The Immune System: Structure and Function PDF

Summary

These notes describe the structure and function of the immune system, covering innate and adaptive immunity, and inflammatory response. They detail various components including barriers, cells, and processes.

Full Transcript

The Immune System: Structure and
8/27/24, 6:12 PM Platform | Study Fetch

Function
(00:00 - 00:12)
Introduction to the topic of the immune system
(00:12 - 00:23)
Overview of the immune system as the body's natural defense system
Will discuss innate and adaptive immunity
(00:23 - 00:34)
Lesson overview:
Innate immunity
Adaptive immunity

Innate Immunity
(00:34 - 00:46)
Innate immunity refers to a non-specific defense mechanism against foreign invaders
Has multiple different facets
(00:46 - 00:58)
Barriers
Body's first line of defense are outer barriers:
Skin
Cilia in respiratory epithelium
Stomach acid
Symbiotic bacteria
(00:58 - 01:10)
Skin has sebaceous glands that secrete sebum, which has antimicrobial properties
Skin is 3 layers thick to provide a barrier
(01:10 - 01:21)
Cilia in respiratory epithelium help sweep up mucus and particulates
Mucus is then swallowed and interacts with stomach acid
(01:21 - 01:36)
Stomach acid has a low pH that kills many bacteria
If stomach acid is reduced (e.g., with proton pump inhibitors), it can lead to increased risk of
intestinal infections
(01:36 - 02:02)
Symbiotic bacteria in the gut outcompete potential pathogens for resources
Limited resources (food, space, etc.) in the GI tract mean symbiotic bacteria can prevent infection
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 1/9
 (02:02 - 02:28)
8/27/24, 6:12 PM Platform | Study Fetch

Inflammatory Response
Mast cells release histamine, making capillary walls more permeable
Chemoattractants are released, causing immune cells to leave capillaries and enter the area
(02:28 - 02:42)
Signs of inflammation:
Redness
Heat
Swelling
Pain
(02:42 - 03:11)
Inflammatory response process:
1. Mast cells release histamine
2. Capillary walls become more permeable
3. Chemoattractants released
4. Immune cells leave capillaries and enter the area

Adaptive Immunity
(03:11 - 03:29)
Adaptive immunity is a specific defense mechanism
Will discuss this in more detail in the next part of the lesson

Inflammatory Response and Immune
Cells
(00:03:29 - 00:03:59)
Increased heat, pain, and redness are signs of an inflammatory response
Leukocytes (white blood cells) are the main immune cells:
Neutrophils, lymphocytes, monocytes, eosinophils, and basophils
Neutrophils phagocytose pathogens and release a respiratory burst to kill them
(00:03:59 - 00:04:18)
Natural killer cells are part of the innate immune system and are always ready to attack infected
cells using perforin and granzymes
They don't need to be activated like other lymphocytes
(00:04:18 - 00:04:36)
Cells present peptides from within the cell on MHC (major histocompatibility complex) molecules
Some viruses or infections can stop this presentation to avoid detection
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 2/9
 (00:04:36 - 00:04:47)
8/27/24, 6:12 PM Platform | Study Fetch

If cells downregulate MHC presentation, natural killer cells will recognize them as abnormal and
kill them
(00:05:03 - 00:05:14)
Monocytes become macrophages when they leave the vasculature
Macrophages consume pathogens, dead cells, and other debris
(00:05:14 - 00:05:26)
Eosinophils contain granules with enzymes that attack parasites
(00:05:26 - 00:05:46)
Basophils contain granules with histamine, which increases capillary permeability, and heparin,
which prevents blood clots
(00:05:46 - 00:06:17)
Extravasation is the process where leukocytes leave the vasculature and migrate towards the site
of infection or injury
Leukocytes respond to chemical attractants and interact with factors on the endothelial cell wall
to squeeze between the cells
(00:06:17 - 00:06:45)
Leukocytes follow the chemical signals to the site of damage
Monocytes differentiate into macrophages to consume pathogens
Eosinophils and neutrophils release chemicals to kill external threats
(00:06:45 - 00:07:02)
Mnemonic for relative white blood cell counts:
Neutrophils, Lymphocytes, Monocytes, Eosinophils, Basophils (NLMEB)
Neutrophils are the most common (40-60%)
(00:07:02 - 00:07:24)
When people have abnormal white blood cell counts, it can indicate an underlying condition
Extravasation and Leukocyte Migration
Key Points:
Leukocytes leave the vasculature through a process called extravasation
They respond to chemical attractants released at the site of infection/injury
Leukocytes interact with factors on the endothelial cell wall to squeeze between the cells
They then follow the chemical signals to the site of damage
Steps of Extravasation:
1. Leukocytes in the blood respond to chemical attractants
2. Leukocytes bind to adhesion factors on the endothelial cell wall
3. Leukocytes squeeze between the endothelial cells and leave the vasculature
4. Leukocytes follow the chemical signals to the site of infection/injury
White Blood Cell Types and Functions
Leukocyte Types:
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 3/9
 Neutrophils
8/27/24, 6:12 PM Platform | Study Fetch

