4 Antibodies

Question 1

Q: What is an antibody?

Answer 1

A: a protein that is produced by B lymphocytes in response to a foreign molecule (antigen), and has the property of binding specifically to that antigen.

Question 2

Q: What class of proteins are antibodies?

Answer 2

A: immunoglobulins - a large family of soluble glycoproteins

specifically the GAMMA IMMUNOGLOBULIN category

Question 3

Q: What happens after an antibody binds to an antigen? (3)

Answer 3

A: antibodies initiate secondary effector functions:

Complement Activation
Opsonisation
Cell activation via specific antibody-binding receptors (Fc receptors)

Question 4

*Q: Explain with the aid of a simple diagram the immunoglobulin molecule.

Answer 4

A:
L
N ————————C
S
H S
N————————————————————-C
S
H S
N————————————————————-C
S
L S
N ————————C

N, C = polypeptide terminals

4 polypeptide chains held together by disulphide bonds

The two heavy chains are identical and the two light chains are identical

SYMMETRICAL

Question 5

Q: Describe the flexibility of the antibody structure? Allows? (2)

Answer 5

A: the hinge regions can bend
The flexibility allows both antibody Fabs to bind to the antigens as the antigens may be narrowly or widely spaced
allows binding to antigens on separate pathogens-> agglutination

Question 6

*Q: Identify the antigen-binding site (Fab) and Fc portions of antibody.

Answer 6

A:
L
N ————————C
S
H S
N—————————– ——————————–C
S
H S
N—————————– ——————————-C
S
L S
N ————————C

2 fragments bound to antigens - Fab
1 fragment formed protein crystals - Fc: changes conformation when the antigen is bound and can perform effector functions such as activating complement

Question 7

Q: Identify the constant and variable portions of antibody.

Answer 7

A:
V(L) C(L)
N ———–|————-C
S
V(h) C(h) S
N————|————————————————-C
S
S
N————|————————————————-C
S
L S
N ———–|————-C

Both light chains and heavy chains can be divided into Variable and Constant regions.

The constant part is the Fc part which doesn’t have to be variable because it does not bind to antigens

Question 8

Q: Where are the other disulphide bonds within an antibody molecule?

Answer 8

A: Apart from the disulphide bridges which hold the different chains together, each domain has an internal intrachain disulphide bond - these are immunoglobulin domains

Question 9

Q: What makes a protein part of the immunoglobulin superfamily?

Answer 9

A: if the protein has an Ig domain

Question 10

Q: What is the cross-reactivity of an antibody?

Answer 10

A: are highly specific but they will sometimes react with other molecules

Question 11

Q: What is noticed when sequencing the amino acid sequence in terms of variability noticed?

Answer 11

A: variability isn’t evenly distributed.

There are THREE REGIONS which are HYPERVARIABLE and they are called the Complementarity Determining Regions (CDR)

Question 12

Q: What are CDR?

Answer 12

A: loops of amino acids at the end of the protein- part of the protein that is actually binding to the antigen and determines the specificities

Question 13

Q: Describe the constant region structure.

Answer 13

A: has a barrel shaped beta-pleated sheet which is held together by the highly conserved internal disulphide bonds

Question 14

Q: In terms of antibody structure, where are the hypervariable regions?

Answer 14

A: hypervariable regions line up at the end of the V domains

Question 15

Q: What are the forces involved in antibody-antigen binding? (4) What’s their strength?

Answer 15

A: non-covalent

They have a large number of: 
Hydrogen Bonds 
Ionic Bonds 
Hydrophobic Interactions  
van der Waals interactions 

Individually these bonds are weak but overall they are pretty strong.

Question 16

*Q: Distinguish between antibody affinity and avidity.

Answer 16

A: Affinity = The strength of the total non-covalent interactions between a single antigen-binding site and a single epitope on an antigen.

Avidity
The overall strength of multiple interactions between an antibody with multiple binding sites and a complex antigen with multiple epitopes

Question 17

*Q: Is antibody affinity or avidity a better measure of

binding capacity in biological systems? Give an example of high a___.

Answer 17

A: Avidity

Generally, the more binding sites that are bound to antigens, the higher the avidity.

EXAMPLE of high avidity - IgM pentamer with ten binding sites interacting with ten epitopes

Question 18

Q: Describe antibody cross-reactivity.

Answer 18

A: Antibodies produced in response to one antigen can cross-react and bind to a different antigen of similar structure

Question 19

*Q: List the immunoglobulin classes. Include their heavy chain type. Include how many CH domains they have.

