1 Basic Concepts In Immunity.pdf

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Basic Concepts
in Immunity

ROSS UNIVERSITY SCHOOL OF MEDICINE

Raymond F Adebiyi
Professor
Immunology and Medical Microbiology

Resources
Required Reading:
Basic Immunology: Functions and Disorders of the
Immune System. 5th edition, 2016. Abbas, AK,
Lichtman, AH, & Pillai, S. Elsevier. St. Louis, MO.
Chapter 1, pp 1-25
Suggested Reading:
How the Immune System Works, 6th edition, 2019.
Lauren Sompeyrac. Wiley-Blackwell, Lecture 1
Accessible through Canvas:
Student Resources
Resources
 R2 Digital Library
As the title suggests this is
reference, but it is
Immunology & Serology abyquick
no means complete
enough for this course…

Any Questions?
[email protected]
Office Hours
https://atge.webex.com/meet/radebiyi

Learning Objectives
1. Name the cells of the immune system. Distinguish which are innate cells and which are adaptive cells.
2. Describe the function of the primary and secondary lymphoid organs.
3. In general terms, how do white blood cells get to the site of infection?
4. Where does activation of adaptive cells occur? How and where do activated adaptive cells perform their function?
5. Define the immune response. Explain how recognition and self-discrimination are important principles related to an
immune response.
6. List the main characteristics of the innate immune response. Name the components of an innate response and discuss
the roles of each component. Describe generally how innate immune cells recognize antigens.
7. List the main characteristics of the adaptive immune system. Contrast these characteristics with those of the innate
immune system. Describe in general terms how innate recognition of antigen differs from adaptive recognition of
antigen. Name the components and the roles of each component of the adaptive immune system.
8. Describe in general terms how innate recognition of antigen differs from adaptive recognition of antigen.
9. Compare and contrast humoral immunity and cell-mediated immunity.
10. Define the following terms: active immunity; passive immunity; natural immunity; artificial immunity. Recognize specific
examples of each type of immunity.
11. Explain the role of apoptosis in immunity. Describe how Fas/FasL interactions induce apoptosis.
12. Describe how Fas/FasL interactions induce apoptosis.

Scope of Immunology
•
•
•
•
•
•
•
•

Infectious disease
Tissue repair
Allergy/hypersensitivity
Autoimmunity
Immunotherapy (mAbs)
Transplantation
Tumor immunology/treatment (CAR therapy)
Neuroimmunology

• Rapidly advancing!

Journal of Reproductive Immunology 116(2016): 7–12

Definition
 Effort to combat potentially hazardous materials

Restoration of normal structure and function

The immune system is predicated upon
two central principles.
• Recognition
o The body must have the capacity to ‘recognize’ the invading material.
o Achieved through cell surface receptors that bind ligands on invaders.

• Self-Discrimination
o An immune response must implicitly be directed at a ‘foreign’ substance to
defend self from harm.
o The generation of nonself immune cells occurs by the process of elimination of
self-reactive precursors.

Who
How

Immunity

Where

What

When

Cells of the Immune System

Histology:
Lymphoid Tissue

from past lecture

Tissues of the Immune System

Histology:
Lymphoid Tissue

Lymphocyte
Recirculation

Histology:
Lymphoid Tissue

Roles of the Immune System
Primary immunodeficiencies

Prevention of disease through
vaccination

B cell acute lymphoblastic
leukemia (ALL) - CAR therapy
TNF- mAb for treatment of
rheumatoid arthritis

Cells of the Immune Responses

Innate
• Natural Barriers
• Phagocytes

o Dendritic cells
o Neutrophils
o Macrophages

• Mast cells, eosinophils,
basophils
• Complement

Adaptive
• B cells
• T cells

Histology:
Lymphoid Tissue

Characteristics of Immune Responses

Innate
• Group-specific

 Multiple, relatively specific
antigen receptors per cell.
 Recognize antigens based on
common structural motifs.
 Recognize antigen marked by
complement.

• Always present/immediate
response
• Short-lived
 No memory

Adaptive
• Antigen-specific

 Cells express a unique antigen
receptor.

