13 - monoclonal antibodies

Question 1

inject 1 antigen into a mouse - what kind of response?

Answer 1

polyclonal

Question 2

polyclonal response

Answer 2

complex mixture/pool of antibodies produced
many different B cells switched on
no discrimination between antigens

Question 3

why do we get a polyclonal response

Answer 3

1 antigen carries many different epitopes

each antibody specific for a different epitope

Question 4

what does the monoclonal response allow

Answer 4

recognition of just the 1 B cell producing the antibody of interest
no cross reaction with other epitopes

Question 5

relevance of Kohler and Milstein 1975

Answer 5

hybridoma technology

production of monoclonal antibodiees

Question 6

what does hybridoma technology allow

Answer 6

identification and culture of cells secreting identical antibodies with pre-defined specificity

Question 7

method of hybridoma technology

Answer 7

immunise animal and allow immune response to build up
B cells become activated by specific antigen causing disease
B cells produce monoclonal antibodies
fuse splenocyte with myeloma cell
results in immortal hybridoma cell

Question 8

splenocyte

Answer 8

antibody producing B cell from the spleen with a finite lifespani

Question 9

myeloma cell

Answer 9

non antibody producing B cell with infinite life span

produces immortality in hybridoma cells

Question 10

3 methods to immunise/inject the mouse

Answer 10

intrasplenically
into tail vein
into peritoneum

Question 11

most common way to immunise mouse

Answer 11

inject antigen into peritoneum

antigen can enter bloodstream quickly to amount immune response

Question 12

time course of immunisation of mouse

Answer 12

after a few days
- build up and activation of multivalent, low affinity IgM antibodies

after 2 weeks

• immunise again
• allow build up of immune response then drop off

after multiple boosts
- build up of bivalent, higher affinity IgG

Question 13

method to test which cells are fully fused hybridoma cells

Answer 13

tail vein removed from mouse and serum from blood tested for immune response
if +ve, then booster injected
spleen then removed from mouse and cells fused with myeloma cells in vitro to produce hybridoma cells

isolation

• HAT medium: knocks out un-fused splenocytes and myeloma cells
• ELISA used as screening assay to identify well producing antibody of interest
• expand cell

Question 14

hybrid cell selection using HAT medium

Answer 14

hybridoma cells have HGPRT from spleen and immortality from myeloma cells
therefore they are the only cells that will grow in the HAT medium

Question 15

HAT medium =

Answer 15

Hypoxanthine-Aminopterin-Thymidine medium)

Question 16

aminopterin

Answer 16

blocks main biosynthetic pathways for nucleic acids

prevents cells from making RNA/DNA

Question 17

importance of adding Hypoxanthine and Thymidine

Answer 17

they can salvage the biosynthetic pathways for making nucleic acid

Question 18

importance of HGPRT

Answer 18

only cells that have HGPRT can make RNA via the salvage pathway

Question 19

use of ELISA

Answer 19

assay used by immunologists that allows identification of antibody of interest

Question 20

method of ELISA

Answer 20

microtitre well with antibody attached
expose hybridoma solution to the well
add antibodies to bind to Fab region of antigen
add secondary antibodies to target Fc domain of primary antibody
colour reaction allows identification

Question 21

example secondary antibody used in ELISA

Answer 21

rabbit-antimouse enzyme conjugate

Question 22

phage display technology

Answer 22

takes antibody fragments and expresses them as fusion proteins on the outside of bacteriophage

Question 23

method of phage display technology

Answer 23

take B cell source and make a combinatorial library
convert mRNA to cDNA
PCR –> amplifies V-gene families
reassemble V-genes into new combinations
phage then expresses new combinations on surface as antibody fragments

Question 24

V-gene families

Answer 24

variable light and heavy genes of antibody

Question 25

scFv

Answer 25

single chain variable fragment

a fusion protein of the variable regions of the heavy and light chains of immunoglobulins

Question 26

where to bacteria express scFv

Answer 26

on their terminal coat protein

Question 27

pII protein

Answer 27

allows Fab fragments to also be expressed on the phage as an antibody fragment

Question 28

if antibody fragments are expressed along the length of the phage

Answer 28

then there is low affinity of antibody expression

Question 29

isolating antibodies using phage technology

Answer 29

use ELISA on phage population

process called biopanning

Question 30

limitations of biopanning

Answer 30

very expensive and fiddly

Question 31

method of biopannign

Answer 31

expose antigen to phage population
wash off non-binding antigens
identify bound phages using reporter molecule
use UV to eliminate non-bound
elute/remove bound phages and increase population using E.Coli

Question 32

3 methods of in vitro diagnositc assays using monoclonal antibodies

Answer 32

1 - ELISA
2 - Lateral-flow assay (LFA)
3 - Proximity Ligation Assay (PLA)

Question 33

PLA - proximity ligation assay

Answer 33

use PCR from antigen instead of from nucleic acid

Question 34

uses of monoclonal antibodies

Answer 34

• diagnostic pathology to identify cancerous cells
• in vitro diagnostic assays
• diagnostics to track pathogens
• affinity purification
• characterisation of antigens

Question 35

recent surge in ability to use mouse monoclonal antibodies (mAbs) in vivo due to

Answer 35

phage display and hybridoma technology

Question 36

problems with monoclonal antibody use

Answer 36

need to “humanise” monoclonal antibodies otherwise the immune system recognises them as foreign and the mouse antibdy will be destroyed quickly (HAMA reactions)

Question 37

xenogenic

Answer 37

antibodies coming from another species

Question 38

HAMA reaction

Answer 38

Human Anti-Mouse Antibody reaction

Question 39

4 methods of humanisation

Answer 39

1 - produce human hybridomas
2 - create chimeric antibody
3 - CDR grafting
4 - make a transgenic mouse

Question 40

limitations to the production of human hybridomas

Answer 40

low efficiency

ethical issues - source of human B cell pool?

Question 41

production of chimeric antibodies

Answer 41

replace constant region of mouse antibody with humans

Question 42

CDR grafting

Answer 42

replace CDR of human antibody with mouse CDR

Question 43

advantages of transgenic mouse

Answer 43

fully humanised

Question 44

disadvantages of transgenic mouse

Answer 44

expensive

Question 45

transgenic mouse method

Answer 45

knock out all mechanisms to create mouse antibodies
replace with humans
only human antibodies expressed

Question 46

Rituximab

Answer 46

chimeric antibody drug