Investigation of Disease - Cancer Investigation

Question 1

What is the lifetime risk of cancer for people born since 1960?

Answer 1

> 50%

Question 2

What is cancer?

Answer 2

Disease caused by uncontrolled cell division of normal body cells

Question 3

What is the definition of a tumour and neoplasia?

Answer 3

Tumour - swelling of a part of the body generally caused by abnormal cell growth
Neoplasia - new growth
Term can be used interchangably

Question 4

What are the main 2 types of cancer?

Answer 4

1) Benign

2) Malignant - a malignant neoplasm is termed cancer

Question 5

Describe the difference between a benign and malignant tumour in terms of the following; size, border, differentiation, growth rate, mitotic figures (dividing cells), cell death, invasion and metastasis

Answer 5

Size:
B - small
M - large
Bordors:
B - well defined
M - ill defined
Differentiation:
B - resembles tissue of origin
M - Variable
Growth rate:
B - Slow
M - Rapid
Mitotic figures:
B - Rare
M - Common 
Cell death:
B - No
M - Yes
Invasion
B - No
M - Yes
Metastasis:
B - No
M - Yes

Question 6

What is the difference between cancer detection and diagnosis?

Answer 6

Detection: The action or process of identifying the presence of cancer in the absence of signs or symptoms
Diagnosis: The action or process of identifying the presence of cancer from its signs or symptoms

Question 7

How is early detection of cancer achieved?

Answer 7

Screening

Question 8

What are the 3 types of cancer screened for in adults in England, how are they performed and what age groups are tested?

Answer 8

1) Cervical screening
- Check health of cervical cells
- Offered every 3 years to women aged 26-49
- Every 5 years for women aged 50-64
2) Breast cancer screening
- Uses a mammogram (x ray) to spot cancer
- Offered to women aged 50 - 70
- NHS extending programme - trail in screening aged 47 - 53
3) Bowel cancer screening
- 2 types:
> Home testing kit (Faecal occult blood (FOB) test) offered to men and women aged 60-74
> Bowel scope screening -offered to men and women 55+, being introduced in England
- uses small camera on end of flexible tube

Question 9

Define the terms histopathology, cytopathology and molecular pathology

Answer 9

Histopathlogy - the microscopic study of diseased tissue
Cytopathology - The microscopic study of diseased cells
Molecular pathology - the study of molecules in a disease state

Question 10

What are the 4 main stages in histo-, cyto- and molecular pathology?

Answer 10

1) Specimen collection
2) Sample preservation
- formalin fixation etc
3) Sample processing e.g dissection, microtomy etc
4) Sample analysis

Question 11

What are the 6 types of patient biopsy?

Answer 11

• Cell scraping
• punch biopsy
• endoscopy
• needle biopsy
• surgical biopsy
• surgical resection

Question 12

What is cell scraping?

Answer 12

Taking a small sample of cells and observing them under the light microscope for the presence of disease

Question 13

What are the advantages of cell scraping over a tissue biopsy?

Answer 13

• Easier to get
• Causes less discomfort to patient
• Less likely to result in serious complications
• Costs less

Question 14

What type of cytology is cell scraping?

Answer 14

Exfoliative cytology

Question 15

For what 2 cancers would you use scrapes?

Answer 15

• Skin cells for melanoma

- Cervical cells for cervical cancer

Question 16

What is punch biopsy??

Answer 16

Involves taking a small disc of full thickness skin using a special punch biopsy instrument with a circular blade

Question 17

When would a punch biopsy be used?

Answer 17

For diagnosing skin diseases such as cancer

Question 18

What is the procedure of a punch biopsy?

Answer 18

1) Skin numbed with local anaesthetic
2) Instrument rotates into dermis
3) Instrument removed - sample either removed with instrument or with forceps
4) Samples over 3mm will need 1 or 2 stitches
4) 5mm or larger prefered for histopathology

Question 19

What is endoscopy?

Answer 19

Looking inside the body to check for growths or abnormal looking areas

Question 20

What is the endoscopy procedure?

