Immunological Techniques

Question 1

When will an Ab bind to an Ag?

Answer 1

ONLY IF the antigenic binding site is specific for that Ag (lock and key).

Question 2

Why can many antibodies bind with the same Ag?

Answer 2

Because an Ag has many different antigenic determinants

Question 3

Can an Ab bind with another Ab?

Answer 3

Yes, the variable region of an Ab can bind with the constant region of another Ab if it is recognized as a foreign protein.

Question 4

How can we make Ab?

Answer 4

Polyclonal Ab
1. Inject immunogen into animal
2. Given secondary immunization to produce higher titers of Ab against particular Ag
3. After immunization, polyclonal Ab can be obtained straight from the serum or purified to obtain a solution which is free from other serum proteins

Monoclonal Ab
1. Inject Ag into animal, multiple times
2. Once develops immune response, B-lymphocytes are isolated from the animal’s spleen and fused with a myeloma cell line creating immortalized B cell-myeloma hybridomas
3. Hybdridomas, which are able to grow continuously in culture while producing Ab are then screened for desired mAb

Question 5

What is the difference between monoclonal and polyclonal Ab?

Answer 5

Monoclonal Ab have monovalent affinity and only recognize the same epitope (single site) of an Ag.

Polyclonal Ab can recognize multiple sites

Question 6

What are the immunology techniques?

Answer 6

1. Immunocytochemistry/immunohistochemistry
2. Immunoassays
3. Western Blotting/Immunoblotting
4. Agglutination
5. Flow Cytometry and fluorescence-activated cell sorting (FACS)

Question 7

What is immunocytochemistry and immunohistochemistry?

Answer 7

An immunology technique that qualitatively studies Ag localization in cells (cyto) and tissues (histo)

Question 8

What do we rely on to detect Ab-Ag interactions?

Answer 8

1. An Ab with specificity for the Ag of interest
   - Virus/bacteria (in infected cell/tissue)
   - Cluster of differentiation (CD) Ag on a leukocyte: tumor Ag, proteins
2. Means to visualize the binding reaction that occurs and quantify it/localize it

Question 9

What are the two primary methods to detect antigens?

Answer 9

1. Direct
   - One PRIMARY Ab against Ag
   - Simple, rapid
2. Indirect - Multiple Ab
   - PRIMARY against Ag, SECONDARY against Primary Ab
   - Sequential incubations
   - More sensitive & specific bc multiple secondary Abs can bind primary and amplify signal

Question 10

What are immunoassays used for?

Answer 10

Quantifying Ag or Ab concentrations (i.e., cytokine/protein or specific Ab produced)

Question 11

What are the 2 types of immunoassays?

Answer 11

1. Enzyme-linked immunosorbent assay (ELISA) color signal
2. Rapid antigen test

Question 12

What is the difference between direct and indirect ELISA?

Answer 12

Direct uses a primary conjugated Ab

Indirect ELISAs - an un-conjugated primary Ab binds to the Ag, then a labeled secondary Ab binds to the primary Ab

Question 13

Is sandwich ELISA qualitative or quantitative?

Answer 13

Quantitative, it determines the amount of IL-2 in cell media against a standard curve of known concentrations

Question 14

How does sandwich ELISA work?

Answer 14

1. Immobilized capture Ab to Ag of interest (IL-2)
2. Addition of cell media containing cytokines and growth factors - IL-2 binding during incubation
3. Cell media is washed away
4. Enzyme-conjugated Detection Ab is added-incubation: must recognize a different Ag determinant unbound detection Ab is washed away
5. Substrate is added for time; reacts with enzyme to produce a coloured product
6. Read on spectrophotometer
   - The greater the concentration of Ag = increased amount of bound label = increased colour
   - Can be quantified against a standard curve of known IL-2

Question 15

What does the test efficacy of the rapid antigen test depend on?

Answer 15

1. Appropriate window of time
2. Appropriate amount of antigen
3. Appropriate test sample

Question 16

What antibody marks the primary response?

Answer 16

IgM

Question 17

Differentiate between the RAT and RT-PCR.

Answer 17

RT-PCR
Speed - Slow (hours)
Cost - Expensive
Technical Difficulty - Complex (lab)
Sensitivity - Very high

RAT
Speed - Fast (15-30 min)
Cost - Cheap
Technical Difficulty - Simple (office)
Sensitivity - Moderate

Question 18

What is western blot used for?

