Innate Immunity An Introduction - Dr Alexander Strachan (2024-25).pptx

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Introduction to Innate
Immunity
[email protected]

Literature:
Cellular and Molecular Immunology- Abbas
Essential Microbiology for Dentistry- Samaranayake

Images and tables from Abbas unless indicated otherwise
 Recommended reading:

https://www.i
mmunology.o
rg/public-infor
mation/bitesi
zed-immunol
ogy

Introduction to Innate
 Immunology in the curriculum
Y1: Overview of
immunology. Revisit
and consolidate
Key concepts
Detailed
and
innated and
Y2 introduction to
innate and
adaptive
Immuno-
pathologies
immunity and
: adaptive
immunity
interactions

Introduction to Innate
Why study immunology and why does
it matter?
 What is the main job of the
immune system?
To protect us from infection
Maintain homeostasis
Safely clear and recycle dead cells
Wound healing
Two main divisions of the
INNATE immune system
ADAPTIVE

Introduction to Innate
 Learning Objectives
Session outline: This session aims to provide an overview of some key terms and
concepts in innate immunity. From here, you can read around the topic to meet the
intended learning outcomes:

Students should be able to:
Summarise the components of the innate immune system
Explain how infection leads to inflammation
Interpret the features of innate immune recognition
Define the key effector mechanisms of the innate immunity
Describe how the innate immune response orchestrates the adaptive immunity
Discuss the components of the innate immune system present in the oral cavity

Introduction to Innate
 General Characteristics
First line of defence against infection

Phylogenetically older than adaptive

The mechanisms of innate immunity exist before encounter with microbes

The effector mechanisms of innate immunity are often used to eliminate
microbes in adaptive immune response

Innate immunity influences the nature of adaptive responses (making
them optimally effective)

Introduction to Innate
Innate Immunity
Components of the Innate Immune System

Barrie Cytokin
rs es

Circulati Circulati
ng ng
effector effector
cells proteins
Components of the Innate
Epithelial and mechanical barriers

Components of the Innate
 Circulating effector cells

Components
Dranoff, G., 2004. Cytokines in cancer pathogenesis and cancer therapy. Nature Reviews Cancer, 4, 11-22, of the Innate
 Neutrophils, dendritic cells, and
macrophages
Neutrophils, dendritic cells, and
macrophages are some of the first
cells on the scene of an infection

Their main jobs are to:
– (1) detect an infection
– (2) spread the word that there has
been an infection
– (3) clear up the debris from infected
tissue

Components of the Innate
 Phagocytosis

Professional Non-
phagocytes professional
phagocytes
Macrophages Fibroblasts
Neutrophils Epithelial cells
Monocytes Endothelial
cells
Dendritic cells Components of the Innate
 Natural Killer cells
A subset of lymphocytes that kill
infected cells and cells that have
lost expression of class I MHC
molecules (self molecule).
Constitute 5-10% of lymphocytes
in the blood and spleen.
Effector functions: perforin and
granzyme
They secrete IFN-ϒ

Components of the Innate
 Natural Killer cells
NK cell – Macrophage (MΦ)
interaction can control intracellular
infection until adaptive immune IL-
12
system takes over
Cell-cell interaction (e.g. CD48 –
CD244) and IL-12 secretion by MΦs
induces IFN-ϒ secretion by NK cells IFN-
IFN-ϒ affects MΦ activation and γ

differentiation and induces killing of
phagocytosed bacteria
IL-12 activates and expands NK cell
population
Components of the Innate
 Innate Lymphoid Cells
ILCs are a group of
cytokine producing
lymphocytes which do not
express the T-cell receptor
Respond to cytokines
rather than antigens
Third largest lymphocyte
population (after B- and T-
cells
Defined by transcription
factors and cytokine profile
Display similarities to T-
helper cells
Annunziato F, Romagnani C, Romagnani S. The 3 major types of innate and
adaptive cell-mediated effector immunity. J Allergy Clin Immunol. 2015
 Mast cells, eosinophils and basophils
Mast cells: release histamine  increase Mast
cell
vascular permeability and smooth
muscle contraction. Involved in allergy.
Tissue resident.

Basophils: also release histamine.
Circulating. Important in immune
Eφ Bφ
response to parasites.