Answer 20

Uses an endoscope - flexible tube with camera, light and sampling equipment on the end
Tissue sample can be taken

Question 21

What are the 4 main types of endoscopy?

Answer 21

1) Oseophageal and upper GI tract endoscopy - look at oesophagus, stomach and duodenum
2) Bronchoscopy - look and trachea and bronchi
3) Sigmoidoscopy - lower bowel
4) Colonoscopy - look at colon

Question 22

What is fine needle aspiration (FNA) (needle biopsy)

Answer 22

Involves using a thin, hollow needle to remove samples of tissue fragments or cells in fluid from an organ of the body or lump found under the skin

Question 23

What is the FNA procedure?

Answer 23

• Tip of 22 or 23 gauge needle attached to a 20 cc syringe is inserted into the mass
• Plunger withdrawn
• Needle removed - aspirate is expelled on one or more glass microscope slides and smeared

Question 24

What cancers can FNAs be used to diagnose?

Answer 24

• Breast
• Thyroid
• Lung
• Pancreatic

Question 25

What is core needle biopsy (needle biopsy)

Answer 25

Uses a larger needle than FNA (11 to 16 gauge)

Used to extract a cyclinder of tissue, which provides more sample for analysis

Question 26

What is the core needle biopsy procedure?

Answer 26

• Often skin is numbed with LA and small incision made
• Needle inserted 3-6 times into palpable (detected by touch) lesion to obtain cores
• If lesion is not palpable then imaging technique used to guide operator
• The include; Ultrasound, MRI or stereostatic radiography

Question 27

What types of cancer can core needle biopsy be used to diagnose?

Answer 27

• Liver
• Prostate
• Breast

Question 28

What is surgical biopsy, what are the 2 types and what does each diagnose?

Answer 28

Surgical biopsy is a surgical procedure to remove tissue samples
1) Incisional biopsy
Removes sample of diseased tissue/tumour
- Breast
- Skin
- Soft tissue cancers - sarcomas (GI tract, gynecological)
2) Excisional biopsy
Removes all of diseased tissue - lump often with some healthy tissue
- Breast
- Skin
- Prostate
LA usually used
If tumour is in chest or abdomen, GA used

Question 29

What is resection?

Answer 29

Resection is medical term for surgically removing part or all of a tissue, structure or organ

Question 30

What are the common types of resection?

Answer 30

• Lung
• Liver
• Small bowel - removal of small parts of small intestine
• Brain

Question 31

What are the 4 types of lung resection?

Answer 31

1) Wedge resection
- Removes small portion of lobe
2) Segment resection
- Removes larger portion of lobe
3) Lobectomy
- Removes entire lobe
4) Pneumonectomy
- Removes entire lung

Question 32

What are the 2 types of cervical cancer?

Answer 32

1) Endocervical carcinoma
- Caused by abnormal growth of glandular tissue in cervix (cervical glandular neoplasia)
2) Squamous cell carcinoma of cervix (most common - 70-80%)
- Caused by abnormal growth of skin like epithelial cells of cervix (cervical intraepithelial carcinoma)

Question 33

What causes cervical cancer?

Answer 33

Change in cellular DNA by human papilloma virus
(HPV)
- Over 100 types
- Spread by sexual intercourse mainly
- Over 99% of women who get cervical cancer have been infected with HPV

Question 34

What is used to extract cells from the cervix?

Answer 34

A surgical broom

Question 35

Who developed the Pap stain and what 3 solutions are involved?

Answer 35

Developed by George Papanicolaou
1) Haematoxilyn (violet):
- Stains cell nuclei
2) OG6 (orange):
Acid stain - reacts with keratin - often found in abnormal squamous epithelial cells of cervix
3) Eosin azure (EA, light blue)
- Acid stain made of eosin and light green dyes
- Usually suffixed by a number to denote proportions of constituent dyes e.g EA-36, EA-50
- EA-50 most common
- Stains cytoplasm of cells various shade of pink or green depending on cellular conditions e.g pH

Question 36

What is dyskaryosis?

