(02) Antibody Structure and Function

Question 1

Immunoglobulin

• Cells that produce these?
• expression of gene(s)
• Relationship to antibodies.

Answer 1

Produced by:
- Plasma Cells (B cell)

Gene Expression:
- Two genes expressed that code for Immunoglobulins

Antibodies:
- 2 immunoglobulins combine to form antibodies

Question 2

What is the relationship of immunoglobulins produced by a B cell and B cell surface receptors?

Answer 2

• they are identical with the same antigen specificity as the antibodies that are secreted

Question 3

What happens to B cells during an infection?

Answer 3

1. B cells with specificity for any specific determinant or the pathogen are activated
2. These are induced to clonally expand
3. Cells differentiate into plasma cells

Question 4

T or F: during a specific infection only one group of B cells become active and differentiate into plasma cells

Answer 4

False, each pathogen has many different determinants that can be recognized by distinct antibodies so many different B cells with different specificities can be activated to target a single pathogen

Question 5

Antibody structure

Answer 5

• Heavy Chain and Light Chain linked by disulfide bonds is linked via disulfide bonds to another IDENTICLE heavy chain, light chain combo

Question 6

What is the Hinge region of antibodies?

- is this found in all types?

Answer 6

• Stretch of Amino Acids in the HEAVY CHAIN they has no secondary structure and is flexible
• NO not all isotypes have a hinge region, instead they have an additional IMMUNOGLOBULIN domain

Question 7

How many distinct regions are found in the heavy chain of antibodies?

• light chain?
• Purpose?

Answer 7

Heavy Chain:
4 distinct regions and hinge region (3 constant domains and 1 variable domain)

Light Chain:
2 distinct regions (1 constant and 1 variable domain)

**These are formed by highly organized secondary structure that makes antibodies vary stable in many different environments

Question 8

T or F: both heavy and light chains have variable domains that align with each other to form a unique structure.

Answer 8

True

Question 9

Antibody Structure (4 parts)
**pay attn. to 3 and 4

Answer 9

1. Each Immunoglobulin domain is stabilized by INTRACHAIN disulfide bonds
2. Each monomeric antibody molecule has two antigen-binding regions (where heavy and light chains come together)
   - Tertiary Structure permits binding of only one antigen (3D structure = idiotype)
3. C-terminal Immunoglobulin domain includes region of molecules that binds to antibody receptors or Fc receptors (on macrophages, neutrophils, mast cells etc.)
4. CH2 immunoglobulin domain containis the determinant that complement component C1 binds to when intitiating the classical complement cascade

Question 10

Fc region

• what does it consist of?
• what is it bound by?

Answer 10

• CONSTANT domains of heavy chains of antibody (vertical part of the Y)
• Bound by COMPLEMENT COMPONENT C1 and Fc receptors

Question 11

What are the Fab fragments?

Answer 11

• Fragments of Antigen Binding (slanting part of the Y)

Question 12

What region would you need to cleave to isolate Fc region from Fab fragments?

Answer 12

• Cleaving in the hinge domain produces Fc region piece and Fab fragments

Question 13

What happens if a pathogen produces a protease that cleaves the hinge region?

Answer 13

• Fab Fragments still by their antigenic determinant
• BUT no Fc regions means they couldn’t
  1. perform their effector functions
  2. activate complement cascade
  3. serve as opsonins for phagocytic uptake
  4. in some cases they couldn’t even neutralize toxins

Question 14

T or F: the constant domain of the light chain is almost identical to the constant domain of the heavy chain?

Answer 14

True

Question 15

What is the secondary and tertiary structure of constant domains?
- what maintains tertiary structure?

Answer 15

• Beta-Sheet secondary structure separated by HIGHLY CONSERVED loops of amino acids that have no secondary structure
• Tertiary structure = Beta Barrel, maintained by SINGLE DISULFIDE bond

Question 16

T or F: the light chain variable region is very different from the light chain constant region

Answer 16

False, these two regions are nearly identical

Question 17

What is the main difference between the structure of the light chain variable and constant regions?

