglobulin chain
Structure- α1, α2 chains and β1 Has 1 transmembrane
and β2 chains domain
Displays endogenous
Has 2 transmembrane domains (intracellular antigens/viral
Displays exogenous peptides peptides)
Recognized by CD4 Helper T Recognized by CD8 cytotoxic
T cells
cells
TCR TCR
CD4 CD8
α βMHC II α MHC I

Dendritic cell
Different pathogens live in different places… need
different responses

Stimulating the correct T
cell, in the right way, helps
do this.

(Different types of T cells
will be covered in a
MHC Class following lecture!).
II

MHC Class
CD4 I
Helper T CD8 T
Cells Cells

All responses need T cell help
So, different T cells = different MHC
type?
YES! We have two types of T cells and two paths of antigen
processing
CD4+ T cells help the CD8+ T cells protect
adaptive and innate against intracellular
response infections and cancer
Class II MHC molecules The class I MHC pathway
present antigen to CD4+ T handles intra-cytoplasmic
cells and generally handle antigens
exogenous antigens

Reading: Janeway’s Immunobiology 9th Edition,
 A term most commonly used when referring
to cells that present processed antigenic
peptide and MHC class II molecules to the T‐
Antigen cell receptor on CD4+ T‐cells (Examples-
dendritic cells, macrophages, B‐ cells)
Presenting
Cells Dendritic cells form a crucial link between
the innate immune response and the
(APCs) adaptive immune response

In certain situations, macrophages and B
cells can also act as antigen-presenting cells,
but dendritic cells are the cells that are
specialized in initiating the adaptive immune
response.
How do we join up the innate and the
adaptive response? Skin Trachea Cervix

Courtesy of Dr. Leopoldo
Flores-Romo
Dendritic cells! Laboratory of Cellular
Biology
CINVESTAV. Mexico.
Constantly sample the environment
In infection - activated by PAMPs Antigen exposure
Change the receptors that anchor
Immature DCs
them in the tissue and migrate to
the nearest lymph node Migrating DCs in
afferent lymphatic
vessels
Activated Mature DCs
T cells

Steinman, R
http:/lab.rochefeller.edu/steinman/
imagegallery
 antigen presentation;
activation of adaptive immunity

Oxidative killing pathogen killing
chemokines
dendritic cells
NETosis

phagocytosis

Innate recognition
(PRRs),
Tissue-resident
phagocytosis
macrophage

inflammatory
macrophage

Histamine;
vasodilation chemotaxis

Monocytes
and
Yeast or bacteria neutrophils
PRR Signalling Triggers Dendritic Cell Activation and
Promotes An Adaptive Immune Response

Tissue
Pathogen

Dendritic cell

Lymph node

Proliferation

Adaptive
immunity
 Why do dendritic cells go to the LN?
A quick anatomy re-cap
Each B and T cell in your body can only
respond to one antigen
The antigen each one can respond to is
unique
If they stayed in one place they’d always be
in the wrong place.
If they were in your blood they’d also be
impossible to find.

SO!

They circulate between the lymph nodes and
spleen of your body

As the dendritic cells stay in one place, the T
cells will always find them!

Blausen.com staff (2014). "Medical gallery of Blausen
Medical 2014".
Circulation of T and B cells ensures
that you have an adaptive immune
response

The circulation of T and B cells from LN to LN means that
they will
pass through the lymph node where the DC is

And if they match you will get an immune response 
 Where do DCs meet T cells in the
LN?
The lymph node has different areas
to allow B and T cells to find
antigen
Blood
vessel

Antigen presentation by DCs to
naïve T cells takes place in T cell
zone the lymph node.

DCs / B cells
Steinman, et al.
Immunol Reviews. 1997, 156: 25-
37.
You need MHC at all parts of the T cell
“journey”

To make T cells in the first
place

The start (lymph node)
To activate T cells
To help B cells produce antibody

In the periphery
(where your infection is)
To help cells fight the infection
Quick reminder!

