Immune Response Summary PDF

Summary

This document summarizes the human immune response, explaining innate and adaptive immunity and various immune cells. It describes the first and second lines of defense, including physical and biochemical factors, cellular components such as phagocytes and natural killer cells, and humoral components like cytokines and complement. The document also touches upon the roles of different cell types in the immune response.

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Summarization of Immune Response
The B cell finds an antigen which matches its receptors
It waits until it is activated by a helper T cell
Then the B cell divides to produce plasma and memory cells
Plasma cells produce antibodies that attach to the current type of invader
Eater cells prefer intruders marked with antibodies and eat loads of them

3 IMMUNITY If the same intruder invades again, memory cells helps the immune system to activate

IMMUNITY
Sum total of defense mechanism of the human body to resist infectious disease. it is the total processes 1. Natural/Innate/Non-specific
that occur to defend the body against foreign organism and molecules. Primary Defense Mechanism against
Infection this is the ability of an individual to resist
infection by means of normally present body
functions

2. Acquired/Adaptive/Specific
this is a type of body resistance that is
characterized by specificity of each type of
pathogen
Natural / Innate / Nonspecific Immunity SYSTEMS
Present at birth 1. External Defense System
Non-specific responses
Response is immediate First line of defense
Response is standardized consists of structural barriers that prevents
Pattern-recognition molecules most infectious agents from entering the body.
No memory
Rarely malfunctions
2. Internal Defense System
Second line of defense
consists of internal components that promote
inflammation and phagocytosis

First Line of Defense 2. Biochemical factors
flush microbes; the body fluids all
1. Physical factors have protective effects
Secretions saliva
Intact skin impervious to almost all organisms. Skin sweat
shedding has a cleansing effect tears
Very low pH of vagina and not conducive for the growth of
Protects epithelial cells, organisms are stomach microorganisms.
trapped in the mucus and are removed
Viscous mucus by coughing. 3. Miscellaneous Physiologic factors
Coughing and sneezing
Beating of cilia of epithelial cells Body temperature can make it difficult for certain microorganisms to thrive inside our bodies
Oxygen tension an aerobes can grow and multiply in the lungs because of high oxygen tension
Vomiting and 1.through vomiting and diarrhea, we
diarrhea can eliminate pathogenic organisms plays a role in immunity, it was found that patients receiving corticosteroids
Hormonal balance have decreased inflammatory responses and high susceptibility to infectious
agents
Age it’s proven that there is sub-optimal responsiveness for extreme ages, those
who are very young and very old
second line of Defense 2. humoral Components
Cytokines interferons and interleukins
1. Cellular Components
Complement alternative and lectin
are capable of phagocytosis the end product of Complement activation is cell lysis or cell destruction.
Phagocytic cells second main line of defense
Eg: Neutrophils, Eosinophils,
Monocytes
cytotoxic lymphocytes which can
kill tumors and virally infected cells
as well as parasitic, fungal and
bacterial organisms
Produce Perforin – pore-forming
Natural killer cells proteins that polymerize in the
presence of calcium and form
channels in the target cell
membrane. This is an important
step in cell lysis or destruction of
target cell.

Cellular components: granulocytes Cellular components: granulocytes
neutrophils Eosinophils
they have the shortest life span. The neutrophils are Eosinophils suppress inflammatory reactions. These
considered as the principal leukocytes associated with eosinophils have some phagocytic ability, are also capable in
phagocytosis and localized inflammatory responses. killing some parasites and they produce major basic proteins
Responds to Chemotaxins; substance released by a bacteria, and eosinophil cationic protein.
injured tissue, as well as White blood cells that stimulates the
movement of neutrophils and other white blood cells to the
site of injury.

basophils
have granules that contain histamine and heparin. Basophils play a
role in Hypersensitivity reactions
 Macrophages
Cellular components: agranulocytes tissue cells that play
a role in immunity Consist of monocytes (in blood) and macrophages (in tissues)
Macrophages are transformed monocytes, they are activated by
Monocytes contact with microorganism or by cytokines from T lymphocytes
Monocytes are not granulocytes, they are considered as Play a role in phagocytosis; they eliminate bacteria, intracellular
Mononuclear parasites, as well as tumor cells. They also secrete cell mediators;
Plays a role in phagocytosis, they process and present they also take part in the Antigen presentation.
antigens to Lymphocytes Macrophages
Also migrates to tissues, they become macrophages and Alveolar macrophages (lungs)
they also respond to Chemotaxins Histiocytes (connective tissues)
Releases Interleukin-1 and other cytokines Kupffer cells (liver)
Phagocytes die as small pus cells; Phagocytes are the first to Mesangial cells (kidney)
migrate to the site of infection. Microglial cells (brain)
Monocytes do not stay in the blood circulation long they Osteoclasts (bone)
migrate to tissues within 30 (thirty) hours where they Splenic macrophages (spleen)
differentiate into macrophages Peritoneal macrophages (peritoneal fluid)
Dendritic cells (lymph nodes)
Langerhans cells (dendritic cells in the skin)

