Core Principles

Question 1

What are the two major roles of the immune system?

Answer 1

1. Host defense against microbial invaders (bacteria, virus, fungi)
2. Defense against harmful assaults leading to trauma (tissue damage, environmental irritants, ionizing radiation)

Question 2

When facing invasion by infection, what does the immune system recognize and differentiate between?
When there needs to be wound healing or regulation of body homeostasis, what does the immune system recognize?

Answer 2

1. Self and non-self

2. Danger signals which are self substances released from the tissue to signal damage or aberrant metabolism

Question 3

What is by far the most important role of the immune system?

Answer 3

Defense against microbes

Question 4

What is the first line of defense against immune threats?
What is the time frame?
What 2 actions does it usually involve?
When did this defense arise evolutionarily?

Answer 4

The innate immune system - immediate response
It usually involves:

1. inflammation to sterilize the body and block the assault by “walling off” the injury
2. Activates downstream host defenses including adaptive immunity

Innate immune system appeared early in evolution (amoeba)

Question 5

What is the second line of defense in the immune system?
What is the time frame?
What is different between this systems sensing mechanisms from those of the first line of defense?
When did it develop evolutionarily?

Answer 5

1. Adaptive immune system
2. If microorganisms break through innate immune system, adaptive will respond but will be delayed
3. The sensing mechanisms are more focused and specific
4. Arose in jawed vertebrates (present in frogs and fish)

Question 6

What system allows us to develop memory?

What is the benefit of memory?

Answer 6

The adaptive immune system allows for the development of memory and it allows us to respond more rapidly and effectively to a subsequent attack by the same invader

Question 7

What genetic factor is the hallmark of the mammalian immune system?
How does it arise?

Answer 7

Polymorphism - variability of genes encoding immune components in different populations

It arises from selective pressures exerted by fast evolving pathogens in distinct geographical regions

Question 8

What is the major consequence of of polymorphism in genes encoding immune response?

Answer 8

High variable pattern in how different species and different individuals within the same species respond to pathogens

Question 9

What would be a negative feature of having too powerful of an immunity against foreign invaders?

Answer 9

There is a greater chance for “friendly fire” against “self” which can damage the host.

Question 10

What percent of people in the world die of infectious disease?

Answer 10

1/4 or 25.9%

Question 11

What were the three big infectious diseases of the past that caused global pandemics?

Answer 11

Smallpox, tuberculosis, plague

Question 12

Even if the human immune system is healthy, what can cause it to fail?

Answer 12

The subversion of the microbe (adapting and mutating to enhance survival and dodge detection)

Question 13

What are the top 6 infectious disease killers of 2002?

Which are caused by a single agent?

Answer 13

1. Lower respiratory
2. HIV/AIDS- single agent
3. Diarrheal
4. TB- single agent
5. Malaria- single agent
6. Measles, pertussis, tetanus

Question 14

What were the three most life threatening diseases of the us in 2008?

Answer 14

Heart disease
Neoplasm
Lower respiratory

(influenza -8, sepsis-10)

Question 15

What two major initiatives drastically reduced the prevalence of infectious disease related deaths?

Answer 15

1. Improved sanitation

2. Vaccination programs

Question 16

How many cancers are caused by the failure of the body to eradicate a virus, bacteria or parasite?
What are the three most common pathogenic causes?

Answer 16

1/6

Helicobacter pylori- gastric
Hepatitis B and C- liver
HPV- mainly cervical but can affect other areas (female or male)

Question 17

Healthy inflammation plays a role in what three things?

Answer 17

1. Wound healing
2. Tissue regeneration
3. Regulation of metabolic pathways (after pathogen induced or external trauma)

Question 18

What is an immune privileged site?

Answer 18

Tissue that does not regenerate like the eye, brain, testes or maternal-fetal interface

So it is extra important for the immune system to work in these areas

Question 19

What are the six main ways our immune system can fail?

Answer 19

1. Immunodeficiency
2. Acute inflammation and sepsis
3. Chronic inflammation
4. Autoinflammatory Disease
5. Hypersensitivity
6. Autoimmune disease

Question 20

What is an immunodeficiency?
What age groups experience this and why?
What non-age related factors can cause it?

Answer 20

When one or more components of the immune system is absent or reduced.
Newborns/children- immaturity of the system
Elderly- immunosenescence

Diet, stress, radiation, cancer, genetics

Question 21

What is the major example of pathogen acquired immunodeficiency?