To get to the LN dendritic cells
must be activated by
PAMPs/DAMPs
- Stops random T cell
responses
TCR TCR
T cells can only be activated
CD4 CD8 by MHC with a peptide from a
pathogen attached
- Makes the response
MHC II MHC I
α β α specific

Activated Dendritic cells in the
LN express both MHC types
Dendritic cell and will be able to activate
(or an antigen presenting cell – APC) both types of T cell

Majumdar et al. (Resonance
The physical differences between
MHC – I & II
MHC MHC Class
Class I II

The Spruce / Laura
Donovan

β
α1 α3 α1
1

β
α2 β 2m α2
2

MHC Class I: MHC Class
Alpha chain II: usually 8–10 13–25 residues
+ beta2 Alpha residues
microglobulin chain
 Peptides are held in place by anchor
residues
ch MHC uses hydrogen bonds to the amino acids in the peptide to hold it in place
erent MHC will preferentially bind to different peptides

MHC I MHC II

Hydrophob’

Hydrophob’
Basic/polar
ydrophobic

e
charge
Negativ
aromatic
 MHC Class I MHC Class II

MHC polymorphism
Individual MHC alleles can differ by up to 20
amino acids - each variant protein is quite
distinct
Differences are localized to exposed surfaces
of the outer domain of the molecule and to
the peptide-binding groove in particular
The polymorphic residues that line the
peptide-binding groove determine the
peptide-binding properties of different MHC
molecules
And you have more than one MHC on
your cells
Human MHC II Human
MHC I
Three alleles of MHC I and MHC II available on the
α and β chains
chromosome

Co-dominantly expressed

You can personally present a wide range of
peptides to your T cells

Human Human
MHC I MHC II

HLA-A HLA-DP
HLA-B HLA-DQ
HLA-C HLA-DR
This is important at an individual &
population level!
During an infection pathogens may mutate or
phase shift
e.g. RNA viruses

This means your immune system now has new
antigens to present

Variety is better!

Highly polymorphic HLA class I and
class II loci (red) compared to those
who are homozygous for one locus
(yellow) or for two or three loci (blue).
Global
distribution of
specific HLA
alleles

Zhou et al.
Hum Genet 2022
 Human MHC genes are clustered…

They are all expressed when the cell is activated
LMP – alternative subunits of the proteosome
TAP – needed to let peptides into the golgi
 How do we get this antigen on our
MHCs?
nly want peptides from pathogens.
ut your golgi apparatus is full of tempting proteins…

MHC

Any old peptide

Chaperone proteins
trying to stop
autoimmunity

And how do you get onto the correct MHC?
Two
primary
antigen
processing
pathways,
overview
 The MHC class II antigen processing
pathway
How do we take proteins from outside the cell and put them on MHCII?

1. Activate the cell and get the antigen in (lecture 1)
2. Digest the antigen (see lecture 2)
3. Fuse the endosome with a vesicle containing MHCII
4. Get those peptides onto the MHC II

OBVIOUSLY, more complicated than that!

Need to prevent your MHCII
picking up any spare peptides on
the way…

Invariant chain

https://www.nature.com/articles/nri3339
Class II MHC
Binds Invariant
Chain
Invariant chain is a molecule
that interacts with MHC II as
they are being made
It protects peptide binding cleft
of MHC II and prevents binding
of nonspecific peptides
It traffics MHC II out of
endosome
α, β, and invariant chain
interact with chaperone and
only when MHC and invariant
chain fold properly, can they
The role of the
Invariant Chain (and
CLIP)
MHC Class MHCs

II
Transport
and Invariant chains

Peptide
Loading
MHC Class II Antigen Processing &
Presentation
n.b!