lymphocytes that contribute to NON-SPECIFIC
IMMUNITY
mast cells
natural killer cells
connective tissue cells that resemble basophils but they are
larger and they have more granules. They play a role in Non-T, Non-B
hypersensitivity reactions. Markers: CD 16 and CD 56
Percentage: 10 to 15% of lymphocytes are natural killer cells.
they are the first line of defense against tumor cells and
cells infected with viruses (viral)
Dendritic cells They are considered as the bridge between the innate and
acquired immunity
they are the most EFFICIENT antigen presenting cells
They present antigens to the Helper T Lymphocytes in blood
and lymphoid organs. Lymphokine-Activated Killer Cells Antibody-Dependent Cytotoxic Cells
Initiates Acquired Immune responses; they also play a role in
phagocytosis. They use interleukin 2 to help lyse Tumor cells; Can lyse antibody-coated target cells
Specifically kill cancer cells.
Pathogen-Associated Molecular Patterns and Pattern-Recognition Receptors (PRRs)
Pattern-Recognition Receptors
Secreted PRRs
Pathogen-Associated Molecular Patterns (PAMPs) these are molecules that circulate in the blood and the lymph; they are
molecules associated with groups of pathogens that considered as circulating proteins that bind to PAMPs on the surface of
are recognized by the cells of innate immune system. many pathogens

Pattern-Recognition Receptors (PRRs) Phagocytosis Receptors
these are the receptors of the Innate immune
system that recognize the PAMPs these are cells’ surface receptors that bind the pathogen initiating a
signal leading to the release of effector molecules

Toll-Like Receptors
these are set of transmembrane receptors that recognize different
types of PAMPs; they are found on Macrophages, Dendritic cells, and
Epithelial cells.

CYTOKINES
Cytokines are small proteins that are crucial in controlling the growth and
activity of other immune system cells and blood cells. When released in
the circulation, they signal the immune system to do its job. Cytokines
affect the growth of all the blood cells and other cells that help the
body’s immune and inflammatory responses. Other textbooks refer to
cytokines as small secreted proteins released by cells that have a
specific effect on the interactions and communications between cells.
Cytokine is a general name other names include the following:

Lymphokine made by lymphocyte
Monokine made by monocytes
Chemokine cytokine that has chemotactic activities

Interleukin cytokine made by one leukocyte and acting on other
leukocytes
INTERFERON TYPE 1
said to be non-immuned
Interferon are proteins that are produced by virally infected cells to protect neighboring cells. The interferons produced primarily in the initial innate response to viral infection.
induce the neighboring cells to produce antiviral proteins that interfere with the viral messenger RNA
FUNCTIONS: a. IFN - alpha
Inhibit viral replication in the neighboring uninfected cell secreted by leukocytes
Activate macrophages induced by viruses or synthetic polynucleotides
Enhance T-cell activity major producers: Natural Killer cells or the null cells
Increase cytotoxic action of Natural Killer cells referred to as leukocyte interferon.

B. IFN - beta
secreted by fibroblasts
induced by viruses or synthetic polynucleotides
major producers: fibroblasts or epithelial cells
referred to as fibroepithelial interferon

TYPE 2
said to be mmuned
tumor-necrosis factor
produced primarily as a component of a specific immune TNFs are cytotoxic against tumor cells and virally infected cells
response to viral organisms and other pathogens
TNF-alpha TNF-beta
a. IFN - gamma Also known as Cachectin / cachexin Also known as Lymphotoxin
stimulation with a specific antigen The TNF-alpha is produced by macrophages Produced by CD4+ and CD8+ cells.
secreted by lymphocytes following a stimulation
with a specific antigen
major producers: T cells
referred to as the immune interferon
INTERLEUKINS IL-3: hematopoiesis IL-6: induces the acute phase response of
multicolony - stimulating factor inflammation
Interleukins is any of a group that is naturally occurring proteins that mediate communication between cells.
Interleukins regulate cell growth, differentiation and motility. They are particularly important in stimulating IL-3 induced hematopoiesis IL-6 induces the acute phase response of inflammation
immune responses such as inflammation formerly known as the multicolony - synthesized by several cells in response to IL-1 and TNF
stimulating factor IL-6 causes hepatocytes to synthesize several plasma proteins
IL-1: pro-inflammatory cytokine
produced by activated phagocytes
has immunoregulatory functions and endocrine
effects
IL-1 induces fever