Eosinophils: Release inflammatory
molecules. Also important in response to
parasites.
Components of the Innate
Inflammation
 Inflammation
A protective mechanism, consisting of recruitment
of leukocytes and extravasation of several plasma
proteins into a site of infection. Activation of
leukocytes to eliminate the infectious agent.
If not very well controlled and resolved in a timely
manner can damage the host’s tissues.
Unregulated/dysregulated normal defence
mechanism  pathology

Inflamma
 Extravasation
1. Secretion of
cytokines and
chemokines at
site of infection
2. Selectin
mediated rolling
of leukocytes
3. Increase in
integrin affinity
4. Integrin
mediated
attachment to
endothelium
5. Transmigration
through
Inflamma
Circulating effector proteins
 Complement

Andrade, F. A.; et al. Serine proteases in the lectin pathway of the complement system. In Proteases in
Physiology and Pathology. 2017: 397-420
 Cytokines
Cytokine Size Principal cell source Principal cellular targets and biological
effects
TNF 15 kD; 51 kD homotrimer Macrophages, T cells Endothelial cells : activation (inflammation,
coagulation)
Neutrophils: activation
Hypothalamus: fever
Liver: synthesis of acute-phase proteins
Muscle, fat: catabolism (cachexia)
Many cell types: apoptosis
IL-1 17 kD mature form; 33 kD Macrophages, endothelial Endothelial cells : activation (inflammation,
precursors cells and some epithelial coagulation)
cells Hypothalamus: fever
Liver: synthesis of acute-phase proteins
T cells: Th17 differentiation
IL-12 Heterodimer of 35 kD Macrophages, dendritic T cells: Th1 differentiation
(p35) and 40 kD (p40) cells NK cells and T cells: IFN-y synthesis,
subunits increased cytolytic activity
Type I IFN-α: 15 – 21 kD IFN-α: macrophages, All cells: antiviral state, increased class I
interferons IFN-β: 20 – 25 kD plasmacytoid DCs MHC expression
IFN-β: fibroblasts NK cells: activation
IL-10 Homodimer of 34 – 40 kD Macrophages, T cells Macrophages, dendritic cells : Inhibition of
and 18 kD subunits (mainly Tregs) IL-12, co-stimulators and class II MHC
molecules
IL-6 19 – 26 kD Macrophages, endothelial Liver: synthesis of acute-phase proteins
cells, T cells B cells: proliferation of antibody producing
cells
T cells: Th17 differentiation
IL-15 13 kD Macrophages, others NK cells: proliferation
T cells: proliferation (memory CD8+ cells)
IL-18 17 kD Macrophages NK and T cells: IFN-γ synthesis
IL-23 Heterodimer of a 19 kD Macrophages and dendritic T cells: development and maintenance of IL-
 Chemokines
Chemoki Original Chemokine Major Function
ne name receptor
CCL2 MCP-1 CCR2 Mixed leucocyte recruitment
CCL3 MIP-1α CCR1, CCR5 Mixed leucocyte recruitment
CCL4 MIP-1β CCR5 T cell, DC, monocyte and NK recruitment; HIV
coreceptor
CCL5 RANTES CCR1, CCR3, CCR5 Mixed leucocyte recruitment
CCL11 EOTAXIN CCR3 Eosinophil, basophil and Th2 recruitment
CCL19 MIP-β CCR7 T cell and DC migration into parafollicular zones of
lymph nodes
CCL21 SLC CCR7 T cell and DC migration into parafollicular zones of
lymph nodes
CCL22 MDC CCR4 Lymphocyte recruitment into intestine
CXCL1 GROα CXCR2 Neutrophil recruitment
CXCL8 IL-8 CXCR1, CXCR-2 Neutrophil recruitment
XCL1 LYMPHOACTIN XCR1 T cell and NK cell recruitment
CX3CL1 FRACTALINE CX3CR1 T cell, NK cell and monocyte recruitment
Features of innate immunity
Features of Innate Immune Recognition
Bacterial
Microbial
Recognizes structures that are
cell wall
lipid Toll like polysacchari characteristic of microbial
receptor de
(TLR) C-type lectin
pathogens and are not present on
mammalian cells
4 major classes:
TLRs – bacteria and viruses
CLRs – fungi
NLRs – bacteria and cell damage
RLRs – viruses
(also CDS – DNA sensors)

