First Aid, Chapter 1 Immune mechanisms: Immunoglobulins (Ig)

Question 1

What is the earliest cell in B-lymphocyte lineage that produces Ig?

Answer 1

pre-B lymphocyte

Question 2

How much Ig is produced by adults daily?

Answer 2

2-3 g

Question 3

What is the basic structure of Ig? what kind of molecule is it? How many chains are there? What kind of bond connects the chains? How many Ig domains are in each chain? How many amino acids is Ig made of?

Answer 3

The Ig molecule is a polypeptide heterodimer composed of two identical light chains and two identical heavy chains connected by disulfide bonds (Figure 1-5). Each chain consists of two or more Ig domains, which are compact, globular structures of approximately 110 amino acids containing intrachain disulfide bonds.

Question 4

How many domains are there in the heavy chain constant region of each Ig type?

Answer 4

The constant (C) regions of IgG, IgA, and IgD consist of only three CH domains. In IgM and IgE, the C regions consist of four CH domains.

Question 5

What are the light chains of Ig? What region are they identified by? What chromosomes are they encoded on? Can an Ig molecule have one of each light chain?

Answer 5

κ and λ are identified by their C regions. κ is encoded on chromosome 2 and λ is encoded on chromosome 22. An Ig molecule has either κκ (60%) or λλ (40%) but never one of each. An individual B lymphocyte will produce only κ or λ chains but never both.

Question 6

Where does papain cleave? Where does pepsin cleave? What is the resultant fragment? Can they both cross-link and bind? Can they fix complement or bind to the Fc receptor on the cell surface?

Answer 6

Papain cleaves Ig above the hinge (as seen in Figure 1-5) and results in two Fab (antigen binding) fragments and one Fc (crystallizable) fragment. Pepsin cleaves Ig below the hinge at multiple sites and produces F(ab′)2, which contains interchain disulfide bonds, and exhibits two antigen-binding sites. F(ab) can bind but not cross-link; and F(ab′)2 both binds and cross-links. Neither F(ab) nor F(ab′)2 will fix complement or bind to the Fc receptor on the cell surface.

Question 7

What are CDRs? Where are they located? How many amino acids are in each? How many CDRs are there? What does the CDR allow for? Which CDR is the most variable?

Answer 7

VL and VH form the antigen-binding sites that consist of complementarity-determining regions (CDRs), 10 aa that account for antibody diversity. There are three CDRs in each V region, CDR3 is the most variable and has the most extensive contact wiht the antigen.

Question 8

How can light chains be used to diagnose and type B-lymphocyte lymphomas?

Answer 8

The ratio of κ-bearing lymphocytes to λbearing lymphocytes can be used as an indication of clonality and is, therefore, useful in diagnosing and typing B-lymphocyte lymphomas.

Question 9

Where does omalizumab bind?

Answer 9

Cε3

Question 10

What is the most variable part of the Ig molecule?

Answer 10

CDR3

Question 11

Which terminus are CH and CL located at?

Answer 11

The c-terminus of the Ig molecule.

Question 12

Which part of the constant region mediates effector funcion?

Answer 12

CH by binding to Fc receptors or binding complement.

Question 13

Why is glycosylation of Igs important?

Answer 13

Glycosylation of Igs is important in maintaining their structural stability and effector functions.

Question 14

What are deglycosylated IgGs unable to do?

Answer 14

Deglycosylated IgG cannot bind FcγRs and C1q effectively and therefore is unable to trigger antibody-dependent cell-mediated cytotoxicity (ADCC) and complement activation.

Question 15

Decreased glactosylation of Ig is associated with which diseases?

Answer 15

Rheumatoid arthritis (RA), systemic lupus erythematosus (SLE), Crohn’s disease, and tunerculosis (TB).

Question 16

What is the glycosylation site in IgG?

Answer 16

Human IgG has one conserved glycosylation site in the Cγ2 domain (asparagine-297).

Question 17

What is the benefit of sialic acid enrichment in IVIG?

Answer 17

Sialic acid enrichment in intravenous immunoglobulin (IVIG) preparation significantly increases its anti-inflammatory activity.