IL-2: T cell growth factor
IL-2 activates NK cells to become lymphokine-
activated killer cells
formerly known as T cell factor

Acute Phase Reactants Betalysin
These are proteins that increase due to Betalysin is a heat stable cationic substance with bactericidal activity found in the serum of many animal
infection, injury or trauma species including humans.
Examples: An antibacterial protein that is released from the blood platelet when they rupture
C-reactive Protein (CRP) Active primarily against gram positive bacteria except from Streptococcus.
Serum Amyloid A (SAA)
Fibrinogen
Haptoglobin complement
Ceruloplasmin
Complement is a series of proteins that are normally
present in serum whose overall function is the
mediation of inflammation
End product of the complement activation is cell lysis
or destruction.
Complement proteins have the following functions:
Activation of the immune system
Opsonization
Cell lysis
 Lysozyme PHAGOCYTOSIS
Lysozyme hydrolyzes the mucopeptide layer The most important function of the
of the cell wall of many different bacteria internal defense system
It is present in tears, saliva, nasal secretions Phagocytosis results in the destruction of
and other body fluids. foreign cells and organisms.
Neutrophils kill ingested organisms through
oxidative metabolism or respiratory burst.
rapid release of reactive oxygen species
such as superoxide anion and H2O2 from
different type of cells

PROPERDIN
Properdin is a serum protein that exerts bactericidal and
virucidal effects in the presence of C3 and Mg. The C3 is a
complement protein.

STEPS IN PHAGOCYTOSIS INITIATION
1. Initiation phagocytosis is initiated as a result of tissue damage because of trauma or as a result of a microorganism
Physical contact between the phagocytic cell and the multiplication
microorganism occurs Note: This is referred to as the activated phagocyte has increased surface receptors that allow for adherence
adherence
RECEPTORS
2. CHEMOTAXIS Complement receptor
Outflowing of the cytoplasm to surround the microorganism Laminin receptor
3. ENGULFMENT Leucy!-Formyl-Methionyl-Phenylalanine
Formation of Phagosome: happens when the cytoplasm is Receptor
completely surrounded by a part of cell membrane
Formation of Phagolysosome: happens when the cytoplasmic
granules fused with the membrane of the phagosome,
emptying the contents into this membrane bound space.
4 DIGESTION
Digestion of the microorganism by Hydrolytic enzymes
Excretion of contents of phagolysosome to the outside by
exocytosis
CHEMOTAXIS JOB’S SYNDROME LAZY LEUKOCYTE SYNDROME
Process by which cells tend to move in a certain direction under the stimulation of a chemical substance called the phagocyte have normal random activity but both random and chemotactic activity of
chemotaxin. abnormal chemotactic activity phagocytes are abnormal
CHEMOTAXIN
substance release by bacteria, injured tissue, and
leukocytes that stimulates the movement of
neutrophils and other WBC to the injured area.

Diapedesis
when cells emigrate from capillaries

Chemokynes
group of cytokines involves the activation of WBC
during migration across the endothelium
POSITIVE: towards the source of stimulation
NEGATIVE: is away from the source of stimulation

engulfment digestion
Occurs via Active amoeboid motion aka Cytopepsis
formation of phagolysosome, minute cell particles that contain hydrolytic enzyme and peroxidase approach the
OPSONIZATION phagosome, fuse with it forming the phagolysosome and there is a rupture and discharge of the contents of
process of enhancing phagocytosis via the phagolysosome the cells become degranulated as foreign materials are digested
presence of opsonins; coating of particles with
plasma factors to speed up phagocytosis