Answer 18

Detect proteins/Ab to proteins of specific MW
Allows one to determine the relative amount of protein/Ab to protein in a sample of cells

Example: testing for seropositivity (presence in serum of Abs) to HIV

Question 19

Why is western blot useful?

Answer 19

1. Proteins/Ab to proteins are up regulated in certain disease states
2. Detecting the presence of this protein/Ab to proteins in combination with other immunology techniques can be diagnostic for the disease, determine prognosis and treatment

Question 20

What is the use of Ab/Ag in clinic?

Answer 20

1. Lyme neuroborreliosis - seropositivity distinguishes from non-Lyme-related symptoms and enables rapid treatment
2. Efficacy of immunization (Hepatitis B/C Virus)
3. Anti-HIV Ab suggest previous HIV infection - HIV viral proteins increase in # in host-cells may indicate disease activity
4. SARS-CoV-2 Ag indicate active infection - Anti-SARS-CoV-2 Ab indicate previous infection

Question 21

What are the steps of western blot to detect HIV?

Answer 21

1. Lyse KNOWN HIV-infected cell line to extract HIV proteins
2. Seperate proteins by gel electrophoresis by size and/or charge
3. Incubate the HIV strip/blot with serum
   - “+ serum” - HIV+ patient
   - “- serum” - Healthy donor
   - “test serum” - unknown patient
4. Incubate the blot with a secondary Ab (mouse anti-human Ab)
5. Visualize with a marker

Question 22

What is blood type determined by?

Answer 22

Presence/absence of proteins (Ag) on surface of RBCS

Question 23

Why is blood typing important?

Answer 23

1. Safe blood transfusions rely on compatability
   - Incompatible blood results in severe acute hemolytic reaction = renal failure and shock = potentially fatal
2. Highly active Ab recognize “foreign” proteins on RBCs and bind components of the complements system to cause massive hemolysis of the transfused blood

Question 24

How does agglutination happen?

Answer 24

RBC containing A and Rh Ag + Ab (anti-A or anti-Rh) = agglutination reaction

Question 25

How do we type blood?

Answer 25

1. A drop of blood is added to each reagent (Anti-A, Anti-Rh, Anti-B)
2. The slide is gently rotated and examined for clumping-agglutination/immune complex precipitates

Question 26

How does flow cytometry and fluorescence-activated cell sorting (FACS) work?

Answer 26

It provides rapid, quantitative, multi-parameter analyses on single living (or dead) cells based on measurement of light scattering ability and fluorescent light emission.

Distinguises leukocytes by scattering (size/granularity) or fluorescence intensity produced by fluorescent-labeled Ab or ligands that bind specific cell-associated molecules, CD4/CD8/B cell markers

Question 27

What can flow cytometry be used for?

Answer 27

Leukemia diagnosis
- Analyze leukocyte subsets and determine which cell line is being produced abnormally

1. Monoclonal Ab specific to several hematopoeitic cell surface Ag provide a profile
2. Profile allows confirmation of diagnosis, prediction of the course of the disease and the likelihood of remission

Question 28

How to assess immune status/lymphocyte function?

Answer 28

1. Histology - examine lymph node that has very few lymphocytes/irregular structure suggests an immune deficiency/lymphoma
2. Blood test - differential blood count would identify altered numbers of leukocytes/lymphocytes
3. Flow cytometry - B-lymphoblastic lymphoma cells are CD19+, CD10 bright
4. In vivo tests - a real response test
   - Allergic response: panel of several common Ag
   - Delayed type hypersensitivity (a red welt)
5. Lymphocyte activation ex vivo
   - Any stimulus tht promotes T & B lymphocyte fcn
   - Mitogen
   - Mixed lymphocyte reaction: transplant rejection in a dish

Question 29

How does the TB skin test work?

Answer 29

1. A small amount of tuberculin is injected into the skin
2. Individual returns 48-72 h to have rxn assessed
3. +ve test indicated previous infection
4. -ve test suggests TB disease not likely

Question 30

How do we measure lymphocyte proliferation?

Answer 30

Carboxyfluorescein diacetate succinimidyl ester (CFSE) labelling
- Labelled cells are treated with a mitogen that mimics Ag