Question 18

What molecules belong to Ig superfamily?

Answer 18

TCR, MHC molecules, CD4, CD8, CD19, B7-1, B7-2, Fc receptors, KIR (killer cell immunoglobulin-like receptor), and VCAM-1.

Question 19

What is the shortest half-life of all IgG subclasses?

Answer 19

IgG3

Question 20

Which Ig isotype fixes complement most efficienty?

Answer 20

IgM

Question 21

What is rheumatoid factor?

Answer 21

An antibody against the Fc portion of IgG. RF is most commonly IgM, but can also be any other isotype.

Question 22

What conformations of antigens do Ig recognize?

Answer 22

They can recognize highly diverse antigens through linear and conformational determinants found in various macromolecules (i.e., proteins, polysaccharides, and lipids).

Question 23

What conformation of antigens do TCRs recognize?

Answer 23

TCRs only recognize linear determinants of peptides presented by MHC molecules.

Question 24

What is the first Ig to be produced after birth?

Answer 24

IgM

Question 25

What is the first Ig to reach adult level?

Answer 25

IgM

Question 26

What cells produce IgA in the GI tract?

Answer 26

IgA is produced by plasma cells in the lamina propria.

Question 27

How is IgA transported across the mucosal epithelium?

Answer 27

By poly-Ig receptor (transcytosis).

Question 28

What cells synthesize the poly-Ig receptor?

Answer 28

Mucosal epithelial cells.

Question 29

Where are poly-Ig receptors expressed?

Answer 29

On the basolateral surface of mucosal epithelial cells.

Question 30

How does IgA reach the luminal surface in the GI tract?

Answer 30

Once inside the epithelial cell, IgA bound to the poly-Ig receptor is actively transported in vesicles to the luminal surface.

Question 31

How many heavy chains are in each of the immunoglobulin isotypes?

Answer 31

IgG, IgA, and IgD have 3 heavy chains. IgM and IgE have 4 heavy chains.

Question 32

What are the serum levels of each of the immunoglobulin subclasses?

Answer 32

IgG total 700-1500
IgG1 430-1050
IgG2 100-300
IgG3 30-90
IgG4 15-60
IgA total 60-450
IgA1 90-325
IgA2 80-290
IgM 50-250
IgE 0.0015-0.2
IgD 0.3-30

Question 33

What are the half-lives of all the Ig isotypes?

Answer 33

IgG1, IgG2, IgG4 - 23 days
IgG3 - 8 days
IgA1, IgA2 - 6 days
IgM - 5 days
IgE - 2 days
IgD - 3 days

Question 34

Which cytokines induce class switching for each Ig isotype?

Answer 34

IgG1 -IFNγ, IL-4 
IgG2 - IFNγ, TGFβ
IgG3 - IFNγ
IgG4 - IL-4, IL-13
IgA1 and IgA2 - TGFβ, IL-5
IgE - IL-4, IL-13

Question 35

Which Ig’s fix complement and how well?

Answer 35

Best - IgM
moderate - IgG1, IgG3
mild - IgG2
none - IgG4, IgA, IgE, IgD

Question 36

Which IgG subclass is transported across the placenta the least amount?

Answer 36

IgG2.

Question 37

What is the function of IgG1?

Answer 37

Th1 response, opsonization Best for ADC

Question 38

What is the function of IgG2?

Answer 38

Antipolysaccharide Ab

Question 39

What is the function of IgG3?

Answer 39

Opsonization

Question 40

Which IgG subclass is the last to reach adult levels?

Answer 40

IgG2

Question 41

What is the function of IgG4?

Answer 41

Antipolysaccharide Ab, Th2 response

Question 42

Which IgG subclass is elevated in immunotherapy/

Answer 42

IgG4

Question 43

Where are the IgA subclasses found?

Answer 43

IgA1 in serum and respiratory tract IgA2 in lower GI tract

Question 44

What is the function of IgM?

Answer 44

isohemagglutinin and rheumatoid factor

Question 45

What is the only Ig to bind mast cells?

Answer 45

IgE

Question 46

What is IgD a marker of?

