Introduction to Immunology PDF

Summary

This document introduces the study of immunology, focusing on the differences and functions of innate and adaptive immunity. It covers various types of pathogens, immune system cells (like lymphocytes, macrophages, and dendritic cells), and non-cellular components like cytokines and the complement system. The document also outlines the inflammatory response and the details of the adaptive immune response.

Full Transcript

Introduction to
Immunology
Angela Oest, MS, PA-C, MPH
Center for Food Allergy & Asthma Research (CFAAR)
Ann & Robert H. Lurie Children’s Hospital of Chicago
Division of Allergy & Immunology
Northwestern University Feinberg School of Medicine
 Objectives

Describe the differences between innate and adaptive immunity

Describe the function of cytokines and the complement system in pathogen
defense

Understand how components of innate immunity interact with components of
adaptive immunity to generate normal immune protection

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 What is Immunology?

The study of how the body ("host") recognizes self from nonself ("pathogens")

Goal: Kill the foreign matter without harming the host

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 Types of Pathogens
Viruses
Bacteria
Fungi
Parasites

Viruses & bacteria: Most dominant infectious organisms in USA &
industrialized world

Parasites: Major cause of infections worldwide (I.e. Malaria)

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 Cells
that Act in
the
Immune
System
 Lymphoid Organs
Primary & Secondary

Primary Lymphoid Organs – supply mature lymphocytes
- Bone marrow – site of B cell maturation ("B" for bone marrow)
- Thymus – site of T cell maturation ("T" for thymus)
Secondary Lymphoid Organs – activate lymphocytes in a specific immune
response
- Lymph nodes (LN)
- Spleen
- Tonsils/adenoids
- Lymphocyte accumulations in the gut, respiratory, genital and urinary tracts
I.e. GALT (Gut Associated Lymphoid Tissue), BALT (Bronchial Associated Lymphoid Tissue)

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 The Immune System
Two parts

Innate Immune Response

Adaptive Immune Response

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 Innate Immunity Adaptive Immunity

Born with it Acquired through exposure

Acts immediately Takes time

Does not require activation Requires activation

Nonspecific Specific – forms memory cells
Recognizes carbohydrates & lipids on
Recognizes proteins on foreign cells
foreign cells
Lymphocytes present in secondary
Leukocytes circulate in the blood
lymph organ

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Innate Immune Response
 Components of Innate Immunity

Physical barriers – skin, epithelium, mucus membranes

Chemical barriers – lysozyme, sweat, stomach acid

Cellular components – Leukocytes – circulating in the blood

Non-cellular components– Complement & Cytokines

Inflammation – local response to infection or injury

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 Physical & Chemical Barriers

Skin – very few microorganisms can penetrate intact skin

Epithelium – gastrointestinal and respiratory system
- Mucous membranes – sticky, traps and limits bacterial adhesion to epithelium
- Hair, cilia – trap, sweep away particulate matter

Lysozyme – enzyme that can lyse bacterial cell wall
Found in tears, saliva, milk, mucus

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 Cellular Components (Leukocytes)
Polymorphonuclear Granulocytes (PMNs)
Neutrophils
- Most numerous
- Secrete chemicals: bleach & peroxide
- Avid phagocytes
- Elevated in bacterial infection
Basophils - "basic loving"
- Secrete histamine
- Related to mast cells (in skin & mucus
membranes)
Eosinophils - "acid loving"
- Parasite infections
- Elevated in allergy

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 Cellular Components (Leukocytes)
Macrophages
- Derived from monocytes – after they pass from vessels into tissues
- Found in large number where epithelium is in contact with external environment:
skin, gastrointestinal & respiratory tract
- Engulf particles by phagocytosis
Dendritic cells – macrophage-like cells

Both act as Antigen-presenting cells (APCs) - which activate the adaptive immune cells

Recognize pathogens by pathogen-associated molecular patterns (PAMPs)

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 Cellular Components
Natural Killer Cells
- Lymphocyte- (which are generally more associated with the adaptive immune
response)

- Doesn't require activation – therefore included in the innate immune
response

- Major targets are virus-infected cells & cancer cells

- Not antigen-specific – exact mechanism of recognition of targets is unknown

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 Non-cellular components - Cytokines
Protein messengers released by cells of the immune system
- Link parts of the immune system together by chemical communication
- Often as a cascade – one cytokine stimulates the release of another
Play a role in innate and adaptive immune responses
Types
- Interleukins (IL-1, IL-2, etc)
- Interferons (IFN)
- Chemokines
- Lymphokines
- Tumor Necrosis Factor (TNF)

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 Non-cellular components - Complement

Complement – family of plasma proteins (30+ proteins, very complex)
- A means of extracellular killing of microbes
- Complement proteins synthesized in the liver and circulate in the blood
- Triggered by infection or damage
- 5 of the active proteins form a multiunit protein called membrane attack
complex (MAC)
Embeds itself in microbial plasma membrane
Forms pore-like channels "punches holes"
Membrane becomes leaky – kills microbe

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 Non-cellular components - Complement
There are 2 main complement pathways:

Classical complement pathway – Requires
antibodies to activate the first
complement protein (C1)

Alternate complement pathway – Not
antibody-dependent. Activated by
carbohydrates on the surface of microbes
and complement proteins beyond C1
Adapted from Understanding Pathophysiology. Mosby 2004

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 Inflammatory Response
Nonspecific immune response to invasion by a pathogen (similar response
to trauma, cold, heat injury)

1. Entry of bacteria into tissue – tissue injury causes release of chemicals
2. Vasodilation in the infected area – increased blood flow (warmth,
redness, swelling)
3. Increased permeability of capillaries and venules
4. Chemotaxis – movement of leukocytes into interstitial fluid and tissue
5. Destruction of bacteria by phagocytosis or other mechanisms