Answer 36

Morphological abnormality of the nucleus
- usually a result of HPV infection
-

Question 37

What are the 3 stages of dyskaryosis?

Answer 37

Mild
Moderate
Severe

Question 38

Define immunocytochemistry and immunohistochemistry

Answer 38

ICC
- Method by which antibodies are used to detect proteins (or other molecules) in cells
- Performed of intact cells that have had most of their surrounding matrix removed
IHC
- Method by which antibodies are used to detect proteins (or other molecules) in the cells of a tissue
- Performed on sections of tissue

Question 39

What is an anitbody?

Answer 39

Proteins produced by B lymphocytes in vertebrate animals in response to a foreign molecule or organism

Question 40

What is an antigen?

Answer 40

Any target molecule that is recognised by and bound by an antibody
- Can be proteins, lipid, sugars and even small organic molecules

Question 41

What group of proteins do antibodies belong to and which is the most common?

Answer 41

Immunoglobulins (Igs)

• comprised of IgG, IgA, IgM, IgD and IgE
• IgG most common

Question 42

What is the structure of an antibody?

Answer 42

• 2 identical light chains
• 2 identical heavy chains - each int interrupted in the middle by a hinge
• 2 antigen binding sites
  L and H chains held together by disulphide bonds

Question 43

What is the name of the region of an antigen that interacts with the antibody?

Answer 43

Epitope

Question 44

What 2 regions does each light and heavy chain have?

Answer 44

A constant (c) region - chains
A variable (v) region - antigen binding
The variable regions of the L and H chains combine to for the antigen binding site

Question 45

The diverse range of variable regions of an antibody result in how many different types?

Answer 45

10^7

Question 46

What bonds form between an antibody and an epitope and what are the implications of this on the reaction?

Answer 46

• Non covalent
• Involves hydrophobic interactions and hydrogen bonding
• Reactions are reversible

Question 47

What are the key types of lympocytes in the adaptive immune reponse and what do they do?

Answer 47

B cells
- recognise soluble foreign molecules and secrete antibodies, which bind to foreign molecules, form aggregates and then are engulfed by macrophages
Cytotoxic T cells - recgonise foreign or infected cells and lyse them
Helper T cells
- control the responses of T and B cells

Question 48

How does a B cell recognise an antigen and secrete new antibodies?

Answer 48

• Surface of each B cell is covered with on type of membrane bound antibody
• 10^7 different types of membrane bound antibody so 10^7 different types of B cell
• Antigen binds to membrane bound antibody
• B cell stimulated to proliferate and differentiate into plasma cell that secretes large amount of same antibody

Question 49

What does immunogenicity mean?

Answer 49

The ability of a molecule to raise an adaptive immune response
Antigens used in antibody generation must be immunogenic

Question 50

What is the process of B cell activation?

Answer 50

• Antigen binds to B cell surface antibody
• B cell engulfs and digests antigen
• Displays antigen fragments bound to unique MHC molecules
• combination of antigen and MHC attracts a mature, matching T cell
• Cytokines secreted by T cell help B cell to multiply into antibody producing plasma cells

Question 51

What 3 things make a good immonogen?

Answer 51

1) Must be an antigen - bind to cell surface antibodies
2) Must be degradable one taken into B cell
3) Degraded fragments must be big enough so that they have at least one binding site that can be recognised by the MHC molecules and the T cell receptor
(antigen needs to be at least 3-5kDa in size)

Question 52

How are polyclonal antibodies produced?

Answer 52

• Injecting an animal (usually a rabbit, mouse, sheep or goat) with an immunogen
• Repeated injections of same immunogen at intervals of several weeks stimulate antigen specific B cells to produce antibodies into blood
• If immunogen is large then will have multiple different epitopes
• Will therefore activate more than one type of B cell
• Take blood - blood will contain antibodies secreted from more than one type of plasma cell = Polyclonal antibodies

Question 53

What is the difference between polyclonal and monoclonal antibodies?