Phagocytose pathogens
Release respiratory burst to kill pathogens
Lymphocytes
Include natural killer cells that attack infected cells
Monocytes/Macrophages
Consume pathogens, dead cells, and debris
Eosinophils
Contain granules with enzymes that attack parasites
Basophils
Contain granules with histamine and heparin
Relative White Blood Cell Counts (NLMEB):
1. Neutrophils (40-60%)
2. Lymphocytes
3. Monocytes
4. Eosinophils
5. Basophils
MHC Presentation and Natural Killer
Cells
Key Points:
Cells present peptides from within the cell on MHC molecules
Some pathogens can stop this MHC presentation to avoid detection
If MHC presentation is downregulated, natural killer cells will recognize the cell as abnormal and
kill it
Natural Killer Cells:
Part of the innate immune system
Always ready to attack infected or abnormal cells
Use perforin and granzymes to kill target cells
Don't need to be activated like other lymphocytes
Inflammatory Response
Signs of Inflammation:
Increased heat
Pain
Redness
Purpose of Inflammation:
Allows the body to recognize and respond to injury or infection
Recruits immune cells to the site of damage
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 4/9
 Key Inflammatory Mediators:
8/27/24, 6:12 PM Platform | Study Fetch

Chemical attractants that draw leukocytes to the site
Factors that allow leukocytes to extravasate and migrate

Innate Immunity: Neutrophils and
Dendritic Cells
(00:07:24 - 00:07:35)
Neutrophils can indicate a blood infection by their increased count
Neutrophils help identify bacterial infections in the blood
Dendritic Cells
(00:07:35 - 00:07:47)
Dendritic cells act as a messenger between the innate and adaptive immune systems
They reside in various tissues throughout the body
Dendritic cells pick up foreign material from their environment and use those fragments to teach
the immune system about invaders
The Complement System
(00:07:47 - 00:08:20)
The complement system is a group of 30 proteins that work together to enhance the immune
response
It is activated through a cascade of protein interactions
The three pathways that activate the complement system are:
Classical complement pathway
Alternative complement pathway
Lectin pathway

Complement System Functions
(00:08:20 - 00:08:47)
The complement system will assemble the membrane attack complex (MAC) to punch holes in the
membranes of infected cells
This helps kill infected cells in the body
Mnemonic for complement system functions:
Histamine release
Immune complex clearance
Generates cytokines
Helps optimize phagocytosis
Creates the membrane attack complex

https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 5/9
 Adaptive Immunity
8/27/24, 6:12 PM Platform | Study Fetch

(00:09:22 - 00:10:52)
Major Histocompatibility Complex (MHC)
MHC class I is found on all nucleated cells and displays self-peptides
This allows the immune system to recognize "self" cells
It also displays any abnormal peptides expressed within the cell
MHC class II is found on antigen presenting cells (like dendritic cells)
Antigen presenting cells take up proteins from their environment, process them, and display the
peptides on MHC class II
Lymphocytes: B Cells and T Cells
Lymphocytes are the immune cells involved in adaptive immunity
Antibodies recognize specific epitopes (parts of proteins) on pathogens
The epitope is the specific part of a protein that an antibody binds to
"Antibodies are proteins that recognize a specific part of a specific protein. Those proteins are
typically found on the surface of bacteria or cells and those are going to be called epitopes."