What is the major example of inherited immunodeficiency?

Answer 21

HIV

SCID- bubble boy disease

Question 22

What causes sepsis?

What can it lead to?

Answer 22

When an infectious organism escapes the infected tissue and spreads through blood circulation and lymphatics to overwhelm the host.

It can lead to organ dysfunction.

10th leading cause of death in the world

Question 23

What causes inflammation to be chronic?
Why is chronic inflammation harmful to the host?
What two actions does it do simultaneously?

Answer 23

1. Persistence of the pathogen in the host
2. It leads to a shift in cell type at the site of inflammation and produces harmful mediators
3. It destroys tissue and regenerates/scars

Question 24

What are the 5 non-immunological disorders listed that may be caused by chronic inflammation?

Answer 24

1. Atherosclerosis- immune inflammation leads to the initiation, progression and thrombotic complications
2. Obesity and type 2 diabetes- excess adipose triggers inflammation
3. Cancer- proliferation, survival and migration of neoplasms
4. Depression- stress and alcohol activate the innate immune system
5. Acute inflammation promotes muscle growth , but chronic inflammation promotes muscle loss

Question 25

What is autoinflammatory disease?
What normally causes it?
How does it differ from autoimmune disease?

Answer 25

Autoinflammatory disease is where the innate immune system turns against self for unknown reasons (without an intruder).
It is caused by a strong genetic component and can be neonatal.

It differs from autoimmune disease because autoimmune disease is when the adaptive immune system attacks self.

Question 26

What is autoimmune disease?
What are the most common in the US?
What is the cause?
Does it affect more men or women?

Answer 26

When the adaptive immune pathways recognize and damage self instead of “non-self”.
Hypo and hyperthyroidism, rheumatoid arthritis, vitiligo, type 1 diabetes, mult. Sclerosis, lupus, myasthenia gravis

Strong genetic influence- affects more women than men

Question 27

What is hypersensitivity?

Answer 27

Inappropriate response to foreign or self-derived antigens that can lead to self-damage independent of the antigen

Question 28

What is type 1 hypersensitivity mediated by?

What are examples of reactions?

Answer 28

Ig-E mediated

Respond to allergens like hay fever, asthma, food allergies

Question 29

What is type 2 hypersensitivity mediated by?

What does it react to?

Answer 29

Antibody mediated

Responds to blood transfusions

Question 30

What is type 3 hypersensitivity mediated by?

What does it respond to?

Answer 30

Immune complex mediated

Responds to serum sickness, SLE

Question 31

What is type 4 hypersensitivity mediated by?

what can it also be called?

What does it respond to?

Answer 31

Cell mediated

Delayed type hypersensitivity because it takes time to develop

Graft-rejection, dermatitis, most auto-immune disorders

Question 32

Which hypersensitivity is associated with autoimmune disorders?

Answer 32

Type 4 although there can be aspects of other types

Question 33

What are the three listed examples of immunomodulatory drugs?

Answer 33

1. Anti-inflammatory
2. Immunosuppressant
3. Monoclonal antibodies

Question 34

What are examples of anti-inflammatories?

Answer 34

Aspirin, ibuprofen, Tylenol, acetaminophen, roids

Question 35

When would you use an immunosuppressant drug?

Answer 35

Transplants and grafts (anything where there would be implication of autoimmune, auto inflammatory, or hypersensitivity)

Question 36

What are the 6 current challenges listed for immunology?

Answer 36

1. Vaccine development
2. Vaccine implementation
3. Treatment and prevention of rare diseases
4. Transplantations (organ and marrow) and stopping rejection of grafts
5. Personalized medicine to the patients specific polymorphic immune system
6. Monoclonal antibody reagents for diagnosis

Question 37

How many Nobel prizes have been in immunology?

What was Dr. Beutler’s prize for?

Answer 37

21

Activation of innate immunity regarding the dendritic cell

Question 38

What bacteria caused the bubonic plague? How was it nearly eradicated?

Answer 38

Yersinia Pestis- essentially eradicated by improved sanitation

Question 39

What type of pathogen caused smallpox?

Answer 39

variola virus

Question 40

What observation led to Edward Jenner’s discoveries?

Answer 40

Milkmaids who had been infected by cowpox were not susceptible (“immune”) to smallpox outbreaks

Question 41

How did Jenner test his hypothesis about acquired immunity?