Answer 19

A: IgG-gamma-3, IgA-alpha-3, IgM-mu-4, IgD-delta-3, IgE-epsilon-4

Question 20

Q: What are isotypes? (2)

Answer 20

A: immunoglobulin type that is present in everybody

Differ in the constant regions

Question 21

Q: What are allotypes? (3)

Answer 21

A: immunoglobulin type- allele of the antibody chains found in the individual -> Polymorphic variables

Some have them, others don’t
It can be spread anywhere within the constant regions

Question 22

Q: How do different classes of antibodies differ? What causes them?

Answer 22

A: differ in the CONSTANT REGIONS OF THEIR HEAVY CHAINS

There are different genes for the different heavy chains in the different classes

Question 23

Q: Which type of light chain do the classes of antibodies have?

Answer 23

A: All the different classes can either use a kappa or lambda light chain - only one type per antibody because they are symmetrical - either both kappa or both lambda

Question 24

Q: Which antibody classes have subclasses? What are the subclasses? What are their H chains?

Answer 24

A: IgA- IgA1, IgA2 : H chains= alpha 1 +2

and IgG- IgG1, IgG2, IgG3, IgG4 : H chains= gamma 1-4

Question 25

Q: Describe IgG. Heavy chain type? Abundancy? Form? Good at? (2)

Answer 25

A: gamma heavy chain

Most ABUNDANT immunoglobulin

Monomer

good at neutralising and good at opsonising

Can move across the placenta

Major activator of the classical complement pathway

Question 26

Q: How do IgG subclasses vary?

Answer 26

A: Classes show variations in the hinge region-
Some have lots of disulphide bonds and some don’t

They have slightly different effector functions
1 to 4 is numbered based on abundance - 1 being the most abundant

They differ in their ability to activate complement

Question 27

Q: Which receptors on the phagocyte can bind to IgG?

Answer 27

A: FcgRI

Question 28

*Q: Describe IgA. Heavy chain type? Abundancy? Form in blood? Form in secretions? Role?

Answer 28

A: alpha heavy chain

Second most abundant immunoglobulin

Blood - Monomer

Secretions - Dimer

Protects mucosal surfaces from bacteria, viruses and protozoa

Question 29

*Q: What is the structure of secretory IgA?

Answer 29

A: Dimer. They are joined together by a J chain (joining chain) and a secretory Component - helps protect the molecule from being degraded by the enzymes found on mucosal surfaces
SECRETORY COMPONENT IS DERIVED FROM THE POLY-Ig RECEPTOR

Question 30

*Q: Describe IgM. Heavy chain type? Form? Binding sites? Efficient at? Produced when? What does it activate?

Answer 30

A: Mu heavy chain

Pentameric- 5 monomers joined by the J chain and disulphide bonds

Multiple binding sites compensate for low affinity (high avidity)

Efficient at AGGLUTINATION

First Ig produced after exposure to antigen - PRIMARY ANTIBODY RESPONSE

Activates complement

Question 31

*Q: Describe IgD. Heavy chain type? Serum concentration? When are they expressed? Role?

Answer 31

A: delta heavy chain

LOW serum concentrations

Surface IgD expressed early in B cell development

Involved in B cell development and activation

Question 32

*Q: Describe IgE. Heavy chain type? Serum concentration? Produced when? Binds to? Function?

Answer 32

A: epsilon heavy chain

LOW concentration in blood

Produced in response to parasitic infections and in allergic diseases

Binds to high affinity Fc receptors of mast cells and basophils

Cross-linking by antigen triggers mast cell activation and histamine release
IgE coats mast cells and bind to the Fc receptor on mast cells
The allergen will bind to the IgE which are bound to the mast cell and cause the release of histamines.

Question 33

Q: Which Ig is present in foetus?

Answer 33

A: IgG

Question 34

Q: Which Ig is most abundant in blood?

Answer 34

A: IgG and IgM

Question 35

Q: Which Ig is present in secretions across the epithelium?

Answer 35

A: dimeric IgA

Question 36

Q: Which Ig is present in extracellular fluid?

Answer 36

A: IgG

Question 37

Q: Which Ig coats mast cells below epithelia?

Answer 37

A: IgE

Question 38

Q: What are IgG good at? Role.

Answer 38

A: binding to virus infected cells and NK cells can recognise cells coated in IgG - Antibody Dependent Cell-mediated Cytotoxicity (ADCC)