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Inflammatory Response

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Adaptive Immune Response
 Two Types of Adaptive Immune Responses

Cell-mediated Immunity
- Carried out by activated T cells that migrate to the site of infection
- "Cells killing cells"

Humoral-mediated Immunity
- Carried out by activated B cells in secondary lymphoid organs that secrete
antibodies into circulation
- Humoral means body fluids

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 Components of Adaptive Immunity

Cellular components
- B lymphocytes (B cells) - CD19, CD20 – humoral-mediated immunity

- T lymphocytes (T cells) - cell-mediated immunity
Cytotoxic T cells (Tc, CD8)
Helper T cells (Th, CD4)

- Antigen-presenting cell required for activation

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 B Cell Receptors

B cell receptor is an antibody on the
surface
Binds to a specific antigen like a lock
and key

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 T Cell Receptors
Do not directly recognize antigens
Antigens are presented on major histocompatibility complexes
(MHCs)
- MHCs are unique to each person – genetic "identity tags" of self
- Two classes
Class I MHC – all nucleated cells (all cells except red blood cells)
Class II MHC – only on the surface of macrophages, dendritic cells & B cells
- T cell receptors can only recognize antigen if bound to MHC
Cytotoxic T Cells (CD8) bind to Class I MHC
Helper T Cells (CD4) bind to Class II MHC www.creativecommons.org

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 Human Leukocyte Antigen (HLA) Complexes
Human version of the major histocompatibility complex

Encoded by a cluster of genes on chromosome 6

Used to match for tissue transplantation to prevent rejection

Certain HLA types are associated with specific autoimmune diseases

Some HLA-mediated diseases may predispose to cancer

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 Details of Adaptive Immunity
Th – Helper T cells
- The "generals" - don't directly attack anything, but they begin and coordinate
the immune response to a specific pathogen
Enhance inflammation
Stimulate cytotoxic T cells
Stimulate B cells
- Becomes activated by antigen-presenting cell – produces IL-2
- Two types: Th1 (cell-mediated) & Th2 (humoral) – usually in balance
- IL-2 causes helper T cells to proliferate and differentiate into:
Memory helper T cells – remembers the specific antigen for future exposure
Effector helper T cells – coordinate the immune response specific to the antigen
Produces IL-2 & IL-4

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 Details of Adaptive Immunity

Tc – Cytotoxic T cells
- Becomes activated by antigen presenting cell
- IL-2 from helper T cell causes it to proliferate and differentiate into:
Memory Cytotoxic T cells – remembers the specific antigen in case of future exposure
Effector Cytotoxic T cells – "infantry of the army" – migrate to the site of infection and kill
the pathogen itself or a virally infected cell
- Cell-mediated immunity – "cells killing cells"

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 Details of Adaptive Immunity

B cells
- Becomes sensitized to antigen either by phagocytosis or antigen presenting
cells
- Receives signal from helper T cell via IL-4 – causes proliferation and
differentiation into:
Memory B cells - remembers the specific antigen in case of future exposure
Plasma cells – remain in secondary lymphoid organs and become large secrete antibodies

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 How do Antibodies Destroy Pathogens?

Antibodies – secreted by plasma cells into lymph and blood

- Binds to the pathogen at the site of infection or in circulation

- Leads to the destruction of pathogens in 3 ways:
Neutralization – prevents virus or bacteria from binding to host cells

Opsonization – tags a pathogen for destruction by phagocytes

Complement activation – destroys pathogen by punching holes in the cell membrane

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 Immunoglobulins

Family of proteins that includes B cell
receptors and plasma cell antibodies

Composed of 4 interlinked chains
- 2 heavy chains (long chains)
Stem is distinct for each Ig type
- 2 light chains (short chains)
Constant & variable regions

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 Immunoglobulin Classes
Acronym: "MADGE"
5 classes:
- IgM – first antibody produced after new infection (indicates recent infection),
transient
- IgG – most abundant, crosses placenta, long-term memory and active in secondary
response to previous infection
- IgE – involved in allergic reactions (found on mast cells & basophils) & parasite
infections
- IgA – mucosal immunity – found where body interacts with external environment –
gastrointestinal, respiratory, genitourinary systems, secreted in breast milk
- IgD- found in blood and lymph – actual function unknown

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Antibody Titers with SARS-CoV-2 infection

www.betterfamilyhealth.org

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 Vaccination to Induce Immunity

Contain noninfectious antigens, derived from known pathogens, to generate a
mild primary immune response

Leads to immune memory – memory B cells, IgG

When exposed to pathogen to which the host was vaccinated, the immune
system mounts a quick and robust response

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 www.aai.org

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 Immunologic Testing

Polymerase Chain Reaction (PCR) - detects genetic material from an organism or
pathogen (I.e. virus)
- Clinical application: SARS-Co-V2 testing

Enzyme linked immunosorbent Assay (ELISA) - used to detect antibodies and
other proteins in the blood
- Clinical application: antibody titers, HIV diagnosis

Western Blot – detects specific proteins in the blood
- Clinical application: Lyme disease diagnosis (IgM and IgG band analysis)

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 Immunologic Testing

Immunofluorescence – antibodies labeled with fluorescent dye and
visualized under a microscope
- Clinical application: diagnosis of auto-immune disease (I.e. lupus)
- Level of auto-antibodies reported as a titer (1:160 considered
clinically significant)

Flow cytometry – a laser-based technique used to detect, identify and count
cells in the blood, bone marrow or cerebral spinal fluid
- Clinical application: I.e. diagnosis of leukemia & lymphoma

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Questions?