• Called upon only when
necessary
• Slow response
• Long-lived

 Second response against
pathogen is better, faster, and
stronger than first.
 “Immunological Memory”

Phases of Immunological Action

Cognitive Phase
Activation Phase
Effector Phase

Innate Immunity

COGNITIVE Phase – INNATE Immunity
Cognitive functions mediated by Pattern Recognition Receptors (PRRs):
•
•

•
•

Limited in number (dozens)
Specificity is predetermined and fairly broad (generally respond to groups
of organisms).
Same for all cells
Little or no expansion upon stimulation

Cognitive Phase – Innate Immunity
Type 1 PRRs – Secreted PRRs:
•

Circulate in blood and lymph.

•

Mannan binding lectin, a collectin – binds to CHO
on bacteria to initiate complement activation.

•

Other C-type lectin receptors and C-reactive
protein function similarly.

•

Produced by the liver.

•

Induced by IL-6.

Cognitive Phase – Innate Immunity
Type 2 PRRs – Phagocytosis PRRs/scavenger receptors:
•

High affinity for mannose residues.

•

Bind to bacteria.

•

Facilitate phagocytosis.

•

Pathogen-derived proteins are presented to T cells (antigen processing and
presentation).

Cognitive Phase – Innate Immunity
Type 3 PRRs – Signaling receptors:
•

TLRs (Toll-like receptors):
o Homologous to toll receptors
o On macrophages, dendritic cells, and epithelial cells (cell membrane and on endosomes)
o Binding to pathogens results in activation of signal transduction and expression of
cytokine genes

•

NLRs (Nod-like receptors):
o Nucleotide oligomerization domain-like receptors (cytosolic)

•

RLRs (RIG-like receptors):

o Retinoic acid-inducible gene-like receptors (cytoplasmic)

Microbial Ligands Recognized by PRRs
PRRs bind to unique microbial structures:
•

Pathogen-Associated Molecular Patterns – PAMPs

•

Microbe-Associated Molecular Patterns – MAMPs

•

Bacterial-Associated Molecular Patterns – BAMPs

•

Damage-Associated Molecular Patterns – DAMPs

PAMPs:
• Not shared with the host
• Common to many pathogens
• Invariant

PRRs Recognize Specific PAMPs

Adaptive Immunity

COGNITIVE Phase –ADAPTIVE Immunity
Cognitive functions mediated by unique cell surface receptor:
• Specific to each cell (each B cell and T cell express receptors of only one
specificity).
• Receptor is generated by recombination of genes encoding the receptor
(germline gene rearrangement).
• Rearrangements are random and are antigen independent.
• Allows for high degree of diversity in antigen receptors (many lymphocytes of
only one specificity).
• Expanded upon stimulation.

COGNITIVE Phase – ADAPTIVE Immunity
Take home message: protect
•

•

from disease

upon

re-infection

Specificity is guaranteed by having each cell only carry receptors
specific for one antigen.
Diversity is ensured by the staggering number of lymphocytes, each
possessing specificity for only one antigen.

COGNITIVE Phase – ADAPTIVE Immunity

To illustrate:

Adaptive Immune RecognitionCognitive Phase
Comparison of BCR vs TCR

Recognizes many
different kinds of antigen

Recognizes only peptides

B cell receptor

T cell receptor

B cells and T cells express a
unique antigen receptor.

The Immune System Fig 3.4 Garland Science 2009

Characteristics of Receptors

Adaptive Immunity
B cells
• How do they recognize antigen?
B cell receptor (BCR, immunoglobulin,
antibody)

• What do they do in response to
antigen?
Secrete antibodies

T cells
• How do they recognize antigen?
T cell receptor (TCR)

• What do they do in response to
antigen?
Help other cells
• Cytokines
• Cell-surface interactions

Kill infected cells

Types of Adaptive Immunity

Properties of Adaptive Immune System
1.
2.
3.
4.

Specificity
Diversity
Clonal expansion
Anamnestic reaction
(secondary response)
(booster response)
5. Memory

Time Course of Adaptive Immune Response

into

effector
cells

Types of Immune Responses
(Refinements)

The Immune Response
Lectures on B cells,
antigens, & antibodies
Lecture on
cytokines

Lecture on
innate
immunity
Lecture on
complement
Lecture on antigen
presentation & T cells

INTEGRATIVE
INTERACTIVE
SESSION AT
THE END

Overview
Innate
Recognition.

Antibodies &
cytokines trigger
additional functi
ons.

Lymph drains
antigen and innate
cells to secondary
lymphoid tissue.

Activation of B
cells and T cells.

Killer T cells kill
infected cells.
T cells become
effector cells, B
cells secrete
antibodies.
Effector T cells and
antibodies traffic
to site of infection.

The End