Answer 53

Polyclonal - Antibodies from more than one type of plasma cell, which therfore each bind to a different epitode on an antigen
Monoclonal - Antibodies from one type of plasma cell and therefore only bind one epitope

Question 54

How are monoclonal antibodies generated?

Answer 54

• Inject mouse with immunogenic antigen
• Immune response, production of antibodies
• Isolate spleen - contains large amount of plasma cells
• Plasma cells are fused with multiple myeloma cells (type of B cell tumour) that are immortal
• Fused by adding poly ethylene glycol (PEG) to the cell mixture, which fuses their plasma membranes
• Fused cell is called a hybridoma
• HAT medium will kill unfused myeloma cells but will allow fused cells to grow
• One plasma cell fuses with one myeloma cell - so hybridoma only secretes one antibody - MONOCLONAL

Question 55

What are the advantages and disadvantages of polyclonal antibodies?

Answer 55

Advantages:
- Inexpensive to produce
- Low tech and skills required for production
- Production time is short
- Multiple epitopes provides more robust detection
Disadvantages:
- Batch to Batch variability
- Can produce non specific antibodies that give background signals
- Multiple epitopes make it important to check immunogen for any cross reactivity

Question 56

What are the advantages and disadvantages of monoclonal antibodies?

Answer 56

Advantages:
- Less likely to cross react
- No non specific antibodies
- Highly reproducable results - less batch to batch variation
- Renewable supply of antibody - immortal hybridoma
Disadvantages:
- High technology/training required
- Time scale is long
- Antibodies may be too specific

Question 57

Why do proteins make good sources for immunogens?

Answer 57

• Large enough

- Multiple antibody binding sites (epitopes)

Question 58

What are the 2 main sources of immunogen antigen protein?

Answer 58

1) Protein isolated from a natural source - bovine brain, human spleen
2) Protein overexpressed in a recombinant system
- E.coli
- Yeast
- Insect cells

Question 59

How are synthetic peptides used as antigens?

Answer 59

Advantage - doesn’t require you to actually have the proteins

• Peptide synthesisier can produce peptide of around 12-20 AA long
• Peptide is antigenic but not immunogenic
• Therefore it is cross linked with an immunogenic carrier protein (large and soluble)

Question 60

What are the common types of carrier protein used in peptide immunogen formation?

Answer 60

• Bovine serum albumin (BSA)

- Keyhole Limpet Haemocyanin (KLH)

Question 61

Antibodies tend to interact with the outside of proteins which have what property?

Answer 61

Hydrophilic

Question 62

What is the name of the computer programme that can predict the hydrophilic and hydrophobic regions of a protein?

Answer 62

Kyte and Doolittle

Useful for selecting a suitable immunogenic peptide

Question 63

What is an antibody titre?

Answer 63

Measurement of how much antibody an organism has produced that recognises a particular epitope

Question 64

What method is used to measure the antibody titre?

Answer 64

Enzyme-Linked Immuno-Sorbant Assay (ELISA)

Question 65

How is the ELISA performed?

Answer 65

• Coat a plate with solution of the immungen
• Wash
• Add dilutions of the (rabbit) serum to be tested to the plate and leave ~2hrs so peptide binds
• wash
• Add a diluted solution of a (anti-rabbit) secondry antibody coupled to an enzyme eg HRP
• Wash
• Add colour development substrate (HRP reacts with ABTS to give a green coloured product)
• Plate added to plate reader which measures Abs

Question 66

How are antibodies tested to check if they are specific to one antigen?

Answer 66

Western blotting using cell lysates that either

a) Express endogenous protein antigen
b) are made from cells transfected with the cDNA of the antigen, to overexpress the protein
c) mix recombinant protein into cell lysate

Example:
Western blot of cells transfected with or without the protein antigen:
A) Only transfected cells give signal, correct molecular weight. Specific antibody
B) Correct band but also other bands detected. Non specific antibody - needs purifying

Question 67

In what 2 ways can all the antibodies in a serum (one you want and those you dont) be purified?