Answer 17

• Loops are NOT conserved and are EXTREMELY variable, aka HYPERVARIABLE region

Question 18

What would result from a basepair substitution in the light chain loop region in the:

• Constant Region
• Variable Region

Answer 18

Constant Region:
- Loss of Functionality

Variable Region:
- Protein would still be functional

Question 19

Note all concepts of the light chain variable and constant region apply to the heavy chain except the heavy chain has 3 variable regions

Answer 19

Note all concepts of the light chain variable and constant region apply to the heavy chain except the heavy chain has 3 variable regions

Question 20

What does HV1, HV2, and HV3 stand for?

Answer 20

HyperVariable region 1-3 (located around 30, 50, and 90 residues)

***3 located on both the heavy and light chains

Question 21

What do HV regions come together to form?

Answer 21

• The Antigen Binding Domain

**This defines the antibody’s IDIOTYPE

Question 22

Define Antigen

Answer 22

Any molecule that is bound by a B cell or T cell immunoglobulin molecule

Question 23

Define Antigenic Determinant or Epitope

Answer 23

The exact portion of the antigen that is recognized by the immunoglobulin

Question 24

Define Idiotype

Answer 24

Antigen Binding Pocket

Question 25

Define Affinity

Answer 25

Strength of the binding interaction between a single antigen-binding site of the immunoglobulin

Question 26

Definen Avidity

Answer 26

the COMBINED strength of all antigen-binding domains of an antibody molecule when bound to its cognate antigen

Question 27

How many binding domains can be found on each monomeric antibody?

• How do they bind to an antigen with two identical epitopes?
• How do they let go?

Answer 27

2 binding sites

• Each must bind simultaneously
• Must also let go simultaneously

Question 28

T or F: antibody binding is a reversible reaction

Answer 28

True, if affinity is high the bound state is strongly favored

Question 29

Why are multivalent antigens bound more tightly by antibodies than if they had only a single epitope?

Answer 29

Because both epitopes must be released simultaneously, so while the AFFINITY of each domain could be relatively low for a single epitope could be low the AVIDITY will be higher because the binding interactions onto the antigen are additive

Question 30

What antibody has the highest POTENTIAL avidity for any antigen molecule and why?

Answer 30

IgM because it is a pentamer (has 10 binding domains)

Question 31

T or F: weak interactions are what permits antibodies to interact with antigens

Answer 31

True, only non-covalent forces used

Question 32

T or F: there are many restrictions to they type of antigens that can be bound by antibodies

Answer 32

False, antibodies can bind:
- Native Proteins
- Denatured Proteins
- Carbohydrates
- Lipids
- Small molecules and chemicals 
-

Question 33

T or F: antibodies can bind SOLUBLE OR PARTICULATE antigens

Answer 33

True

Question 34

Why are T cells so much more limited in the type of antigens that they can recognize?

Answer 34

• They can only recognize PEPTIDES that are presented in the binding groove of an MHC molecule

Question 35

Many different idiotypes are possible, while binding pockets are a common motif the variable region can actually slide into the binding pocket of an antigen*

Answer 35

Many different idiotypes are possible, while binding pockets are a common motif the variable region can actually slide into the binding pocket of an antigen*

Question 36

What is the difference between a linear epitope and conformational epitope?

Answer 36

Linear Epitope:
- several amino acid stretch that is recognized by antibodies

Conformational (discontinuous epitope):
- Amino acids recognized by the antibody may be several residues away from each other but tertiary structure brings them together

Question 37

What difference in binding ability of antibodies for linear and conformational epitopes (determinants) in different conditions?