MHC II expression only happens
in immune cells that are can
phagocytose/endocytose

They are the ones that
have PRRs
need to respond to infection
And will need help doing so
Things going wrong inside a cell?
MHC I
e.g. infections (viruses, bacteria) but also oncogenesis can happen to
any cell so

Nearly all cells express MHC I to :
Tell cytotoxic (CD8) T cells that they need to be killed

AND (importantly) DCs will express both MHC I and MHC II to
Get T cell help and antibody to help fight infection

Difficult! Pathogens don’t want this to happen
Activating Cytotoxic
T Cells (CD8s)
Most nucleated cells express
class I MHC and can present
antigen by the endogenous
route

This is the MHC recognised by
cytotoxic CD8+ T cells

Cytotoxic T cells kill infected
cells
 The MHC class I antigen
processing pathway
How do we get antigens onto MHC
I?
Aka, how do we get already
made proteins from the
cytoplasm into our protein What about proteins from inside
production pathway? our cell?

Conventional protein 1. Break down the protein with a
processing takes place in proteasome (CBB year 1)
vesicles 2. Get that into your ER
- that’s where your MHC I will 3. Somehow, put only those
be peptides onto MHCI
4. Transport that MHC I out to
But we are taking proteins the surface
from the cytoplasm… so we
need OBVIOUSLY, more complicated
than that!
1. A way into a vesicle
2. A way to chop up that
protein
The proteasome - how we chop up
proteins
Your cells need to be able to get rid
of unneeded or faulty proteins.

To do this they use the proteasome
- Highly conserved structure! Found
in archaebacteria!

All the proteins in your cell go
through this pathway… including
any from infections!

Your MHC I pathway uses this
default pathway

Schild & Ramensee: Nature (2000)
404:709-710
Class I MHC Assembly Involves a Network of ER-
resident Chaperones

MHC I is
constructed in
the ER

It’s unstable until
β2m is bound so
calnexin
stabilises the
molecule
Class I MHC Assembly Involves a Network of ER-
resident Chaperones

How do you stop the
new MHC I binding to
any old thing?

Hide it!
And then bind it to the
TAP proteins
Class I MHC Assembly Involves a Network of ER-
resident Chaperones

Your peptide needs to
bind with a high
enough affinity in
order for the MHC I to
be released
Class I MHC Assembly Involves a Network of ER-
resident Chaperones
MHC Class I Antigen Processing &
Presentation
But…
Not every virus infects DCs (Tropism)
If we need MHC I to present viral
antigens how are CD8 cells primed
against viruses that do not infect
dendritic cells?
And how do we help B cells produce
antibody to intracellular infections?
Dendritic cells can undergo Cross-
presentation
This is controlled by TLR signals that
optimise presentation of antigens from
infectious agents
Cross
presentatio
n in brief:
Who gets to talk to T cells?
-
Key antigen presenting cell (APC)
is the dendritic cell
Starts the adaptive immune
response

But other cells need to do so!
To show they are infected (MHCI)
To be activated during the innate
response by a T cell

† = only mircroglia – a type of brain-based macropha
Key concepts you should be happy
with:
Dendritic cells are essential to start the T cell response (control!)
A diversity of MHC is important for individuals and populations!
MHC I and II processing pathways, and what they are for
What MHC is on what cell

And, to be built on over the next few lectures:
MHC is the way that T cells are activated
Each T cell has a unique TCR that can only recognise one peptide
So they will only respond to the right antigen – specific response=

Reading: Janeway’s Immunobiology 9th Edition, Chapter 6
T cell subsets - summary
CD4 T cells are the helper T CD8+ T cells are the cytotoxic
cells, which assist other blood T cells, which kill viral-infected
cells to produce an immune and tumour cells.
response. Express CD8 glycoprotein on the
Express CD4 glycoprotein on cell membrane.
the cell membrane. Recognise antigen on the
Recognise antigen on the surface of all nucleated cells
surface of professional through MHC-I.
antigen-presenting cells
(APCs) through MHC-II.
What
happens
next?
Activated T cells,
antibody, recovery
Any questions?