Answer 41

He inoculated a 12 year old boy with scrapings from a cowpox lesion and the boy developed one “cowpox” at the site of the lesion.
Next, he inoculated the boy with scrapings from a smallpox lesion and found the boy did not develop the disease = acquired immunity.

Question 42

What was a negative consequence of Jenner’s study?

Answer 42

Physicians started inoculating patients with mildly virulent smallpox with the hopes that the people would become resistant to more severe cases of the smallpox later.
Obviously, some of these patients got very severe cases.

Question 43

What are the names of the smallpox and cowpox viruses?

Answer 43

smallpox- variola

cowpox- vaccinia

Question 44

Why is cowpox able to serve as an attenuated virus of smallpox?

Answer 44

The have similar antigens thus making them able to elicit an adaptive response from the immune system

Question 45

Cowpox and Smallpox viruses are perceived by the immune system as a combination of ___________and produce ________ to structurally bind to them. This allows them to generate ______________.

Answer 45

antigens; antibodies;acquired immunity

Question 46

What was Lois Pasteurs theory and what was he able to create vaccines for?

Answer 46

Germ theory (germs arise from other germs)

Anthrax and rabies

Question 47

Who was responsible for developing a set of postulates for demonstrating that an organism causes infectious disease?
What pathogenic microorganisms did he work with?

Answer 47

Robert Koch-

Cholera, tuberculosis and anthrax

Question 48

What were the three steps taken in von Behring, Kitasato and Ehrlichs discovery of passive immunization?

Answer 48

1. Attenuate strains of pathogen to make less toxic forms
2. Inject attenuated strain into healthy animal –> Still healthy; inject unattenuated strain–> animal dies
3. Do multiple injections of the attenuated strain into an animal, take that animals plasma (anti-serum) and inject into an animal that had been infected with the virulent strain–> stopped the second animal from getting sick

Question 49

Why did Erlich decide to inject the animal multiple times with attenuated serum instead of just once?

Answer 49

To build up a lot of antibodies

Question 50

What made von Behring and Erlichs study different from Jenners?

Answer 50

They found that if they injected the plasma from an immune animal, it was capable of protecting a naive animal from pathogenic Diphtheria.

Question 51

jWhat pathogen did Jenner research?

What pathogen did Erlich and von Behring do research on?

Answer 51

Smallpox; diptheria

Question 52

What is the process of transfering plasma or serum from an animal injected with an attenuated pathogen to a naive animal to protect the second from virulent strains of the pathogen?

Answer 52

passive immunity

Question 53

What were some of the side effects for serum therapy (passive immunization) discovered by von Behring?

Answer 53

1. not consistently protective
2. effective for a short period of time
3. high frequency of side effects (serum sickness)

Question 54

What diseases processes are still treated by passive immunization (serum therapy) today?

Answer 54

1. tetanus
2. diptheria
3. snake bites (venom)

Question 55

What was Landsteiner’s major contribution to immunology?

Answer 55

Characterization of blood group antigens

He analyzed protein structure to define what parts of the antigen bound to the antibody.

Question 56

Describe the steps in Landsteiner’s experimentation for antibody-antigen specificity.

Answer 56

1. covalently attached synthesized chemical compounds to horse serum proteins
2. Immunized a rabbit with these protein derivatives multiple times to generate a strong antibody response
3. Took the antibodies and tested them in lab assays to check specificity

Question 57

What were the results of Landsteiner’s study regarding chicken and horse serum?

Answer 57

Antibodies develop in response to small structural components of the serum (epitope) and not in response to the overall protein structures in the serum.
Rabbit antibodies developed in response to horse meta sulfate epitopes were more likely to bind to chicken serum with meta sulfate epitopes than horse serum with different structural features.

Question 58

What is an epitope?

Answer 58

the small chemical structure of an antigen that is specifically bound by an antibody molecule.

Question 59

Antibodies bind to molecules based on what two criteria?

Answer 59

1. the epitope

2. the position of the antigen on the molecule

Question 60

What is a “conjugate” vaccine and who developed the idea?

Answer 60

A conjugate vaccine uses derivatized proteins as the antigens to elicit and antibody response.
This is much safer and more efficient than using serum therapy.

Question 61

What did Porter and Edelman discover?

Answer 61

The structure of antibodies

Question 62

How did Porter and Edelman elucidate the structure of antibodies?

