Immunoglobulin

Question 1

In what two situations would you see a gamma -globulin band on electrophoresis?

Answer 1

1. Hyper-immunized

2. Multiple mylenoma (plasma cell tumor)

Question 2

Papain digestion of the Ig results in what?

Answer 2

1. 2 Fab fragments- antigen binding components

2. 1 Fc fragment- effector portion of the Ig

Question 3

What is an isotype?

Answer 3

a distinct form the Ig heavy chain (mu, alpha, gamma, delta, epsilon) or the light chain (lamda or kappa) present in all members of a species

Question 4

Which isotypes can be readily found in normal sera?

Answer 4

All of them (but E and D in trace amounts)

Question 5

What is an allotype?

Answer 5

Genetic variants in the constant regions of Ig that are inherited in an allelic manner. This varies by member of a species.

Question 6

____________is the same for all members of a species while ______________differs amongst members of the same species.

Answer 6

Isotype; allotype

Question 7

What is an idiotype of an Ig?

Answer 7

a unique antigenic specificity conferred in the variable region of the Ig which distinguishes it from all other antibodies.

Question 8

What antibodies will have the same idiotype?

Answer 8

those that arise from the same B-cell founder clones

Question 9

_______________can be detected in serum, while ________ cannot be detected in serum due to their extremely low frequencies.

Answer 9

Isotype; idiotype

Question 10

In what people are you actually able to detect idiotypes in serum?

Answer 10

Patients with B-cell clonal expansion

Question 11

What is the level of IgG in serum?

Answer 11

12-14 microg/ml

Question 12

What percent of serum is IgG?

Answer 12

80%

Question 13

What are the major sites for IgG?

Answer 13

intravascular and extravascular (tissue)

Question 14

What is the half life of IgG?

Answer 14

23 days (IgG3 is only 7)

Question 15

Where are IgA found?

Answer 15

Intravascularly and In secretions

Question 16

Which Ig contains J and S chains?

Which Ig only contains J chains?

Answer 16

J+S = IgA
J= IgM

Question 17

Why is the molecular weight of IgM significantly more than the other Ig?

Answer 17

It exists as a pentamer which is why it is also mainly intravascular (too big to get into tissue)

Question 18

Where are IgD found?

Answer 18

on mature B-cells (with IgM)

Question 19

Where are IgE found?

Answer 19

on mast cells and basophils

Question 20

What antibody is best at binding FcR? What does this allow it to do?

Answer 20

IgG-> recycles the antibodies to maintain constant serum levels

Question 21

What antibodies can induce ADCC?

Answer 21

IgG

Question 22

What antibodies are best at neutralizing toxins?

Answer 22

IgG

Question 23

What antibodies can be found in breast milk?

Answer 23

IgG and IgA although IgG can also cross the placenta

Question 24

Which antibodies have antiviral functions?

Answer 24

IgG and IgA

Question 25

Which antibodies are antibacterial?

Answer 25

IgG and IgA (with the assistance of lysozyme)

Question 26

Which antibodies are agglutinators?

Answer 26

IgM is the best (then IgA, and a tiny bit IgG)

Question 27

Which antibodies are best at fixing complement?

Answer 27

IgM

Question 28

Which antibodies can degranulate mast cells?

Answer 28

IgE

Question 29

What is agglutination?

Answer 29

Organized clumping of antigen

Question 30

What test uses hemoagglutination to do blood typing tests?

Answer 30

Coomb’s test where there is agglutination of anti-RBC coated RBCs

Question 31

IgM coated antigens can readily be __________________ by phagocytes if they are coated with __________________.

Answer 31

opsonized; complement C3b

Question 32

What are the three major reasons why IgG are the best at neutralizing toxins and small pathogens like viruses?

Answer 32

1. high affinity
2. high serum levels (and high tissue levels)
3. long half life

Question 33

What is the main strategy of IgG to keep viruses from infecting cells?

Answer 33

block their cell attachment site

Question 34

Once a target is coated with _________ or _________ macrophages can readily engulf the “opsonized target” because they have _____ and _____ receptors.

Answer 34

IgG or C3b because they have Fc and complement (CR1) receptors

Question 35

The complement receptor on the macrophage is _______ whereas the complement receptor on the B-cell is __________.

Answer 35

CR1; CR2 (CD21)

Question 36

What is ADCC?

