Immunology in the Clinic and Research Lab

Question 1

What is the general structure of an antibody?

Answer 1

➝ Two heavy chains and two light chains held together by disulfide bridges

Question 2

What two parts can an antibody be divided into?

Answer 2

➝ Fab region

➝ Fc region

Question 3

What does the Fab region bind to?

Answer 3

➝ Binds to antigens

➝ light chain binds to antigen epitopes via the CDR

Question 4

What is an antibody repertoire?

Answer 4

➝ all the possible numbers of antibody binding sites

Question 5

What is antibody affinity?

Answer 5

➝ the strength of a single interaction between the antibody and epitope

Question 6

What is antibody avidity?

Answer 6

➝ sum of different affinities

Question 7

What are the 5 functions of the Fc region?

Answer 7

➝ INteracts with the immune system - ADCC
➝ mediates antibody dependent cell mediated cytotoxicity - ADCC
➝ antibody dependent cellular phagocytosis - ADCP
➝ complement dependent cytotoxicity
➝ pharmacokinetics/half life

Question 8

Describe how a polyclonal response occurs if you inject a mouse with an antigen?

Answer 8

➝ the antigen has many epitopes on it
➝ after a week an antibody response is generated to the antigen
➝ there are B cells that will produce antibodies to different epitopes of the antigen (polyclonal response)
➝ The B cells proliferate and form clones of themselves and secrete antibodies which are all the same specificity as the original B cell

Question 9

Who invented monoclonal antibodies?

Answer 9

➝ Milstein and Kohler

Question 10

Describe how monoclonal antibodies are made in a lab?

Answer 10

1) You take the antigen that you want antibodies against and inject it into a mouse
2) After a week or two weeks you harvest the B cells which make the antibody
3) The B cells are taken and are fused using polyethylene glycol with a cell-culture line of myeloma cells
4) The myeloma cells also lack the hypoxanthine-guanine phosphoribosyl transferase (HGPRT) gene
5) After the fusion has occurred there is a mixture of cells : unfused B cells and myeloma cells, and fused cells called hybridomas
6) The next stage is trying to select for the hybridomas and remove the unfused cells
7) This is done using a selection called HAT (hypoxanthine-aminopterin-thymidine) selection
8) In HAT medium myeloma cells die as they cannot make nucleotides due to lack of HGPRT gene.
9) B have the gene but cells die as they have a short life span, only hybridomas grow and proliferate
10) Then there is a mixture of hybridoma cells which are diluted to individual cells
11) The cells are cultured individually they proliferate to form a clone of cells identical to the original parent

Question 11

What are myeloma cells?

Answer 11

➝ immortal cells derived from a B cell tumor that do not produce antibodies themselves

Question 12

What are monoclonal antibodies?

Answer 12

➝ antibodies that bind specifically to one epitope

Question 13

How long can hybridomas be stored for?

Answer 13

➝ indefinitely

Question 14

What are isotypic antibodies?

Answer 14

➝ polyclonal or monoclonal antibodies that bind to Fc regions of particular antibody classes e.g IgG or IgA

Question 15

What is an assay?

Answer 15

➝ measures amount or concentration of antibody or antigen

Question 16

What 2 enzymes are used as labels in assays?

Answer 16

➝ Horseradish peroxidase

➝ alkaline phosphatase

Question 17

What is an example of a solid phase immunoassay?

Answer 17

➝ ELISA test

Question 18

What are the three types of ELISA test?

Answer 18

➝ Direct
➝ Indirect
➝ Sandwich

Question 19

What are direct/indirect ELISA tests used for?

Answer 19

➝ to quantify an antibody

Question 20

What are sandwich ELISA tests used for?

Answer 20

➝ to quantify an antigen

Question 21

How does a direct ELISA test work?

Answer 21

➝ The antigen is immobilised on a solid support
➝ the test antibody solution covalently linked to enzymes is added
➝ enzyme substrate is added and a colored product is produced which can be measured by absorbance

Question 22

What are the two uses of the direct ELISA test?

Answer 22

➝ screen hybridoma supernatants

➝ detect exposure to an infectious agent

Question 23

How does an indirect ELISA test work?

Answer 23

➝ Antigen immobilised on a solid suport
➝ primary antibody which binds to the antigen is added
➝ secondary antibody covalently attached to an enzyme is subsequently added
➝ the secondary antibody binds to the Fc region of the primary antibody
➝ the enzyme substrate is added and color is measured by absorbance

Question 24

Why is an indirect ELISA used?

