Immune System - AP Chapter 21 PDF

Summary

This document contains lecture notes on the Immune System, covering anatomy, physiology, and functions. It includes details on the Lymphatic System, including components and functions, lymphatic vessels, lymphatic tissues and organs (including the Thymus and Spleen), lymphocytes and their classification, and innate immunity, cytokines, and inflammation.

Full Transcript

21: Immune System
Anatomy and Physiology in Context
Chapter 21
21.1 Lymphatic System
Chapter 21: Immune System
General Function of the Immune
System
1.Protect against foreign threat
(RECOGNIZE)
2.Differentiate these foreign threats
as non-self and engage
(RESPOND)
3.Make second response a more
effective response (REMEMBER)
 21.1.1 The Lymphatic System
Components and Functions
COMPONENTS FUNCTIONS
Collection of organs, Returns excess interstitial fluid
capillaries, vessels and tissues to the venous system

Contains fluid (lymph) that Absorbs fats from the digestive
circulates through vessels tract and returns them to the
venous system for processing
Contains lymph nodes and by the liver
nodules
Produces and matures many
immune cells
21.1.2 The Lymphatic System:
Lymphatic Vessels
Vessels begin as fenestrated
capillaries, composed of a
single layer of endothelium
attached to a basement
membrane

Lymph is transported through
progressively bigger vessels,
through lymph nodes, until it
reaches the vena cava

Larger lymphatic vessels
contain one-way valves and
smooth muscle
21.1.3 Lymphatic Tissues and Organs:
The Thymus
ANATOMY FEATURES
Flat, bi-lobed organ located in
superior mediastinum above
heart

Enlarges during childhood,
then starts to atrophy as we
enter our 20s

Each lobe is comprised of
lobules held together by
areolar connective tissue

Each lobe consists of a
21.1.4 Bone Marrow Is the Site of
Leukopoiesis
Leukopoiesis begins
in the bone marrow

Maturation may
occur in the bone
marrow, or continue
in another organ,
depending on the cell
type
 21.1.5 Lymphatic Tissues and Organs:
Lymph Nodes
LYMPH NODES: follicles consisting of lymphatic and non-lymphatic cells
surrounded by a network of lymphatic capillaries

Each is supplied by
afferent lymphatic
vessels and drained by
efferent lymphatic
vessels

Outermost cortex: B-
lymphocytes,
macrophages, dendritic
cells

Paracortex: T-
lymphocytes, dendritic
cells
 21.1.6 Lymphatic Tissues and Organs:
The Spleen
ANATOMY FEATURES
Filters blood, stores
erythrocytes, removes
defective erythrocytes/
platelets, recycles iron

Lies between 9th and 11th rib
on left side of body

Contains red pulp and white
pulp

Red pulp contains
macrophages, erythrocytes,
21.1.7 Lymphocytes and Classification

Contain a single, large nucleus, a small
amount of cytoplasm, and a wide range of
proteins expressed on their surface

B lymphocytes: develop in bone marrow

T lymphocytes: begin development in
bone marrow but complete it in thymus

Classified by surface proteins referred to
Image courtesy of Dr. Triche in the
Public Domain as Cluster of Differentiation (CD) markers
21.1.8 Lymphocytes: T Cells and the T
Cell Receptor
Cytotoxic T cells (TC)
The T cell receptor Designed to destroy virus-infected and
tumor cells
Releases perforin, granzymes and
granulysin
Memory T cells (TM)
Expresses CD8 on its surface
Carry the memory of antigen exposure
after the antigen has left the body
Regulatory T cells (TR)
Maintain immunological tolerance
Block T cell-mediated immune
responses at the end of the response
window
Other T cell types
Natural killer T cells, mucosal-associated
invariant T cells, gamma delta T cells
21.1.9 Lymphocytes: B Cells

Memory B cells
Carry the memory of previous exposure to antigen
Generated after exposure to antigen by cytokine signaling

Plasma B cells
Long-lived, non-proliferating antibody-secreting cells
Arise after exposure to antigen

