POD M&I Session 1 Immunology Big Picture PDF

Summary

This document contains lecture notes on microbiology and immunology, covering course overview, exam details, and approaches to microbiology and immunology.

Full Transcript

Microbiology & Immunology
Session 1
Course Overview
Immunology Big Picture
David Everly, Ph.D.
[email protected]
Associate Professor
Microbiology and Immunology
1
 Course Director
Ning Wang, PhD
– Assistant Professor
– [email protected]
– Microbiology and Immunology
– 847-578-3231
– Basic Sciences Building, 2.304
Teaches bacteriology (exam 3) and parasites (exam 5)
Integrated sessions
2
Some slides used and/or
modified from the RWJF
with permission. 3
 Overview of M&I: Immunology
Exam 1 (Sessions 1-16, 15%) Exam 2 (Sessions 17-26, 15%)
Innate Immune Response Adaptive Immune Response
– Inflammation – Part 2
Adaptive Immune Response Abnormal Immunology
– Part 1 – Hypersensitives/Autoimmunity
TBL Innate Immune Response Applied Immunology
– Optional (no extra credit) TBL Adaptive Immune Response
– Optional (no extra credit)
POPS Allergy
– Optional (PLUS 0.5% EXTRA CREDIT)
Overall for the course 4
 Overview of M&I: Microbiology
Exam 5 (Comprehensive and
Exam 3 (Sessions 27-45, 20%) Sessions 59-69, 35%)
Bacterial Pathogens Fungal and Parasitic Pathogens
– 61 organisms – 15 fungi and 15 parasites
Integrated Sessions
Exam 4 (Sessions 46-58, 15%) – Skin, bone and soft tissue infections
Viral Pathogens – Cardiovascular and UTI infections
– 35 viruses Bioterrorism
POPS Hepatitis Breakdown (approximate)
– Optional (PLUS 0.5% EXTRA CREDIT) – New material 27%
Overall for the course – Immunology 21%
– Bacteria and Viruses 52% 5
 Approach to Immunology
Understand the overall process and then fill in the details (lots
of details)
– Overall story, characters, settings, and dialog/plot points
Reaction, cells, locations, and signals/reactions
High yield topics for boards
Conceptually difficult and complex topics
– Revisited in future courses, esp. pathology
TBL (team-based learning) sessions help to put everything
together
6
 Approach to Microbiology
Like a puzzle to solve
Clinical vignette questions (exams and boards)
– Recognize the disease from the clinical presentation, etc.
– Know the most likely pathogen
– Be prepared to answer one of the 8 pathogen questions
Study the cases at the end of the lectures

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 Approach to Pathogens
Each exam will have a Eight questions for each
“Microbe List” microbe:
– Microbes covered and – Natural reservoir
responsible for on the exam. – Transmission
Others may be mentioned. – Diseases
Pathogens are Cumulative – Risk factors
– Final exam is cumulative, many – Pathogenesis factors
especially important organisms – Identification
are in the integrated sessions
at the end of the course – Treatment
(sessions 66-68). – Prevention
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 Microbe Review Slides
D2L has “Microbe Review
Slides”
– Grouped by type:
Bacteria, Viruses, Fungi,
Helminths, and Protozoa
Answers 8 questions for all
pathogens.
All pathogens covered in the
entire course
– Board exam pathogens
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 Learning Objectives
Explain the general purpose, components, and
organization of the immune response.
Distinguish the innate and adaptive immune systems.
Explain the series of events that leads to innate immune
responses.
Describe the series of events that leads to an adaptive
immune response.
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 Response to Injury
Physical Chemical Immunological Other
(e.g. Asbestos)
By ClockFace - Own work

Medical gallery of Aram Dulyan
Blausen Medical 2014

Inflammatory (including immune) response to initiate repair, regeneration, induce
tissue/organ repair, and remove dead and damaged cells/tissue.
11
 Response to Pathogens
Virus Parasite Fungus Bacteria

Immune response to kill pathogens, kill infected cells, and induce tissue/organ repair.
12
 Innate versus Adaptive Responses
Innate Immune Response Adaptive Immune Response
Immediate/initiating Delayed initial response
response – Requires “learning”
Crude screening methods Precise response tailored to
Prevent extensive damage threat
Little specialized training Components generated in
required response to threat.
No memory
– 10th exposure is the same as Generates memory
response to 1st exposure – Response to 2nd exposure is faster
and more robust than response to
1st exposure 13
 Pathogen or Injury
Entry

Recognition
Alarm Innate
Innate
Inflammation Effector Fxn Immune
Innate cell Response
Recruitment

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 Barriers to Entry
Our bodies have a line of defense to keep pathogens out.
Specific mechanisms include:
Physical – skin, cilia, tears, mucous
Chemical – acid, enzymes (pepsin, lysozyme)
Biological – normal flora

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 Recognition by Cells
Barriers to Entry – Provide Protection