Answer 24

➝ the second antibody is often polyclonal so it can bind to different epitopes on a primary antibody
➝ this allows multiple secondary antibodies to bind to the same primary antibody
➝ this amplifies the signal and increases the sensitivity of the test

Question 25

What is the sandwich ELISA used for?

Answer 25

➝ concentrating the antigen when the antigen is present in a low concentration

Question 26

What is needed for a sandwich ELISA?

Answer 26

➝ Two antibodies reacting with different epitopes

Question 27

How does a sandwich ELISA test work?

Answer 27

➝ One antibody is immobilised on a solid support
➝ the test antigen solution is added, incubated and non-bound antigen is removed by washing
➝ the bound antigen detected by incubation with the other antibody which has been labelled
➝ non bound removed by washing

Question 28

What is the name of an immunoassay done to measure cytokine secretion?

Answer 28

➝ Elispot

Question 29

How does an Elispot work?

Answer 29

➝ There are antibodies specific to the cytokine you are trying to detect
➝ they are immobilised at the bottom of an ELISA plate
➝ you add activated T cells to the plate
➝ the T cells will secrete the cytokines
➝ the cytokine will bind to the antibody
➝ a second antibody conjugated to an enzyme is added to detect the colored product

Question 30

What are the 4 things a western blot and an SDS PAGE can be used for?

Answer 30

➝ Can be used to detect antigens or antibodies
➝ used to measure the size of the protein being analysed
➝ can be used to calculate the protein concentration
➝ may show if a protein has been degraded

Question 31

How does a western blot work?

Answer 31

➝ you take the sample with the protein you are trying to detect and boil it with sodium sulfate, this will bind to the proteins and give it a net negative charge
➝ then you run the protein in gel
➝ the protein will run according to its size
➝ the proteins from the gel are blotted onto nitrocellulose
➝ you can probe the nitrocellulose with an antibody linked to an enzyme that gives a colored product
➝ when you add the substrate you can see a band that forms on the nitrocellulose

Question 32

What is SDS PAGE/western blotting used alongside?

Answer 32

➝ ELISA

Question 33

How can protein concentration be measured in western blotting?

Answer 33

➝ Compare the intensity of the band you are detecting to a band from a protein standard of a known concentration

Question 34

If a protein is degraded why is it more useful to use a western blot to calculate protein concentration?

Answer 34

➝ Some of the degradation fragments may contribute a signal in ELISA if both the coating and detecting antibody are able to bind to them

Question 35

Describe how you can use antibody-antigen interaction for purification of immune cell subsets?

Answer 35

1) The antibodies are coated with magnetic beads
2) The antibodies will bind specifically to certain proteins on the surface of the immune cell that you are trying to isolate
3) Once it is bound you can put the cells with the antibodies into a machine with an iron wall mesh
4) You can apply a magnetic field and only the cells which have the antibody coated in magnetic particles will bind to the iron mesh and the other cells with be washed out
5) You can remove the magnetic field and elute the cells
6) The cells will be the type you wanted to isolate

Question 36

Describe how you can use flow-cytometry and antibody-antigen interaction to sort cells ?

Answer 36

1) Antibodies bind to a particular cell that binds to a protein on its surface
2) The antibodies are labelled with a fluorescent dye
3) Once there is a mixture of cells you put them into the flow cytometer
4) They are passed through a very thin nozzle to form a single line of cells
5) As that happens a laser beam is shone through as the cells go through the nozzle
6) Individual cells pass through the laser beam which scatters light and causes the dye to fluoresce and provides information on bound antibody and cell surface protein

Question 37

What leads to rejection of non-self?

Answer 37

➝ genetic differences between individuals

Question 38

What does MHC class I bind?

Answer 38

➝ fragments of intracellular proteins

Question 39

What does MHC class II bind?

Answer 39

➝ Fragments of proteins which have been taken up by endocytosis

Question 40

Where is the MHC gene located?

Answer 40

➝ chromosome 6

Question 41

How are MHC alleles of donor and recipient identified?

Answer 41

➝ PCR

Question 42

How do you separate a control and X linked agammaglobulinaemia cells with flow cytometry?

Answer 42

➝ B cells have a surface protein called CD19
➝ tag the CD19 with an antibody
➝ put it through a flow cytometer
➝ in a normal individual you will have cells that express CD3 (T cells) and CD19
➝ X linked only has CD3 cells

Question 43

How are lymphocyte subset estimations done with flow cytometry?

Answer 43

➝ monoclonal antibodies to CD3, CD4 and CD8

➝ the percentage of cells in each subset is determined using flow cytometry

Question 44

How do you track T cell responses using flow cytometry?