OPSONIN
interact with surfaces of bacteria rendering them
acceptable in the phagocyte
Examples:
-Complement (C3b: most potent, C4a, C5b),
antibodies, fibrinonectin, leukotrienes, and tuftsin
End product of engulfment: phagosome, or
phagocytic vacuoles
FACTORS THAT ENHANCE PHAGOCYTOSIS ANTIGEN DESTRUCTION
Integrins Phagolysosome defensins, lactoferrin, and lysozyme
enhance cell-to-cell interaction Nitric oxide produced by activated macrophages which is toxic to microorganisms
cell surface proteins, important during inflammation and
immune responses reactive oxygen intermediates (superoxide anion, hydrogen peroxide, hydroxyl
Opsonins NADPH oxidase radicals); present in phagosome membrane leading to the production of reactive
coat particles oxygen intermediates
Complement proteins most potent: C3b
crystallizeable fragment; enhance
Fc of Ig interaction between phagocytic cells and
antibody coated particles
Fibronectin causes neutrophils and target cells to
stick together
Leukotrienes arachidonic acid
Tuftsin found in the spleen it has chemotactic
and phagocytic activities

INFLAMMATION STAGES OF INFLAMMATION
Tissue reaction to injury that is due to physical and chemical agents including microorganisms; sequence of Vascular Response:
events following tissue damage that protects the host from foreign invaders and also attempt to minimize
tissue damage Mast cells: release of histamine
Dilation of blood vessels
It is the over-all reaction of the body to injury or invasion by an infectious agent Redness and heat experienced because of the blood to the affected area
Endothelial cells contract that increases the permeability and allows fluids in the plasma to leak in the tissues
SIGNS that causes swelling and pain
Rubor redness Swelling and pain
Tumor swelling
Calor Heat
Dolor pain
Functio laesa loss of function
Cellular Response Cellular RESOLUTION AND REPAIR
Neutrophils: major cells present during infx; mobilized by chemotaxins within 30-60 mins after injury, they last Fibroblast proliferation- replace the old and dying cells
for 24-48 hours, presence indicate ACUTE INFLAMMATION Totally repaired
Monocytes/Macrophages: arrived much later peak at 16-48 hours; when phogocytic cells die they become pus Abscess: with some loss of function
cells; second to migrate and long-live: CHRONIC INFLAMMATION Granuloma: due to T-cell accumulation that is typical of delayed hypersensitivity or cell-mediated immunity
Fibrinogen: forms a clot; gives strength to the wound

Natural Immunity CELLULAR HUMORAL acquired/adaptive/specific Immunity
Also known as innate/non-specific immunity Mast cells Complement relies on genetic events and cellular growth
Composed of cellular and humoral components Neutrophils Lysozyme
Macrophages Interferon 1. Formed after exposure – to a non-self particle or to a pathogen
INherent qualities 2. Antigen-dependent - response
3. Lag time between exposure and maximal response – the response develops over the days
EXTERNAL DEFENSE SYSTEM skin, mucous membrane; structural barriers that prevent infectious agents 4. Antigen-specific – it is very specific. Each cell is genetically programmed to respond to a single antigen
from entering the body 5. Uses antigen-recognition molecules
NK cells, inflammation; cells and soluble factors involve in immunity; phagocytosis 6. Immunologic memory – exposure results in the induction of memory cells, so acquired immunity has immunologic
INTERNAL DEFENSE SYSTEM is under internal defense system memory on repeated exposures, the response becomes faster, stronger, and qualitatively different
7. Frequently malfunctions – may lead to autoimmunity and immunodeficiency
CELLULAR ANTIGEN ELIMINATION
LYMPHOCYTES T-helper cells, cytotoxic T-cells, memory B-cells, plasma cells Important process: Phagocytosis
ANTIGEN PRESENTING CELLS (APC) Macrophages, monocytes, dendritic cells, B cells most injected antigens are removed within minutes but complete removal may take months or years

