Adaptive Immunity - B Cells PDF (November 2024)

Summary

This document is a set of lecture notes covering adaptive immunity, specifically B cells. The content outlines the roles of B cells in the adaptive immune response, the stages of B cell development, and the functions of antibodies. It includes diagrams and details on topics like B cell activation, isotype switching, and affinity maturation. The document also presents pertinent questions and discusses B cell development checkpoints.

Full Transcript

November 2024

Adaptive Immunity - B cells

Dr Patrick Walsh
Class Year 1
Module BMF
Title Adaptive Immunity – B cells
 LECTURE LEARNING
OUTCOMES
By the end of this lecture you should be able to:

Outline the key roles of B cells in the adaptive immune
response
T H E W O R L D T O B E T T E R H E A LT H

Describe the stages of B cell development including B cell
receptor rearrangement
Define the steps in B cell activation
Explain isotype class switching and affinity maturation
process
Compare and contrast the different classes of antibodies
Describe the structure and effector functions of
RCSI LEADING

antibodies
List diseases associated with B cell deficiencies
Dr Chiara De Santi, Adaptive Immunity – B cells
 KEY ROLES OF B CELLS
T H E W O R L D T O B E T T E R H E A LT H

B cells are cells of the adaptive immune system (antigen-specific
RCSI LEADING

response)
They produce antibodies  crucial in the fight against pathogens
Dr
(mainly extracellular pathogens)
Chiara De Santi, Adaptive Immunity – B cells
 Foreign

KEY ROLES OF B CELLS antigen

BCR Y

Each B cell has a unique B cell receptor B Cell

(BCR)
They recognise antigen in any biological
T H E W O R L D T O B E T T E R H E A LT H

form (protein, carbohydrate, lipid, Y Y Y
polysaccharide) Plasma Plasma Plasma
cell Cell Cell
Antigen recognition causes B cell
activation where they proliferate and
Y Y
differentiate into plasma cells Y

Y
Each plasma cell produce trillions of Y Y Y
Y YY

Y
Y
antibodies (immunoglobulin = Ig) Y
antibodies

Y
Antibodies are secreted into circulation
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Y

and mucus membranes – trigger effector
responses
Dr Chiara De Santi, Adaptive Immunity – B cells
 Pertinent Questions

Where do B cells come from?

What are the key stages of B cell development?
T H E W O R L D T O B E T T E R H E A LT H

How do they obtain unique B cell receptors?

How do antibodies work and what do they do?
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity – B cells
 B CELL DEVELOPMENT
Primary Secondary
Lymph organs Lymph organs
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 – B cells
 MEMBRANE IGM RECEPTOR
(BCR)
A membrane bound IgM is also called the
Variable
BCR
region
It is composed of four polypeptide chains
T H E W O R L D T O B E T T E R H E A LT H

– two heavy (H) chains
- two light (L) chains
They are assembled to form a ‘Y’ Ig domains
structure
The heavy and light chains are attached Constant
via disulphide bonds region
Each domain folds into a characteristic 3D
shape called the ‘Ig domain’
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The V region is the variable ‘antigen-
binding site’
The C region is the constant region
Dr Chiara De Santi, Adaptive Immunity – B cells
How do we create B cells able to respond to all
possible antigens?
At any one time we have millions of B cells in our body,
each having a TCR with a different specificity for antigen
How? During B cell development gene rearrangement of
BCR genes (VDJ recombination) occurs and variable BCRs
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  1011 different combinations!!!!!
RCSI LEADING

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

It is a stepwise process which happens mainly in the bone marrow
Immature B cell has a membrane bound IgM antigen receptor
(otherwise known as BCR)
Mature B cell occurs when a IgD receptor is coexpressed with the IgM
receptor (IgM+IgD+ B cell) – this steps happens in the spleen
RCSI LEADING

Mature B cells circulate in the spleen, lymph and blood waiting
antigen
Dr Chiara De Santi, Adaptive Immunity – B cells
 B CELL DEVELOPMENT -
CHECKPOINTS
Checkpoints are required to ensure the selection of appropriate B cells

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

(positive selection)? Yes!
Developing B cells are positively
selected when they express a
complete BCR

2. Do you recognise self-
antigen (negative
selection)? Only weakly!
B cells are removed by negative
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selection if they bind to self-peptide
too tightly

Dr Chiara De Santi, Adaptive Immunity – B cells
 Naïve B cells leave the bone marrow with a
functioning BCR
T H E W O R L D T O B E T T E R H E A LT H
RCSI LEADING

PRIOR TO
ANTIGEN EXPOSURE ANTIGEN EXPOSURE
Dr Chiara De Santi, Adaptive Immunity – B cells
T H E W O R L D T O B E T T E R H E A LT H

B CELL ACTIVATION
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity – B cells
 B cell activation – 2 signals