Answer 44

1) MHC specific complexes made which bind specifically to the TCR of t clells
2) At the C terminal end biotin has been added which binds strongly to streptavidin linked to a fluorochrome
3) A fluorochrome e.g phycoerythrin is added and visualisation is done by flow cytometry
4) Interaction between TCR and MHC is usually quite weak, having a tetramer makes binding more likely
5) By creating MHC complexes loaded with HIV antigen we can calculate what proportion of CD8 + T cells will bind to the antigen

Question 45

Where are neutrophils found?

Answer 45

➝ acutely inflamed tissue

Question 46

What do neutrophils do?

Answer 46

➝ Ingest pathogens and kill using reactive oxygen species

Question 47

What generates pus?

Answer 47

➝ Neutrophils rapidly die after phagocytosis

Question 48

What is neutropenia?

Answer 48

➝ a deficiency in neutrophil numbers

Question 49

What is the outcome of a deficiency in phagocyte function?

Answer 49

➝ chronic granulomatous disease

➝ patients cannot form ROS and succumb to bacterial and fungal infections

Question 50

How do you measure neutrophil function?

Answer 50

➝ Neutrophil oxidative burst assay

Question 51

How does the neutrophil oxidative burst assay work?

Answer 51

➝ Non fluorescent dihydrorhodamine when phagocytosed by normal activated neutrophils (after stimulation with PMA - phorbol myristate acetate) can be oxidised by ROS
➝ ROS oxidises DHR to rhodamine 123, a green fluorescent compound

Question 52

When are ROS produced?

Answer 52

➝ during the activated neutrophil respiratory oxidative burst

Question 53

What is nephelometry?

Answer 53

➝ An automated rapid method used to measure serum immunoglobulin levels

Question 54

What does nephelometry rely on?

Answer 54

➝ light scattering properties of antigen-antibody complexes

Question 55

How does nephelometry work if you want to study IgG?

Answer 55

➝ You take some serum and add anti IgG (anti-isoantibody)
➝ they form complexes and light is shone through the serum
➝ the complexes diffract the light and the amount of diffraction is measured and it will correspond to the number of the complexes

Question 56

What antibody is predominant in allergic responses?

Answer 56

➝ IgE

Question 57

What causes reddening and swelling of the skin during the allergic response?

Answer 57

➝ IgE binds to an allergen and via the Fc region of the antibody binds to receptors on mast cells
➝ this causes mast cells to degranulate causing the release of mediators (histamine) which causes redness and swelling

Question 58

How does the skin prick test work?

Answer 58

➝ prick the skin with potential allergens, if they are allergic there will be a bump

Question 59

How is RAST done?

Answer 59

➝ the suspended allergen is bound to an insoluble material and the patients serum is added
➝ if the serum contains antibodies to the allergen the antibodies will bind to it
➝ radio-labelled anti human IgE antibody is added and it binds to the IgE antibodies already bound to the insoluble material
➝ the amount of radioactivity is proportional to the serum IgE for the allergen

Question 60

What does RAST stand for?

Answer 60

➝ radioallergosorbent test

Question 61

What two tests are done for SLE?

Answer 61

➝ ELISA (quantitative)

➝ immunofluorescence (qualitative)

Question 62

How is immunofluorescence done for SLE patients?

Answer 62

➝ serum is added to a human cell line
➝ it is probed with fluorochrome labelled anti-immunoglobulin antibody
➝ visualised by fluorescence microscopy

Question 63

What % of SLE patients are anti-nuclear antibody positive?

Answer 63

➝ 98%

Question 64

What are IV immunoglobulins?

Answer 64

➝ a blood product purified from the serum of between 10,000-15,000 people

Question 65

What are IV immunoglobulins used to treat?

Answer 65

➝ patients with antibody deficiencies

Question 66

How much IV immunoglobulin is used for treatment?

Answer 66

➝ 200-400mg/kg/3 weeks

Question 67

What is a high dose of IV immunoglobulin and what is this used for?

Answer 67

➝ 2g/kg/4 weeks

➝ immunomodulatory agens in immune and inflammatory disorders

Question 68

What is given if a person contracts rabies?

Answer 68

➝ Polyclonal antibodies isolated from the serum of individuals who have been immunised with the rabies vaccine are injected into the wound site

Question 69

How do monoclonal antibodies exert effects in treatment?

Answer 69

➝ binding and blocking a process

➝mediating immune responses such as the initation of complement or antibody cell mediated cytotoxicity

Question 70

How are monoclonal antibodies used to kill cancer cells?

Answer 70

➝ Toxins or radionuclides can be joined to monoclonal antibodies
➝ the antibody binds to the cancer cell which is then killed by toxin or radioactivity