Paper 1: Topic 3 Infection & response - Monoclonal antibodies (IV form) Flashcards
Explain what monoclonal antibodies are
Clones of a single type of antibody
i.e. they are all exactly the same shape and have the ability to bind to the same antigen
Explain how monoclonal antibodies can be produced
Hint: 8 key steps
- A mouse is injected with the antigen that causes the production of B-lymphocytes that produce the required antibody
- Cells from the spleen are removed from the mouse as they will have many B-lymphocytes. These cells are called myeloma cells.
- At the same time as step 1 and 2 cancer cells from a mouse’s bone marrow are grown in specialised petri dishes
- The B-lymphocytes from the mouse spleen are fused with the myeloma cells to form a hydridoma cell.
- The hybridoma cells are cultured in a petri dish and form clones
- The individual hybridoma cells are separated into wells and tested to check it is producing the required antibody.
- The hybridoma cells that are producing the required monoclonal antibody are cultured in large scale fermenters.
- The monoclonal antibodies produced by the cloned hybridoma cells are collected and concentrated for use.
State 2 advantages of using myeloma cells in producing monoclonal antibodies?
They are long lived
They are capable of rapid replication
State 2 uses of monoclonal antibodies
Pregnancy tests
Tests for specific cancers
Describe what a hybridoma cell is
A cell formed from the fusion of a tumour cell and B-lymphocyte
Explain why tumour cells are used in the production of monoclonal antibodies
They have the ability to replicate rapidly
To produce genetically identical cells
Which can all produce the same specific antibody
Give 2 reasons why monoclonal antibodies are so useful in diagnostic tests
Monoclonal antibodies, like all antibodies, only bind to one SPECIFIC antigen
This means they can be used to test for the presence of a specific chemical e.g. protein, hormone, cell
Give 3 uses of monoclonal antibodies in laboratory research
They can bind to specific hormones (or other chemicals) to measure their levels in body fluids
They can be used to test blood samples for the presence of specific pathogens
They can be used to locate specific molecules on certain cells or in certain tissues
Describe the 4 steps that allow monoclonal antibodies to be used to locate specific molecules in a cell or in a tissue
Monoclonal antibodies specific to the actual molecule that is to be located are produced
Fluorescent markers are added to the specific monoclonal antibodies
If the molecules are present in the sample the monoclonal antibodies will attach to the cells
The fluorescent marker allows the molecules to be detected
State 3 advantages of using monoclonal antibodies in cancer treatment
They can be used in some cancer treatments to target specific cells
Healthy cells are not killed as (unlike chemotherapy and radiotherapy which kill normal healthy cells as well as the cancerous cells)
There are less-side effects for the patient
Explain the concerns some people have about using monoclonal antibodies in cancer treatment
Monoclonal antibodies do cause more side-effects than were expected e.g. fever, vomiting, low blood pressure
State 3 possible side-effects from monoclonal antibody treatment
Fever
Vomiting
Low blood pressure
Name the hormone present in the urine of pregnant women that is detected in a pregnancy test
HCG
Describe how monoclonal antibodies are used in a pregnancy test
Hint: 6 key steps
The woman urinates over the end of the pregnancy test stick
Inside the test kit are monoclonal antibodies which are specific to HCG. These antibodies have a blue dye attached to them.
The dyed-monoclonal antibodies travel bind to HCG in the urine and travel up the test stick
When they get to the test window in the test strip the dyed-monoclonal antibodies that are bound to HCG bind to other fixed monoclonal antibodies. This causes a blue line to appear in the test window.
Some of the dyed-monoclonal antibodies travel further up the test stick to the test window
Here the dyed-monoclonal antibodies bind to another different fixed antibody. This causes a blue line to appear in the control window.
Describe the results you would see in a pregnancy test if the woman is pregnant and the test has worked properly
A blue line in the test window (confirms she is pregnant)
AND
a blue line in the control window (confirms the test has worked properly)