Recognition
Structural/Support Cells
How does the body – Epithelial cells, endothelial
cells, and fibroblasts
recognize that there’s a
problem? Resident Immune Cells
– Mast cells, dendritic cells,
Cells resident macrophages,
– Innate immune receptors innate lymphocytes
DAMPs and PAMPs (next slide)
Circulating Factors
Factors – Complement, etc. 16
 Recognition by DAMP/PAMPs
Barriers to Entry – Provide Protection

Recognition

How does the body recognize DAMPs
that there’s a problem? – Extracellular matrix
– Innate immune receptors – Intracellular components
Proteins, DNA/RNA, ATP
Damage/Danger-Associated
Molecular Patterns (DAMPs) PAMPs
Pathogen-Associated – Microbial structures
Molecular Patterns (PAMPs)
– DNA/RNA
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 Recognition – Alarm

Recognition
Alarm

Recognition leads to sounding the alarm.
Cells become activated and secrete factors:
– Cytokines: control immune cell activation
– Chemokines: control immune cell localization
– Vasoactive and inflammatory agents
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 Local Inflammation

Recognition Local
Alarm Calor, Dolor, Rubor, Tumor
– Heat, pain, redness, swelling
Inflammation
Alarm leads to inflammation. Vasodilation
Inflammation Increased permeability
– Required for tissue repair and Extravasation of white
regeneration. blood cells (WBC)
– Recruits cells and factors to fight Stimulation of pain
infection. receptors 19
 Systemic Inflammation

Recognition Systemic
Alarm Fever
Inflammation Acute-phase response
Alarm leads to inflammation. Metabolic shift
Inflammation Lymphocyte activation
– Required for tissue repair and Neutrophil production
regeneration.
– Recruits more cells and factors
to fight infection.
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 Innate Cell Recruitment

Recognition Mostly Phagocytes
Alarm (“eaters”)
Inflammation – Neutrophils
– Monocytes-macrophage
Innate cell
– Engulf pathogens, cells, and
Recruitment
debris
Alarm and inflammation lead Other recruited cells
to innate cell recruitment. – Natural killer (NK),
– From circulation, into tissue Eosinophils, Basophils
– Large number of cells – Specialized functions 21
 Innate Cell Function

Phagocytosis (“eating”)
Recognition
– Destruction of pathogens
Alarm
Innate Reactive oxygen species,
destructive enzymes,
Inflammation Effector Fxn antimicrobial peptides
Innate cell – Killing infected cells
Recruitment – Removal of dead/dying cells
and debris
Innate cells perform innate
effector functions. More inflammation
– Cytokines, chemokines, etc.
– Potentiate the inflammatory
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response.
 Other Innate Functions

Recognition
Alarm
Innate
Inflammation Effector Fxn
Innate cell
Recruitment
Soluble factors can exert
effects on innate cells and
pathogens.
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 Resolution/Damage

Following inflammation
Recognition
Alarm
the process moves
Innate towards resolution and
Inflammation Effector Fxn restoration of normal
Innate cell function.
Recruitment Extensive damage or
Inflammatory cycle will ongoing (chronic)
continue until PAMPs and inflammation may lead to
DAMPs are removed. loss of function.
24
(Also influenced by the adaptive response, next)
 Pathogen or Injury

Recognition
Alarm Innate
Innate
Inflammation Effector Fxn Immune
Innate cell Response
Recruitment

25
 Recognition
Alarm Innate
Innate
Inflammation Effector Fxn Immune
Innate cell Response
Recruitment

Adaptive Immune Response
Builds off Innate Response
26
 Adaptive Immune Response

APC Immune
Recognition Pathology
Alarm
Innate T cell Ab Effector
Inflammation Effector Fxn Cytotoxicity Fxns

Secondary Innate cell
Lymphoid Recruitment Antibodies
Organs
Primary
Naïve Effector CD4 Effector CD8 Effector B
Immune
Lymphocytes T cells T cells cells
Response
Lymphocyte Memory T and
Development B cells 27
 Lymphocyte Development

Lymphocytes are B or T cells
Recognition Each lymphocyte expresses a
Alarm receptor with specificity for one
Innate antigen.
Inflammation Effector Fxn – Antigen: simplest molecular unit
that an immune cell recognizes.
Innate cell
– Immune receptors:
Recruitment B cell receptor (BCR)
T cell receptor (TCR)
Lymphocytes develop in
Lymphocytes have 107-109
primary lymphoid organs.
different specificities.
Each lymphocyte has a – Each cell has a unique specificity.
Lymphocyte unique specificity.
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Development
 Naïve Lymphocytes

Before lymphocytes
Recognition
Alarm
encounter their specific
Innate antigen they are called
Inflammation Effector Fxn naïve lymphocytes.
Secondary Innate cell Naïve lymphocytes transit
between the circulatory
Blood