MHC Class Location Function
Class I All nucleated cells Display self-peptides and
abnormal peptides
Class II Antigen presenting cells Display processed foreign
peptides

Adaptive Immunity: T Cells and B Cells
Immature CD4 T Cells and CD8 T Cells
(00:11:06 - 00:11:19)
MHC class II molecules from antigen-presenting cells display peptides to immature CD4 T cells
This interaction helps mature the CD4 T cells into helper T cells
CD8 T Cells
(00:11:19 - 00:11:31)
MHC class I molecules are displayed to immature CD8 T cells
This interaction helps mature the CD8 T cells into cytotoxic T cells
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 6/9
8/27/24, 6:12 PM Platform | Study Fetch

Adaptive Immunity Lymphocytes
(00:11:31 - 00:11:46)
Adaptive immunity has two main types of lymphocytes: B cells and T cells
T cells can be further divided into:
Cytotoxic T cells (also called killer T cells)
Helper T cells

B Cells and Antibody Generation
(00:11:46 - 00:12:09)
B cells are responsible for generating antibodies
B cells mature in the bone marrow, while T cells mature in the thymus
Plasma cells are the mature B cells that produce antibodies
CD8 Cytotoxic T Cells
(00:12:22 - 00:12:34)
CD8 T cells are cytotoxic and use cell-bound "antibodies" to identify and kill target cells
CD4 Helper T Cells
(00:12:34 - 00:12:47)
CD4 T cells have a more regulatory, mediator role in modulating the immune response
B Cell Clonal Selection
(00:12:47 - 00:13:10)
B cells undergo clonal selection based on how tightly their surface antibody binds to an antigen
Tighter binding leads to B cell proliferation and clonal expansion
Memory B Cells
(00:13:10 - 00:13:21)
Memory B cells store antigen information for decades without releasing antibodies
They can quickly reactivate to produce antibodies upon re-exposure to the antigen
Plasma Cells
(00:13:21 - 00:13:43)
Plasma cells are the mature B cells that actively produce and secrete antibodies
Memory B cells can differentiate into plasma cells upon reactivation
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 7/9
8/27/24, 6:12 PM Platform | Study Fetch

Antibody Structure
(00:13:43 - 00:14:08)
Antibodies are composed of heavy and light chains
The variable regions at the ends bind to specific antigens

The Immune System: Antibodies and T
Cells
(00:14:08 - 00:14:22)
The constant region of an antibody helps with recognition by other cells
The variable region of an antibody gives it specificity to a particular epitope or substrate
(00:14:22 - 00:14:36)
Different types of immunoglobulins (antibodies):
IgM - the first to be produced, very large, does not cross the placental barrier
IgA - passes to the newborn
(00:14:36 - 00:14:50)
IgE binds to allergens and triggers histamine release, causing anaphylactic shock
IgD has an unknown function
IgG can cross the placenta
(00:14:50 - 00:15:03)
IgG can also activate opsonization and complement
(00:15:03 - 00:15:21)Mnemonic for Immunoglobulins:
IgM - "IG most" (takes up the most space)
IgA - "IGA" (a dimer)
IgE - "IgE" (Eve has allergies)
IgD - "IG don't" (unknown function)
IgG - "IG go" (can cross the placenta)
(00:15:21 - 00:15:33)B Cell Functions:
Activate complement system
Coat and neutralize antigens
Tag antigens for removal
(00:15:33 - 00:15:52)Mnemonic for B Cell Functions:
"BC BG" (a high-end fashion company)
"The fashion style is so trendy that even people compliment the coat tags"
(00:16:05 - 00:16:20)
T cells recognize and kill cells through their T cell receptor, which binds to antigen presented on
MHC
https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 8/9
 (00:16:20 - 00:16:33)
8/27/24, 6:12 PM Platform | Study Fetch

If MHC II presents the antigen, T cells will activate and become helper T cells
If MHC I presents the antigen, T cells will activate and become cytotoxic T cells
(00:16:33 - 00:16:49)Mnemonic for CD4/CD8 and MHC:
CD8 x 1 = 8 (CD8 T cells recognize MHC I)
CD4 x 2 = 8 (CD4 T cells recognize MHC II)
(00:16:49 - 00:17:02)
CD8 T cells recognize MHC I
CD4 T cells recognize MHC II
(00:17:02 - 00:17:20)
Memory T cells persist in the body and respond quickly upon re-infection
(00:17:20 - 00:17:30)
You've mastered the immune system! Lots of different cell types and CDs to remember, but
you've got this!

https://www.studyfetch.com/platform/studyset/66cd116dd279f5220d947c66/material/66ce2cc6f069b6d6b89c5eb3/document?go=note 9/9