Answer 62

1. immunized rabbits multiple times to elicit production of large amounts of antibodies
2. assayed the antibodies to known antigens
3. Isolated fragments of antibody using chemical and enzymatic degradation (pepsin and papain)

Question 63

How are the light and heavy chains bound in the antibody?

Answer 63

disulfide bonds

Question 64

What are the two major regions of the antibody?

Answer 64

variable region (light and heavy)
constant region ( heavy)

Question 65

Where are the antigen binding sites on the antibody?

Answer 65

the N-terminal region of one heavy and one light chain in the variable region

Question 66

What body system is the source of immunity?

What cells produce antibodies?

Answer 66

Lymphoid system

Lymphocytes

Question 67

What two facts needed to be accounted for about the production of antibodies?

Answer 67

1. there are antibodies against virtually any chemical structure the body could come into contact with
2. there are not antibodies against self antigens

Question 68

What was Erlich’s hypothesis about how the immune system produces different arrays of antibodies?
Is it the currently held belief?

Answer 68

1. Each immune cell could produce multiple antibodies and express them on the cell surface.
2. When a foreign antigen enters and binds to one antibody, the production of more of this specific antibody are made on the cell.

This is not the currently held belief.

Question 69

What is the clonal hypothesis of antibody production?

Answer 69

1. The immune system makes many cells each with the capability of making ONE antibody.
2. There is ONE antibody on the cell surface that is unique and specific for ONE antigen
3. If an antigen binds the receptor, it will make clones of itself, which will produce a large amount of antibody

Question 70

What is the currently held hypothesis for antibody generation and specificity?

Answer 70

the clonal hypothesis

Question 71

How does the Burnet clonal hypothesis account for the elimination of self reactive antibodies?

Answer 71

1. Immune cells with unique antibodies differentiate from a common precursor.
2. Self-reactive immature lymphocytes are removed by clonal deletion

Question 72

When do immune cells become mature and move to the periphery?

Answer 72

After removal of the self-reactive antibodies, the lymphocyte matures and moves to the periphery to be activated by a foreign antigen

Question 73

How long does a primary adaptive immune response take to produce detectable levels of antibodies in the serum?

Answer 73

7-10 days

Question 74

What occurs during the lag phase of the primary adaptive immune response?

Answer 74

1. The antigen is presented to the mature lymphocyte in the periphery
2. The lymphocyte activates and proliferates
3. Immune cells (esp. B) differentiate into antibody secreting cells and start releasing antibody

Question 75

How long are antibodies able to persist in serum under normal circumstances?

Answer 75

weeks or months

Question 76

What can lymphocytes differentiate into to proliferate for longer in serum?

Answer 76

Memory cells that remain for years after the primary exposure

Question 77

During the primary adaptive immune response, what fights the pathogen while the antibodies are building?

Answer 77

effector T-cells

Question 78

Do memory cells allow our immune system to abort infection?

Answer 78

No, they just allow a faster and larger increase in antibodies after exposure to fight the infection better (accelerated and amplified)

Question 79

What body surfaces are normally colonized by bacteria?

Answer 79

1. Skin
2. Mouth
3. Nasopharynx/Lower Respiratory tract
4. GI tract
5. Urogenital tracts

Question 80

Roughly how many bacteria do we have colonizing our bodies?

How many human cells do we have?

Answer 80

10^14; 10^13

ten times as much bacteria as human cells

Question 81

What are three roles performed by commensal bacteria?

Answer 81

1. Prevent inflammation
2. Help the immune system develop
3. Take up space so virulent bacteria can’t fit

Question 82

What are the three types of host-parasite interactions?

Answer 82

Commensal
Parasitic
Mutualistic

Question 83

What are the two things a parasite uses a host for?

Answer 83

1. a source of nutrition

2. a means to reproduce

Question 84

What is commensalism?

Answer 84

Where the parasite has no effect on the host (except maybe mild benefit because it prevents inflammation, helps the immune system develop and takes up space).

Question 85

Do we make antibodies against the commensal bacteria colonizing our gut and skin?

Answer 85

Yes!

Question 86

What is mutualism?

Answer 86

The presence of a microbe directly benefits the host.

Ex. Some gut organisms synthesize vitamin K

Question 87

What is parasitism?

Answer 87

When the microbe causes harm to the host.

Question 88

What is a pathogen?

What is meant by virulence?

Answer 88

A pathogen is a microorganism that can cause harm to the host.
Virulence is a quantitative measure of how much harm the pathogen can cause.