Other B cell types
Plasmablasts
Follicular B cells
Marginal zone B cells
Regulatory B cells
21.1.10 Positive and Negative Selection
of Lymphocytes
Positive selection: ensures lymphocytes are able to respond to
antigen
Negative selection: removes lymphocytes that bind strongly to
self antigens
21.1.11 Outcomes of Negative Selection
of Lymphocytes
Receptor editing: change
the lymphocyte receptor
so it no longer recognizes
self antigens

Anergy: change the
lymphocyte so it is no
longer capable of an
immune response

Apoptosis: clonal deletion
and cell death

Ignorance: continue
21.2 Innate Immunity
Chapter 21: Immune System
21.2.1 Overall Flow of Innate Immunity
 21.2.2 Physical Barriers: The Skin
ANATOMY FEATURES
First line of defense against
foreign threats

Epidermis: Waterproof,
chemically resistance to
bacterial enzymes

Glands: Maintain surface pH
of 3-5, blocking the growth
of most microorganisms

Mucosal membranes contain
anti-pathogenic substances
21.2.3 Cytokines Affect Both the Innate
and Adaptive Immune Systems
Act in an autocrine,
paracrine and
endocrine manner

Produced by a broad
range of immune
cells

Overproduction of
cytokines can lead to
sickness and death
21.2.4 VIDEO: Diapedesis

Please insert the following video:

Diapedesis – Medical Animation by Arc Solutions

https://www.youtube.com/watch?v=R8VzquHdwZw
 21.2.5 Innate Immune Cells (1):
Granulocytes and Mast Cells

Most abundant Comprise ~1% of
leukocyte leukocytes
First responders to Release histamines at
NEUTROPHI BASOPHILS
site of infection LS site of infection
Release anti- Responsible for
microbial enzymes symptoms of allergies
and “NETS”
Release histamine, Comprise ~6% of
heparin and other MAST EOSINOPHI leukocytes
compounds CELLS LS Also release
Also responsible for histamines
symptoms of allergies Highly effective
against parasites
 21.2.6 Innate Immune Cells (2): NK
Cells
ANATOMY FEATURES
Able to induce apoptosis in virus-
infected and cancer cells

Release granules containing
powerful proteases and perforin

Also secrete ɑ-defensins (anti-
microbial peptides)

People with an impairment in NK
Image courtesy of The National Institutes of
cell development display a
Health in the Public Domain heightened incidence of blood
cancer
21.2.7 VIDEO: NK Cells Killing Cancer
Cells
Please insert the following video:

Natural killer cell(White blood cells) killing cancer cells

https://www.youtube.com/watch?v=Va1jaBGwoT8
 21.2.8 Innate Immune Cells (3):
Macrophages
ANATOMY PROCESS OF MACROPHAGE
PHAGOCYTOSIS
1. Macrophages drawn to site by
chemotaxis
2. Physical interaction between
macrophage and foreign threat
3. Macrophages produce pseudopodia
that extend around foreign threat
4. Pseudopodia fuse foreign threat within
a vesicle forming a phagosome
5. Phagosome is internalized, fuses with
lysosome
6. Proteases and toxic chemicals in
Image courtesy of Librepath under CC BY-SA
3.0.
lysosome kill foreign threat
7. Parts of the foreign threat are exposed
21.2.9 VIDEO: Phagocytosis by
Macrophages
Please insert the following video:

Macrophage engulfs foreign cell

https://www.youtube.com/watch?v=w0-0Bqoge2E
21.2.10 Proteins Involved in Innate
Immunity: The Complement System

Complement: refers to a family
of over 30 soluble and cell-
bound proteins

Most components are produced
in the liver in inactive forms

3 separate pathways all
converge to produce C3 and C5
convertase activities
21.2.11 The Membrane Attack Complex
Opens Pores on Target Cells
21.2.12 Inflammation Is a Stereotypic
Innate Immune Response
21.3 Adaptive Immunity
Chapter 21: Immune System
21.3.1 A Comparison of Innate and
Adaptive Immunity
 ADAPTIVE IMMUNITY

ntibody Mediated Immunity Cell Mediated Immunity

MHC ll MHC l

TH T TR TM
C

Plasma cells 2nd Response
Memory B cells

HUMORAL IMMUNITY CELLULAR IMMUNITY
 21.3.2 Components of Adaptive
Immunity: Antigens
ANATOMY FEATURES
Antigen = anything that can trigger
an adaptive immune response