Answer 46

B cell maturation.

Question 47

What kind of bonding does Ig capture antigens through?

Answer 47

noncovalent reversible binding through the Ig V regions.

Question 48

Where do somatic mutations lead to changes in Ig?

Answer 48

V regions, not C regions.

Question 49

Where does class switch recombination lead to changes in Ig?

Answer 49

C regions, but not V regions

Question 50

What does alternative splicing change Ig to?

Answer 50

Changes from transmembrane to secretory form.

Question 51

What is the secreted form of all the Igs (ie - monomer, dimer, etc)?

Answer 51

IgG - monomer (150 kda)
IgA - monomer (170), dimer (390)
IgM - monomer (180), pentamer (900)
IgE - monomer (190)
IgD - monomer (180)

Question 52

Name 6 ways diversity is achieved in Igs and TCR?

Answer 52

1) antigen-binding site variability in Ig and TCR
2) germ-line variation
3) combinational diversity (somatic recombination)
4) Junctional diversity
5) somatic hypermutation
6) receptor editing

Question 53

What is germ-line variation with regard to TCR and Ig?

Answer 53

variation in the inherited germ-line V, D, and J elements in Ig and TCR

Question 54

What is combinational diversity (somatic recombination)? How does it affect B and T lymphocytes?

Answer 54

different V, D, and J segment rearrangement in developing B and T lymphocytes resulting in moderate level of receptor diversity

Question 55

What is junctional diversity?

Answer 55

random nontemplated addition or removal of nucleotide sequences at junctions between V, d, and J regions resulting in extensive somatic variability in immune receptors

Question 56

What is somatic hypermutation?

Answer 56

point mutations in V regions of Ig in rapidly dividing B lymphocytes causing increase or decrease in antibody affinity

Question 57

What is receptor editing?

Answer 57

changing Ig specificity that have self reacting antibodies

Question 58

Which somatic recombination process introduces the greatest diversity in immune receptors and which enzyme is important in this process?

Answer 58

Junctional diversity and TdT.

Question 59

How is class switch recombination achieved (isotype switching)?

Answer 59

Change in heavy-chain C regions, with same V region at the gene locus . Switch in Ig isotype from IgM or IgD to IgG, IgA, or IgE

Question 60

What is affinity maturation?

Answer 60

Process of somatic hypermutation and selective survival of B lymphocytes that produce highaffinity antibodies, results in increased Ig affinity.

Question 61

What is alternative splicing?

Answer 61

Splicing at different locations in the 3′ of C region exons resulting in production of membrane bound or secreted Ig forms.

Splicing at different location of the C-terminal of the IgM gene resulting in production of IgD from the same RNA transcript with IgM. Not conventional class switch

Question 62

What are the FcR and CD names for IgG? Are they high or low affinity?

Answer 62

FcγRI CD64 High
FcγRIIA CD32 Low
FcγRIIB CD32 Low
FcγRIIIA CD16 Low
FcγRIIIB CD16 Low

Question 63

What cells carry the FcγRI and what is its function?

Answer 63

Macrophages, neutrophils eosinophils

Phagocytosis

Question 64

What cells carry the FcγRIIA and what is its function?

Answer 64

Macrophages, neutrophils, eosinophils, platelets

Phagocytosis (poor)

Question 65

What cells carry the FcγRIIB and what is its function?

Answer 65

B lymphocytes

Feedback inhibition of B lymphocytes

Question 66

What cells carry the FcγRIIIA and what is its function?

Answer 66

NK cells, macrophages ADCC

Question 67

What cells carry the FcγRIIIB and what is its function?

Answer 67

Neutrophils, macrophages, eosinophils

Phagocytosis (poor)

Question 68

What are the Fc receptors for IgE? What is the CD name?

Answer 68

FcεRI High
FcεRII CD23 (not 32!)
Low

Question 69

What cells carry the FcεRI and what is its function?

Answer 69

Mast cells, basophils, eosinophils

Degranulation, ADCC

Question 70

What cells carry the FcεRII and what is its function?

Answer 70

Neutrophils, eosinophils, monocytes

Unknown