Answer 37

Linear Epitopes can be bound even if the protein is denatured because it is not dependent on secondary or tertiary structure

Conformational (discontinuous epitopes) depend on tertiary structure and will likely no longer be bound by the antibody under denaturing conditions

Question 38

T or F: T cell receptors can bind both linear and conformational determinants

Answer 38

False, they bind peptides so they only recognize linear determinants

Question 39

What are multivalent antigens?

Answer 39

Antigens with multiple binding spots (determinants) these can be different types or epitope or the same type

Question 40

Are pathogens typically univalent or multivalent?

Answer 40

Multivalent, gives the bodies lots of targets (viruses usually have fewer than bacteria)

Question 41

What are the two versions of antibody found on each B cell?

- what are their functions?

Answer 41

• Antigen Specific Receptor is membrane bound antibody
• an identical antibody is also secreted, it serves as the EFFECTOR that RECRUITS phagocytes, NK cells, mast cells and eosinophils and proteins in the complement pathway

Question 42

What is neutralization?

Answer 42

Secreted antibodies interact with toxins and prevent them from binding host cell receptors

Question 43

What are the 5 distinct isotypes of antibody that can be produced by a B cell?

Answer 43

1. IgG
2. IgM
3. IgD
4. IgA
5. IgE

Question 44

What two isotypes have subtypes?

Answer 44

IgG (4 subtypes)
IgG1-4

IgA (2subtypes)
IgA1-2

Question 45

What two isotypes lack a hinge domain

Answer 45

No Hinge:

• IgM
• IgE
• *They fill the void with another Constant Immunoglobulin domain

Hinge:

• IgG
• IgD
• IgA

Question 46

How do the four IgG subtypes differ structurally?

Answer 46

1. Length of Hinge Region
2. Number of Disulfide Bridges that connect the two heavy chains
3. Different Fc constant domains - *This gives them distinct functionality

Question 47

The SPECIFICITY of antibodies secreted by B cells are identical yet FUNCTIONALITY can be changed. How is FUNCTIONALITY altered?

Answer 47

Class Switching

• Changes isotype by changing the constant region
• Different constant regions have different determinants for binding the Fc receptors produced by the innate immune cell types (neutrophils, macrophages, mast cells, NK cells, etc.)

Question 48

T or F: Changing the isotype of the antibody changes the effector mechanism directed by that antibody

Answer 48

True, this allows great flexibility of the antibody response to pathogens

Question 49

IgM

• how is it secreted
• when is it secreted
• what B cells secrete it
• Surface receptor form
• Fc receptor specificity

Answer 49

• Secreted in Pentameric form
• FIRST isotype produced by EVERY B Cell
• Surface receptor of IgM = MONOMERIC
• NO Fc RECEPTORS are specific to IgM

Question 50

T or F: IgM can be transported into mucosal secretions

Answer 50

True, this process is very inefficient due to the size of IgM molecules and active transport is needed

Question 51

What stabilizes both the pentamer of IgM and the dimer or IgA?

Answer 51

J chain

Question 52

IgA

• different forms secreted
• most common secreted form
• mucosal secretion involvement

Answer 52

3 forms

• Monomer, dimer, Trimer
• Dimer = most common

Most common form found in mucosal secretions (much more efficient active transport)

Question 53

Where is IgA found?

Answer 53

Lumens of:

1. Respiratory Tract
2. Urinary/ G.I. Tract
3. Saliva
4. Tears
5. Breast Milk/colostrum

Question 54

What is the primary function of IgA?

Answer 54

-neutralize pathogens, preventing them from colonizing mucosal surfaces

Question 55

What is the largest antibody?

Answer 55

IgM

Question 56

What is the antibody found in the lowest concentration in blood serum? which is next lowest? why?

Answer 56

Lowest:
IgE - produced in high concentrations but is stolen quickly by Mast Cells

Next to Lowest:
IgD - lacks a role in antibody response to infection

Question 57

What is the most predominant antibody in serum?

Answer 57

IgG

Question 58

What isotype has the longest half life?

Answer 58

IgG