The immune system recognizes
epitopes – discrete sites on
macromolecules

Any molecule has the ability to act as
an antigen, but some are more potent
than others
 Proteins are most potent, followed by
sugars
 21.3.3 Components of Adaptive
Immunity: Antibody Structure
Can be kappa or
lambda
Defines isotype o
antibody
Variabl
e
region

Consta
nt
region
 21.3.4 The Various Isotypes of
Antibodies

* There are 4 versions of IgG and 2 versions of IgA. IgM is secreted on the
surface of B cells as a monomer, but is secreted as a pentamer.
 cross present passed Ig D & IgE
placenta in through binds to mast
and neonates body cells, basophils,
protect fluids protection
fetus against worms,
hives
 21.3.5 Functions of Antibodies in
Adaptive Immunity
Antibody interaction with antigen triggers the
following:
ANTIGEN ANTIGEN ANTIGEN
NEUTRALIZATION AGGLUTINATION PRECIPITATION
Covering and Clumping of antigens Bringing antigens
blocking the surface into larger complexes out of solution,
of the antigen more readily making them more
recognized by easily recognized by
COMPLEMENTmacrophagesLYMPHOCYTE macrophages
ACTIVATION RECRUITMENT AND
Through Fc region; ACTIVATION
leading to cell lysis
and attraction of
other leukocytes
21.3.6 VIDEO: B Cell Activation and
Antibody Production
Please insert the following video:

Specific immunity, antibodies

https://www.youtube.com/watch?v=Ys_V6FcYD5I
 21.3.7 How Antibodies Recognize So
Many Antigens: VDJ Recombination

Each region is made up of small gene segments with multiple copies
Segments are combined in a random fashion, generating many
possibilities
Other modifications are also made (removal of bases from ends,
addition of extra bases) to even further increase variability
 21.3.8 Major Histocompatibility Complex
(MHC) Types and Structures
Individuals inherit one copy of each MHC gene from each parent, so
the MHC for each individual is unique
Critical means through which cells communicate about what is self
versus non-self Expressed on Only
the surface of expressed on
all cells, macrophages,
except B cells and
erythrocytes dendritic cells

Docks with Docks with
CD8 protein CD4 protein
on the on the surface
surface of TC of TH cells
cells
Interaction
Interaction leads to clonal
with CD8 growth of T
21.3.9 How Antigens Are Presented on
Antigen-Presenting Cells (APCs)
Foreign proteins are
internalized,
processed and their
fragments transported
to the cell surface as
part of the MHC

MHC I: presents
peptides from the
cytosol

MHC II: presents
peptides from
endocytotic vesicles
21.3.10 Steps of Humoral-Mediated
Immunity and Antibody Production
21.3.11 Primary Versus Secondary Antibody
Responses
Primary phase starts
with IgM, while
secondary phase
starts with IgG

Difference in primary
and secondary
response is due to
presence of memory B
cells in secondary
response

Antibodies are more
rapidly produced in
21.3.12 Cell-Mediated Immunity: Activation
of Cytotoxic T Cells
21.3.13 Cell-Mediated Immunity: Activation
of Helper T Cells
 21.3.14 FOCUS ON DISEASE: Autoimmune
Diseases
CAUSES (in general): unknown, but may include molecular mimicry,
triggering of an immune response that bypasses TH cell
involvement, or a deficiency in TR cells
TREATMENTS: immunosuppressive drugs, removal of thymus,
plasmapheresis
21.4 Aging and the Immune
System
Chapter 21: Immune System
21.4.1 Aging-Related Changes in the
Immune System
Tissues and organs related to immunity decrease in size and
become less responsive to the presence of pathogens

Elderly are more likely to have to take immunosuppressive drugs
for other conditions (e.g., chemotherapy for cancer)

Inability to produce and mature new T lymphocytes due to
replacement of thymus tissue with adipose tissue

Fewer antibodies and memory B cells are produced, reducing
vaccine effectiveness

Accumulation of damage caused by autoimmune diseases that
developed earlier