The receptors of the innate
immune system are encoded in the
germline
Features of innate
 Examples of PAMPS/DAMPS and PRRs
Molecular pattern of Source Pattern recognition Principal innate
microbe receptor of innate immune response
immunity
Double stranded RNA Replicating viruses Toll like receptor Type I interferon
(dsRNA) (TLR) 3 production
Lipopolysaccharide Gram negative TLR2/4*/CD14 Macrophage activation
(LPS) bacterial cell wall
Unmethylated CpG Bacterial DNA TLR9 Macrophage activation
nucleotides
N-formylmethionyl Bacterial proteins N-formylmethionyl Neutrophil and
peptides peptide receptors macrophage activation
Mannose rich glycans Microbial 1. Macrophage 1. Phagocytosis
glycoproteins or mannose receptor 2. Opsonisation,
glycolipids 2. Plasma mannose complement activation
binding lectin
Phosphorylcholine and Microbial Plasma C-reactive Opsonisation, complement
related molecules membranes protein activation
Features of innate
 Toll-like Receptors
Toll like Exogenous ligand Reference
receptor TLRs recognise
TLR1* Lipoproteins (Takeuchi et al., 2002)
Lipopeptides (Takeuchi et al., 2002) conserved molecular
TLR2* Lipoglycans (Quesniaux
2004)
et al.,
patterns derived from
Modified
Lipopolysaccharide
(Darveau et al., 2004) potentially
Lipoteichocic Acid (Schroder et al., 2003) pathogenic sources
Peptidoglycan (Takeuchi et al., 1999)
Zymosan (Ozinsky et al., 2000) i.e. of bacterial, viral,
Phospholipomannan
Protozoan GPI anchor
(Li et al., 2009)
(Campos et al., 2001)
protozoan and fungal
TLR3
Viral envelope proteins
dsRNA
(Boehme et al., 2006)
(Alexopoulou et al.,
origin.
2001) TLRs 2 and 1 or 6
TLR4 Lipopolysaccharide (Shimazu et al., 1999)
Lipid-A (Qureshi et al., 1985) dimerize to recognise
Glycoinositolphospholip (Medeiros et al., 2007)
ids increase specificity
Mannan (Tada et al., 2002) To date, no specific
Viral envelope proteins (Madeira et al., 2016)
RSV F-protein (Rallabhandi et al., ligand has been
2012) Features of innate
TLR LPS signalling ST2
Two primary signalling mechanisms have been
identified in TLR4 signalling; MyD88-dependant
TLR TLR
SIGIRR

CD36
which is shared with TLR2 signalling and MyD88-
4 2 independent
MyD88 mediated signalling is associated with the
MyD88s

SARM
PTPB1 SOCS1
RIP2
production of pro-inflammatory cytokines and
SARM SOCS3

IRAK1

IRAK4
PTP1B IRAKM
TOLLIP chemokines through the NFκB transcription factor

IRF5
ENDOSOME SHIP-1

TRAF6 TANK
A20
or via MAP kinases.
CYLD
SHP
TRAF3
TAB1 MyD88-independent signalling recruits the
RIP1
TAK1 TAB2
TRAF6
TANK
A20
adaptors, TRIF and TRAM which upon LPS
NEMO MKKs
binding relocate the LPS/TLR/TRIF/TRAM
TBK1 IKKε
IKKα IKKβ complex to internal endosomes and is associated
with type I interferon responses.
IκBα
ERK JNK1/2 P38
P50 P65 Both signalling mechanisms are tightly regulated
at phases throughout the signalling cascade to

IRFs NFκB AP-1 CREB
prevent unwarranted or excessive inflammation

Features of innate
The Innate Immune System and the
Oral Cavity

Features of innate
Recap: Components of the innate immune
Components system
Principal functions summary
Barriers
Epithelial layers Prevent microbial entry
Defensins Microbial killing
Intraepithelial Microbial killing
lymphocytes
Circulating effector cells
Neutrophils Early Phagocytosis and killing of microbes
Macrophages Efficient phagocytosis and killing of microbes, secretion of cytokines that stimulate
inflammation
NK cells Lysis of infected cells, activation of macrophages
Circulating effector proteins
Complement Killing of microbes, opsonisation of microbes, activation of leukocytes
Mannose binding lectin Opsonisation of microbes, activation of complement (lectin pathway)
C-reactive protein Opsonisation of microbes, activation of complement
Coagulation factors Walling of infected tissues
Cytokines
TNF, IL-1 Inflammation
Type I interferons Resistance to viral infection
Type II interferon Macrophage activation
IL-12, IL-18, IL-23 Type II interferon production by NK and T cells
IL-15 Proliferation of NK cells
IL-10, TGF-β Control of inflammation
 Role of Innate Immunity in
Stimulating Adaptive Immune
Responses
 Any questions to
Alexander.strachan@plymout
h.ac.uk