What antibody is best at inducing it? Why?

Answer 36

antibody-dependent cell mediated cytotoxicity.

IgG is best at inducing it because it can bind to FcR.

Question 37

What four cell types have FcR that can engage IgG-target complexes?
Which 2 release perforins?
Which 2 release TNF?

Answer 37

1. macrophages- TNF
2. basophils
3. NK cells- perforin
4. eosinophils- perforin

Question 38

Monoclonal Abs are being used in clinic to target and destroy tumor cells in the body. They do so via_____________________.

Answer 38

Antigen-dependent cell-mediated cytotoxicity

Question 39

By what age do IgG and IgA become dominant over IgM?

Answer 39

4 years of age

Question 40

Maternal ______ crosses the placenta but the serum levels in the baby drop by __________.

Answer 40

IgG; 6 months

Question 41

The first Ig the baby will make is ______ which plateaus at________ years of age.

Answer 41

IgM, 1-2 years old

Question 42

Which cell produces IgA heavy and light chains?
Which cell produces J-chains?
Which cell produces Poly-IgR?

Answer 42

Plasma cells produces IgA heavy and light chains and the Jchain

Epithelial cells produce the Poly-IgR chain

Question 43

What feature of IgA increases its avidity?

Answer 43

its dimerization

Question 44

What is the major role of IgA?

Answer 44

to neutralize toxins (can’t bind complement or do ADCC)

Question 45

What is the most common immunodeficiency disease (freq 1:500)?

Answer 45

Selective IgA deficiency- GI, respiratory, ear infections (because IgA is the antibody in secretions

Question 46

What is passive immunization?

Answer 46

Xenogenic anti-pathogen or anti-toxin is transferred from 1 species to another (ex. horse or sheep anti-venom)

Question 47

What is the only real use for passive immunization anymore?

Answer 47

anti-venom to snake or spider bites (infect horse or sheep with venom, collect their antibodies and inject into the human)

Question 48

What are three advantages of passive immunization?

What is the major disadvantage?

Answer 48

Advantages:
1. pre-made and fast
2. inexpensive
3. usually pretty effective
Disadvantage:
It can lead to serum sickness because the immune system will make antibodies to the horse antibodies

Question 49

What type of hypersensitivity is frequently caused by passive immunization?

Answer 49

Type III- immune complex hypersensitivity because the immune system makes antibodies to the immunizations antibodies –> serum sickness

Question 50

What is given as a plasma protein replacement therapy for immunodeficient patients?

Answer 50

Polyclonal IVIG (usually for IgG)

Question 51

What if IVIG used for?

What type of immunity does it confer?

Answer 51

it is given to maintain adequate antibody levels to prevent infection.
It confers passive immunity and is transferred human to human so there is less chance of serum sickness

Question 52

How frequently does treatment of IVIG need to be given? Why?

Answer 52

every 3-4 weeks because the half-life of IgG is 23 days.

Question 53

What diseases are treated by IVIG?

Answer 53

1. Immunodificiencies
2. pediatric HIV
3. lymphoprolifative disease
4. Kawasaki’s diseas
5. Guillian-Barre

Question 54

Why can IVIG be used to treat autoimmune disorders?

Answer 54

IgG is used to overload the immune system because it used FcRN to keep serum levels equal. By adding IgG, more of the “bad” antibodies (autoreactive) will be gotten rid of and the “good” will be recycled

Question 55

What are four way by which IVIG may work?

Answer 55

1. binding inhibitory Fc regions
2. binding FcR on macrophages to recycle to pathogentic Ab can bind
3. Complement consumption
4. engagement of anti-idiotypic networks

Question 56

What are monoclonal antibodies and how can they be produced?

Answer 56

They are antibodies specific for one antigen. They can be produced by:

1. by immortalized plasma cells in the bone marrow
2. recombinant engineering

Question 57

Why may monoclonal antibodies be more safe than IGIV passive therapy?

Answer 57

IVIG uses Ab from a donor, whereas the Ab of monoclonal therapy are genetically engineered in a lab. There is less likelihood of transferring donor infections

Question 58

What is the difference between a chimeric Ab and humanized Ab when engineering Ab via monoclonal Ab therapy?

Answer 58

Chimeric- The Fab fragments belong to mice but the Fc belongs to humans to reduce chance of serum sickness
Humanized- HV regions are mice, the rest of the Ab is human