Signal 1 – Antigen binding to BCR
B cell antigen receptor will recognise antigen
T H E W O R L D T O B E T T E R H E A LT H

(protein, carbohydrate, lipid, polysaccharide)
Triggers phagocytosis of antigen
B cells excellent phagocytes and APCs
Peptides now presented on MHC class II
Get up-regulation of CD40 a co-stimulatory
receptor
Get up-regulation of cytokine receptors
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But to get full activation requires T helper cell
Dr Chiara De Santi, Adaptive Immunity – B cells
 B CELLS AND T CELLS MUST COME
TOGETHER
In the lymph node, B cells and T cells specific for a particular antigen
come together
T H E W O R L D T O B E T T E R H E A LT H
RCSI LEADING

The CD4 T cell must be fully activated by DC presenting peptides
on MHC class II
Naïve B cells are primed by BCR recognition and presentation on
Dr Chiara De Santi, Adaptive Immunity – B cells
MHC class II
 B CELL ACTIVATION
Signal 2 – T cell help
T H E W O R L D T O B E T T E R H E A LT H

ACTIVATED T helper cells will recognise antigen presented by B cells
RCSI LEADING

The T cell upregulates costimulatory molecules (CD40L) which binds
to CD40 on B cells
The production of cytokines drive B cell aid proliferation and
Dr Chiara De Santi, Adaptive Immunity – B cells
differentiation
 Exercise – quote quiz
challenge!
‘My maturation (mainly) happens in the
bone marrow’
‘I only like peptide antigens when they
T H E W O R L D T O B E T T E R H E A LT H

are ‘presented’ by other cells’

‘My activation requires 3 steps’

‘I express CD40 on my surface which
interacts with CD40L on the cell I am
interacting with’
RCSI LEADING

‘I can generate memory cells’

Dr Chiara De Santi, Adaptive Immunity – B cells
 B Cell activation results
in….
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 – B cells
 What are antibodies and what
do they do?
Antibodies are secreted proteins which
recognise ‘epitopes’ on the surface of
pathogens using their antigen binding Variable
site within the variable regions region
T H E W O R L D T O B E T T E R H E A LT H

Epitopes can be any biological
molecule – protein, carbohydrate, lipid,
polysaccharide
The constant region activates different
effectors (complement proteins or Constant
innate immune cells) that eliminates region
these microbes and toxins
The ‘type’ of constant region defines
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the isotype ofThe
an “epitope”
antibodyis the specific part of the antigen
that is recognised by T and B cell receptors
Dr Chiara De Santi, Adaptive Immunity – B cells
 Antibodies structural features
Fab (Fragment
antigen-binding)
portion 1. Antigen binding site –
recognises antigen and
1 binds incredibly tightly –
Incredibly specific – can
T H E W O R L D T O B E T T E R H E A LT H

distinguish between very
similar epitopes
2. Complement binding
site – site where C1q
2 protein binds to start the
classical complement
cascade
3 3. Binding site for
immune cells –
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Macrophages, mast cells,
Fc (Fragment, crystallizable) portion basophils, NK cells,
neutrophils and
Dr Chiara De Santi, Adaptive Immunity – B cells eosinophils all have Fc
 Isotype switching
T H E W O R L D T O B E T T E R H E A LT H

IgM is the first antibody secreted upon infection
But B cells can isotype switch into making IgG, IgA, IgE, IgD
isoforms as required
During isotype switching the antigen binding site remains the same
but the constant region of the heavy chain is replaced
The process of isotype switching is induced by CD40-CD40L
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interaction and cytokines released by T helper cells
Each isotype has a slightly different function as discussed later
Dr Chiara De Santi, Adaptive Immunity – B cells
 ISOTYPE
SWITCHING
ligand
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 – B cells
 AFFINITY MATURATION
Affinity maturation is the process by which
the affinity of antibodies produced in
response to an antigen increases with
prolonged or repeated exposure
T H E W O R L D T O B E T T E R H E A LT H

Random mutation
produces B cell clones
of variable affinity
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Limiting amounts of antibody results in selection of
Dr high affinity clones
Chiara De Santi, Adaptive Immunity – B cells
 Antibody effector
T H E W O R L D T O B E T T E R H E A LT H

functions -

how do they protect us???
RCSI LEADING

Dr Chiara De Santi, Adaptive Immunity – B cells
 ANTIBODY EFFECTOR
FUNCTIONS
IgG, IgA

IgG
T H E W O R L D T O B E T T E R H E A LT H

IgG, IgE
RCSI LEADING

IgG, IgM

Dr Chiara De Santi, Adaptive Immunity – B cells
 PATHOGEN
NEUTRALISATION
Antibody neutralization of
microbe and toxins
T H E W O R L D T O B E T T E R H E A LT H