Question 89

What is colonization and how is it different from infection?

Answer 89

Colonization is when bacteria move into normally non-sterile surfaces and does not involve a breach in the chemical or mechanical barrier separating that surface from a normally sterile tissue.
Infection is the colonization of a sterile tissue.

Question 90

How is infection different from disease?

Answer 90

Infection can be asymptomatic and may not cause illness, but disease is associated with illness.

Question 91

What are the four major classes of pathogen?

Answer 91

1. Extracellular bacteria, parasite, fungi
2. Intracellular bacteria, parasite, fungi
3. Virus (always intracellular)
4. Parasitic worms (extracellular)

Question 92

What are some examples of extracellular bacteria, parasites or fungi?

Answer 92

Streptococcus pneumonia

Clostridium Tetani

Question 93

What are some examples of intracellular bacteria, parasite, fungi?`

Answer 93

mycobacterium leprae (leprosy)
Plasmodium falciparum (malaria)

Question 94

What are examples of viruses?

Answer 94

Variola (smallpox)
Varicella (chickenpox)
Influenza (flu)

Question 95

What are examples of parasitic worms?

Answer 95

Ascaris (ascariasis)

Schistosoma (schistosomiasis)

Question 96

Where is the progenitor stem cell for all immune cells located?

Answer 96

bone marrow

Question 97

What are the two major lineages from the precursor stem cell for the immune system?

Answer 97

1. Myeloid

2. Lymphoid

Question 98

What cells in the myeloid lineage are the primary effector cells that respond immediately at the site of infection of sterile tissue?
What do they do?

Answer 98

Granulocytes (neutrophils, eosinophils, basophils)

The are phagocytic so they remove and kill the pathogen

Question 99

What lineage do monocytes arise from? What is their function?

Answer 99

They arise from myeloid lineage and they initiate inflammatory response.

They are the precursors for macrophages

Question 100

What are the three major divisions of the lymphoid lineage?>

Answer 100

B cell
T cell
NK cell

Question 101

What are the 3 major roles of dendritic cells?

Answer 101

1. initiate inflammation
2. initiate adaptive immune response by delivering antigen to T cells
3. produce cytokines for lymphocyte activation

Question 102

What does it mean that immune cell lineages are highly mobile?

Answer 102

They constantly migrate through the body surveying the tissues of the body.

Question 103

What are the two cells in the periphery responsible for phagocytosing microbes and releasing cytokines to activate lymphoid cells?

Answer 103

1. Resident macrophages

2. Dendritic cells

Question 104

Where do dendritic cells take material from the infecting pathogen?

Answer 104

into the regional lymph node to activate the adaptive immune response

Question 105

The nature of the immune response is determined by the __________ and __________.

Answer 105

1. type of infectious agent

2. efficacy of the response (did the innate immunity clear it?)

Question 106

What occurs in the first four hours after infection?

What cells are responsible for this?

Answer 106

1. The pathogen is recognized by non-specific and broadly specific effectors
2. The infectious agent is potentially removed

Resident cells and tissue fluid at the site of infection are responsible for this broad effector response.

Question 107

What occurs 4-96 hours after the infection?

Answer 107

1. More effector cells are recruited
2. PAMPs are recognized and activate effectors
3. Inflammation occurs
4. The infectious agent is potentially removed

Question 108

What happens after 96 hours (adaptive immune response)?

Answer 108

1. The antigen is transported to lymph node by dendritic cells
2. Naive B and T cells recognize the antigen
3. Lymphoid cells clonally expand and differentiate into effector cells and memory cells
4. The infectious agent is cleared

Question 109

What are the three separate effector functions mediated by antibody binding to antigens?

Answer 109

1. Neutralization
2. Opsonization
3. Complement Activation

Question 110

What is neutralization?

What is an example of a pathogen that can be neutralized?

Answer 110

Neutralization is when the antibody binds to the antigen and cancels its toxic properties and speeds up removal and degradation by the macrophage.

Ex. Clostridium-gangrene

Question 111

What is opsonization?

What is an example of a pathogen that must be opsinized?

Answer 111

When the bacteria has a polysaccharide capsule and can’t be phagocytosed by the macrophage, antibodies make it easier to be engulfed.
Ex. Haemophilus or pneumonia

Question 112

What is complement activation?

Answer 112

Bacteria in the plasma is killed by a complex of soluble enzymes that punch holes in the membrane of pathogens