Exam 2: Dr. Pharr Immunity Mediated by B-cells and Antibodies

Question 1

What happens in the first week of the primary immune response?

Answer 1

1. Recognition of antigen
2. Activation by helper T cells. Formation of a primary focus
3. Differentiation to short-lived plasma cells

Question 2

What is a primary focus?

Answer 2

A pool of B cells resulting from the proliferation of antigen activated B cells over the course of about 3-4 days

Question 3

What do short-lived plasma cells produce?

Answer 3

IgM to clear the infection

Question 4

In the second week of the primary immune response, what steps are taken to protect against future infections with the same pathogen?

Answer 4

Development of antibodies with a new heavy chain isotype and with a higher affinity for epitopes derived from the original pathogen
Development of memory B-cells and long lived plasma cells

Question 5

How many days are there before an immune response can be seen for the first time? Second time?

Answer 5

7-10

3-5

Question 6

what is the outcome of signal one in the first week of the primary immune response?

Answer 6

Prepares B cells for collaboration with effector helper T cells

Question 7

What is formed in the second week of a primary immune response?

Answer 7

Germinal centers

Question 8

What is a germinal center?

Answer 8

A site of B cell proliferation in the B cell area of secondary lymphoid tissues

Question 9

What are the functions of germinal centers?

Answer 9

Isotype switching
Somatic hypermutation
Differentiation into either antibody-secreting long-lived plasma cells or memory B cells

Question 10

What does isotype switching allow for?

Answer 10

Efficient elimination of the pathogen

Question 11

What happens in the process of somatic hypermutation?

Answer 11

Point mutations are generated in the variable region of the heavy chain and light chain genes
B cells in the germinal center are then elected for high affinity recognition of the original antigen epitope

Question 12

What does somatic hypermutation allow for?

Answer 12

Efficient recognition of the pathogen

Question 13

What does germinal center differentiation into either antibody-secreting long-lived plasma cells or memory B cells allow for?

Answer 13

Protection from reinfection and disease

Question 14

What will long-lived plasma cells do?

Answer 14

Migrate to the bone marrow and secrete the higher affinity and isotype switched antibody that is observed during the later part of the immune response

Question 15

What will memory B cells do?

Answer 15

Maintain surveillance of secondary lymphoid tissues

Question 16

What characteristics of the antibody response will be helpful in preventing disease from the same pathogen?

Answer 16

1. The antibody response occurs more rapidly
2. Antibody levels will be higher than the level attained with the primary response
3. The antibodies produced will have a higher affinity for the antigen epitope
4. The antibody will consist of an isotype different from IgM

Question 17

What are the 2 types of antigens encountered by B cells?

Answer 17

Thymus-dependent protein antigens

Thymus-independent non-protein antigens

Question 18

What do thymus-dependent protein antigens require?

Answer 18

T cell help for B cell proliferation and differentiation

Question 19

What can the repeated epitopes of thymus-independent antigens do?

Answer 19

Engage a number of B cell receptors

Question 20

What is the multitude of signals with the thymus-independent antigen sufficient to do?

Answer 20

Induce B cell proliferation and differentiation to short lived plasm cells secreting IgM
This results in an early IgM response to an infection

Question 21

Describe mature naive B cells

Answer 21

Diverse repertoire of antibody specificities–respond to thymus-dependent antigens
Require T cell help for activation
Located in secondary lymphoid tissues
Recirculate between the blood and lymphatics

Question 22

Describe marginal zone B cells

Answer 22

Respond to pathogens in the blood
Differentiate to short-lived plasma cells secreting IgM
Located in the marginal zone of the spleen where blood is filtered

Question 23

Describe B1 B cells

Answer 23

Respond to pathogens entering the major body cavities
Differentiate into short lived plasma secreting IgM
Located in the peritoneal and pleural cavities

Question 24

What does IgM do?

Answer 24

Protects the bloodstream

Question 25

What does IgG do?

Answer 25

Protects the bloodstream, extracellular spaces in tissues, and lymphatics

Question 26

Describe IgA: Where is it? What does it do?

Answer 26

First line of defense
Present in mucous secretions
Protects epithelial surfaces

Question 27

What does IgE do?

Answer 27

Second line of defense behind IgA

Stimulates an inflammatory response

Question 28

What does IgD do?

Answer 28

Participates as a BCR on naive B cells

Question 29

In what general ways do antibodies clear infections with extracellular pathogens and their products?

Answer 29

Focus defense mechanisms onto the pathogen itself–the antibody links that pathogen with the leukocytes and plasma proteins that will eliminate it

Question 30

What do phagocytes express?

Answer 30

Fc receptors for antibody bound to a pathogen

Complement for C3b bound to a pathogen

Question 31

When is the effector function of IgM produced?

Answer 31

In the primary response to an infection

Question 32

Is IgM recognized by Fc receptors of phagocytes?

Answer 32

No

Question 33

How does IgM clear an infection?

Answer 33

It is a very potent activator of complement

It is specialized to activate complement efficiently upon binding to the pathogen

Question 34

What is C1q?

Answer 34

The first component of the classical pathway of complement activation

Question 35

What must C1q do to become activated?

Answer 35

Bind to 2 or more antibody heavy chains, which requires multiple molecules of IgG bound to the pathogen

Question 36

What are the main effector functions of IgG?

Answer 36

Neutralization*
Opsonization*
Antibody-dependent cell-mediated cytotoxicity (ADCC)

Question 37

What is neutralization?

Answer 37

Antibodies can prevent infection by coating the surface of a pathogen and therefore prevent the pathogen from binding to healthy cells

Question 38

What is an opsonin?

Answer 38

A substance that enhances phagocytosis

Question 39

What is involved with opsonization?

Answer 39

Macrophages and neutrophils

Question 40

What is involved with ADCC?

Answer 40

NK cells

Question 41

What do NK cells do in ADCC?

Answer 41

They use their Fc receptors to bind to antibody-coated cells, which they kill by inducing apoptosis

Question 42

What are the antibody coated cell recognized by NK cells?

Answer 42

Virus infected cells

Tumor cells

Question 43

When is the IgA isotype formed?

Answer 43

After a primary response to a pathogen that invaded the body through the internal epithelial linings

Question 44

What secretes IgA?

Answer 44

Long lived plasma cells

Question 45

How does IgA provide the first line of defense against reinfections?

Answer 45

IgA is present in mucus secretions that cover the internal epithelial lining of the body

Question 46

How does IgA protect the epithelial surfaces?

Answer 46

Neutralization

Question 47

Does the IgA dimer activate complement?

Answer 47

No

Question 48

What does the primary response to parasite and some bacteria result in?

Answer 48

Long lived plasma cells secreting IgE

Question 49

What is IgE important in?

Answer 49

Reinfections with parasites that invade the internal epithelium

Question 50

What does IgE provide mast cells?

Answer 50

The ability to sense pathogens

Question 51

Where are mast cells located?

Answer 51

Beneath the epithelial surfaces of the skin, respiratory tract, and gastrointestinal tract

Question 52

What do mast cells express?

Answer 52

Fc receptors for IgE

Question 53

What happens when an antigen binds IgE on the surface of mast cells?

Answer 53

The release of histamine stimulates an inflammatory response

Question 54

How does IgE provide a second line of defense agains reinfection with pathogens that invade the intestinal epithelium and enter the underlying tissue?

Answer 54

IgE is bound to the surface of mast cells and is responsible for mast cell activation in response to pathogen invasion

Question 55

What do eosinophils express?

Answer 55

Fc receptors for IgE