Binds microbes/toxins and
makes them too bulky to enter
cells

Neutralization function of
antibody requires only the
antigen-binding regions of
antibodies, not the Fc region
RCSI LEADING

Very efficient at preventing
extracellular infections
Dr Chiara De Santi, Adaptive Immunity – B cells
OPSONISATION 
PHAGOCYTOSIS
Antibodies can “coat” microbes and make it easier for phagocytes to
recognise them
The opsonised microbe will bind to antibody-specific receptors on the
phagocytes
This leads to efficient phagocytosis and killing of the internalised microbe
T H E W O R L D T O B E T T E R H E A LT H
RCSI LEADING

Neutrophils, Macrophages and dendritic cells all have Fcg
receptors for IgG and phagocytose IgG coated pathogens

Dr Chiara De
Opsonisation – marking a pathogen for ingestion and destruction
Santi, Adaptive Immunity – B cells
COMPLEMENT ACTIVATION
Antigen binding site and complement
recognition sites needed
Antibody binds to pathogen surface
(typically IgG/IgM)
T H E W O R L D T O B E T T E R H E A LT H

Complement binding site exposed
Get activation of the complement
cascade, generating products that
can:
- Attract leukocytes  inflammation
- Opsonise microbes  promote
phagocytosis
- Cause assembly of the MAC  lyse
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bacteria

Dr Chiara De Santi, Adaptive Immunity – B cells
ANTIBODY-DEPENDENT CELLULAR
CYTOTOXICITY
T H E W O R L D T O B E T T E R H E A LT H

Natural Killer (NK) cells and other leukocytes bind to antibody-
coated cells and destroy these cells
NK cells express FcγRIII receptor which binds to IgG attached to the
RCSI LEADING

surface of a cell
NK cells discharges granules to kill opsonised cell
Dr Chiara De S a n tSome
i , A d a p t itherapeutic
v e I m m u n i t y – B antibodies
cells use this mechanism to kill cancer cells
 EOSINOPHIL/MAST CELL-
MEDIATED REACTIONS
Most helminths are too large to be
phagocytosed
IgE antibodies are generated
against the worms
T H E W O R L D T O B E T T E R H E A LT H

IgEs bind to (“prime”) the surface
of either mast cells or eosinophils
(via Fcε receptors)
When the worm antigens bind to
their specific IgE antibodies, this
perturbs the membrane of the
mast cells/eosinophils
These cells “degranulate”,
RCSI LEADING

releasing their contents, which can
kill the worms
Mast
Dr Chiaracells
De – histamine
Santi, and
Adaptive Immunity – B cells
ANTIBODY CLASSES
5 types of heavy chains (gamma, alpha, mu, delta, epsilon) IgG, IgA,
IgM, IgD, IgE
Ab Form Description

most abundant Ig in the body; only antibody class that can
IgG Monomer Y cross placenta; involved in all antibody functions

IgA Dimer Y Secreted at mucosal surfaces; blocks pathogen entry;
Y

involved in neutralisation; IgA immunity acquired via
colostrum and milk
IgM Pentamer Y
Y
Y
Y

Y
On naïve B cells; first Ig to be secreted; involved in
complement activation
IgD Monomer Y
Part of antigen receptor on naïve B cell surface; unclear
role (binds mast cells and basophils and drive the
production of anti-microbial peptides)
IgE Monomer Y
Attaches to mast cells and eosinophils; implicated in worm
 Luke suffers from recurring bacterial and viral
infections due to a deficiency in one antibody
isotype. What isotype is most abundant in
serum and can carry out all known antibody
functions including opsonisation, ADCC,
neutralization and complement activation?
T H E W O R L D T O B E T T E R H E A LT H

A. IgA
B. IgD
C. IgE
D. IgG
E. IgM
What region of an antibody is important for the
neutralization function?
A. Fc
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B. Fab (antigen-binding)
C. Disulphide bonds
Dr Chiara De Santi, Adaptive Immunity – B cells
 B cell/Antibody Deficiencies
Common Variable Immune Deficiency (CVID)
Characterised by low antibody levels, specificially
IgG, IgM and IgA
Symptoms vary but recurrent infections of the
lungs and gastrointestinal tract are more common
T H E W O R L D T O B E T T E R H E A LT H

Selective IgA Deficiency
Most common immunodeficiency
Failure of B cells to differentiate into IgA producing
plasma cells
At least 1/3 patients are asymptomatic (as IgM can
compensate)
X-linked agammaglobulinemia (XLA)
Caused by a mutation in a protein involved
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in B cell development  Absent B cells
Recurrent bacterial infections
Dr Chiara De Santi, Adaptive Immunity – B cells
 RCSI LEADING T H E W O R L D T O B E T T E R H E A LT H

Dr
Chiara
De
Santi,
Adaptive
OVERVIEW

Immunity
–
B
cells