Lymphoid Recruitment
Organs and lymphatic systems
Naïve “looking” for their specific
Lymphocytes
antigen.
Lymphocyte – Secondary lymphoid organs
29
Development
 Lymph Recirculation

Lymph
Fluid (lymph) from the
Recognition inflamed tissue is drained
Lymphatics

Alarm
Innate via lymphatic vessels to
Inflammation Effector Fxn secondary lymphoid
organs.
Secondary Innate cell
Recruitment – Often lymph nodes
Lymphoid
Organs Lymph contains
inflammatory signals,
antigens, and migrating
immune cells.
– APC, see next slide 30
 Antigen Presentation by APC

APC Recognition Some APC pick up antigens
in the tissue, migrate to
Lymphatics

Alarm
Innate secondary lymphoid
Inflammation Effector Fxn
organs, and present them
Secondary Innate cell to lymphocytes.
Lymphoid Recruitment – Lymph nodes normally
Organs
Soluble antigens in the
Lymphocytes “see” their antigen lymph can also be
when it is presented to them by captured and presented.
antigen presenting cells (APC). 31
 Primary Immune Response

APC APC + antigen – specific
Recognition naïve lymphocyte:
Alarm
Innate Initiates the primary
Inflammation Effector Fxn immune response
Innate cell – Priming
Secondary
Lymphoid Recruitment Lymphocytes are activated,
Organs proliferate, and are
Primary
Naïve programmed.
Immune Effector
Lymphocytes
Response Differentiate into effector
Memory or memory cells 32
 Adaptive Effector Cells

APC Effector cells include:
Recognition
CD4 T cells, “Helper”
Alarm – Stimulate and tailor responses in
Innate other cell types.
Inflammation Effector Fxn
CD8 T cells, “Cytotoxic”
Innate cell – Kill infected or abnormal cells
Secondary
Recruitment – Think hand-to-hand combat
Lymphoid
Organs B cells, “Antibody”
Primary – Antibodies have many functions
Naïve
Immune – Think projectile weapons
Lymphocytes
Response Effector CD4 Effector CD8 Effector B
T cells T cells cells
33
 Effector cells migrate into
the tissues and perform
APC
immune functions.
Recognition
Alarm
Innate T cell Ab Effector
Inflammation Effector Fxn Cytotoxicity Fxns

Secondary Innate cell
Lymphoid Recruitment Antibodies
Organs Effector CD8
Primary
Naïve Effector CD4 T cells Effector B
Immune
Lymphocytes T cells cells
Response

34
 Adaptive Memory Cells

DCs Recognition Memory cells enable
Alarm rapid response following
Innate re-exposure.
Inflammation Effector Fxn
Increased cell numbers
Secondary Innate cell
Recruitment Increased sensitivity
Lymphoid
Organs Does not require priming
Primary
Naïve Effector CD4 Effector CD8 Effector B
Immune
Lymphocytes T cells T cells cells
Response
Memory Memory
T cells B cells 35
 Secondary Immune
Response
APC Recognition
Alarm
Innate T cell Ab Effector
Inflammation Effector Fxn Cytotoxicity Fxns

Secondary Innate cell
Lymphoid Recruitment Antibodies
Organs
Primary
Naïve Effector CD4 Effector CD8 Effector B
Immune
Lymphocytes T cells T cells cells
Response
Memory Memory Memory
36
CD4 T cells CD8 T cells B cells
 Immune-Induced Pathology

APC Immune
Recognition Pathology
Alarm
Innate T cell Ab Effector
Inflammation Effector Fxn Cytotoxicity Fxns

Secondary Innate cell
Lymphoid Recruitment Antibodies
Organs
Primary
Naïve Effector CD4 Effector CD8 Effector B
Immune
Lymphocytes T cells T cells cells
Response
Memory T and
B cells 37
 Immune Pathology
Hypersensitivity Autoimmunity
Reaction/overreaction to Reaction to self-antigens.
innocuous stimuli. Breaking tolerance to self
Sensitization followed by Sensitization followed by
pathological pathological
CD4/CD8 T cells & antibodies CD4/CD8 T cells & antibodies
Allergy, asthma, poison ivy, etc. Lupus, type 1 diabetes,
rheumatoid arthritis, etc.

38
 Other Considerations
Much of immune function relies on getting the right
cells to the right place at the right time.
This is orchestrated by various chemotactic signals
and adhesion molecules.
The presence or absence of specific immune cell
types in tissues is diagnostic of specific diseases.
Immune cell accumulation is an indicator of immune
system activity. 39
 Immune Response

APC Immune
Recognition Pathology
Alarm
Innate T cell Ab Effector
Inflammation Effector Fxn Cytotoxicity Fxns

Secondary Innate cell
Lymphoid Recruitment Antibodies
Organs
Primary
Naïve Effector CD4 Effector CD8 Effector B
Immune
Lymphocytes T cells T cells cells
Response
Lymphocyte Memory T and
Development B cells 40
Future Immunology Lectures