HUMORAL Antibody Production
CYTOKINES the lymphokines are cytokines produced by T-cells. Cytokines are small A. Primary Response
proteins that stimulate or inhibit many normal cell functions Latent phase: No antibody is produced for about 5 to 7 days so during this time the host is producing plasma
ANTIBODIES are immunoglobulins produced by plasma cells in response to an antigen cells that will secrete antibodies.
COMPLEMENT for acquired immunity, the pathway involved is the classical pathway First immunoglobulin to be produced: IgM is the first antibody produced although a small amount of IgG is made
later the majority of immunoglobulin produced during the primary response is the immunoglobulin M or IgM so
remember for the primary response antibody production starts slowly and then it peaks it levels off then it
declines
1. Lag Phase - no antibody is detectable
2. Log Phase - antibody titer will increase logarithmically
3. Plateau Phase antibody tier stabilizes
4. Decline Phase - the last phase, the antibody is catabolized
B. SECONDARY Response B. CELL-MEDIATED IMMUNITY
Latent phase: short latent phase. This usually ranges from three to five days Defense against viral and fungal infections, intracellular organisms, tumor antigens, and graft rejection
Predominant immunoglobulin: IgG is the predominant immunoglobulin. There is higher antibody concentration and T CELLS T-cells are thymus derived cells
the circulating antibody titer is much higher and last longer than in the primary response. You can also see the
presence of memory cells. So the secondary response is also known the anamnestic response CYTOKINES Occurs via cell-to-cell contact
Cytokines are soluble products secreted by cells.
TYPES OF Adaptive Immunity
A. HUMORAL IMMUNITY
B CELLS bursa or bone marrow derived lymphocytes
produced by plasma cells
ANTIBODIES antibody mediated
Plasma cells are derived from the b cells
PRIMARY DEFENSE AGAINST examples of humoral response is the active and passive antibody
BACTERIAL INFECTION production

Types of ImmunizatioN ROUTES OF ADMINISTRATION
1. ACTIVE IMMUNIZATION INTRAMUSCULAR AND considered as the most common methods
Involves administration of vaccines to recipients SUBCUTANEOUS
Administration of killed or attenuated microorganisms or their products to the recipients INTRADERMAL OR used as a route for re-vaccination
Vaccines are unable to cause disease but are still immunogenic. INTRACUTANEOUS
For attenuated vaccines, they induce both cell-mediated and humoral immunity. ORAL used for polio vaccine or sabin vaccine
INTRANASAL used for some influenza vaccines
2. PASSIVE IMMUNIZATION
There is administration of 3 basic types of serum preparation:
ANTITOXIN toxin neutralizing antibody, it is specific to a given toxin
IMMUNE GLOBULIN OR used for passive immunization against various diseases and maintenance of
GAMMA GLOBULIN immunodeficient individuals
SPECIFIC IMMUNE obtained from people who have recently recovered form a specific
GLOBULIN infectious disease or hyperimmunized human volunteers.
SPECIFIC IMMUNITY MODE OF AQCUISITION NATURAL ACTIVE NATURAL PASSIVE
this develops during convalescence from an infection or recovery from a Infection Colostrum
NATURAL ACTIVE disease like chickenpox. Transplacental transfer
develops after the placental passage of antibody from mother to fetus.
NATURAL PASSIVE Immunity results from utero transfer to the fetus of antibodies formed
earlier by the mother. Antibodies may also be transferred through the artificial ACTIVE ARTIFICIAL PASSIVE
colostrum. RhoGAM
immunity is obtained after vaccination. This is acquired by injection of Vaccination HBIg - Hepatitis B immune globulin
ARTIFICAL ACTIVE synthetic or biological preparations such as vaccine, toxin, and toxoid.
Immunity is obtained after injection of gamma globulin for the induction of provides immediate short term protection against
ARTIFICIAL PASSIVE an immune state. Immunity is acquired by injection of immune sera or anti- hepatitis B infection. Has large amounts of hepatitis
toxin originally manufactured by a human or an animal. B antibodies taken from donated human blood.

SPECIFIC IMMUNITY MODE OF AQCUISITION Stages of Immune Response
BASIS OF DIFFERENTIATION ACTIVE IMMUNITY PASSIVE IMMUNITY
MODE OF Induced after effective contact Transmitted by antibodies (and
ACQUISITON with antigen cells) pre-formed in another host

ADVANTAGES Long term resistance Prompt availability of large
Cell-mediated immunity amounts of antibodies
Slow onset of resistance Short life span
DISADVANTAGES Requires prolonged and repeated Possibility of allergic reactions
contact with antigen

Convalescence Placental passage of antibody
COMMON EXAMPLES Vaccination Colostrum
Exposure to microbial products Injection of antiserum or gamma
globulin
Differentiation of Natural and Acquired Immunity
NATURAL IMMUNITY ACQUIRED IMMUNITY
External and internal components Third line of defense
Resistance not improved by repeated infections Resistance improved by repeated nfections
Factor involved: lysozyme Factor involved: antibodies
Cells involved: phagocytes, natural killer cells Cells involved: T and B lymphocytes
Not specific and without memory Specific and with memory