Answer 67

1) Precipitation with ammonium sulphate
2) Affinity chromatography using Protein A- Sepharose
- Protein A is a protein produced by bacteria that can bind immunoglobulins (antibodies)
- eluted at low pH

Question 68

How can a specific antibody be purified?

Answer 68

Using affinity chromatography wither with immobilised purified antigen from natural source or using immobilised synthetic peptide an then elution at low pH

Question 69

What is the common name for a substrate of an enzyme tagged antibody?

Answer 69

Chromogenic substrate or a chromogen

Question 70

What are the 2 most common enzymes used in immunostaining?

Answer 70

Horseradish peroxidase and alkaline phosphatase

Question 71

How does HRP work?

Answer 71

Carries out the oxidation of molecules using hydrogen peroxide (H2O2) as a co factor

Question 72

What are the 2 most common chromogens for HRP and what colours do they produce?

Answer 72

1) 3,3 diaminobenzidine (DAB, colourless) - turns brown

2) 3-amino-9-ethylcarbazole (AEC) - turns red

Question 73

How does alkaline phosphatase work?

Answer 73

Removes phosphate from many molecules including nucleotides and proteins

Question 74

What is the chromogen of AP?

Answer 74

New fuchsin - converted to a pink/red product

Question 75

What is the main disadvantage of HRP and AP in immunostaining?

Answer 75

Must be chemically blocked or quenched before labelling so that false positive staining is eliminated

Question 76

What is direct immunostaining?

Answer 76

• One step
• Labelled antibody binds directly to the antigen
• Label may be enzyme or fluorescent tag eg. fluorescein

Question 77

What is the main advantage and disadvantage of direct immunostaining?

Answer 77

Advantage:
Procedure is short and quick
Disadvantage:
Insensitive due to little signal amplification
- Rarely used

Question 78

What is 2 step indirect immunostaining?

Answer 78

• Unlabeled primary antibody reacts with antigen
• Labeled secondary antibody reacts with primary antibody
• Secondary antibody must be agaisnt IgG of animal species in which primary antibody was raised
  Eg. If primary antibody is rabbit, secondary must be (for example) sheep anti-rabbit IgG antibody

Question 79

What is the main advantage of 2 step indirect immunostaining?

Answer 79

• More sensitive as signal amplification via several secondary antibodies react with different sites of primary antibody

Question 80

What are the 2 3-step indirect methods of immunostaining?

Answer 80

1) Peroxidase-anti-peroxidase (PAP) method

2) Avidin-Biotin Complex (ABC)

Question 81

What is the peroxidase-anti-preoxidase method procedure?

Answer 81

Same as 2 step methos but a complec of HRP and an antibody raised agaisnt the peroxidase itself
- good sensitivity due to signal amplification on 2nd and 3rd antibody

Question 82

What is the avidin-biotin complex procedure?

Answer 82

• Primary antibody binds to antigen
• Secondary antibody labelled with biotin is bound to primary antibody
• Biotin is vitamin B cofactor
• Protein avidin has high affinity for biotin - 4 biotin binding sites per avidin
• Third layer is either Avidin labelled with HRP or biotin labelled with HRP together with Avidin
  One disadvanatge is that biotin is found in human tissue, may need to be a blocking step with avidin

Question 83

What is the polymer based method of indirect immunostaining?

Answer 83

• Use of a polymer back bone (e.g. dextran) that permits multiple antibodies and enzymes to be attached

Question 84

What is the major advantage and potential disadvantage of polymer based methods?

Answer 84

Advantage:
Does not use biotin so avoids need for blocking steps
Potential disadvantage:
Certain epitopes may be restricted due to steric hindrance

Question 85

How is the extent of staining scored in a histopathology lab?

Answer 85

Negative, +, ++ and +++
or
0, 1, 2 and 3

Question 86

What are carcinomas, sarcomas, mesotheliomas, melanomas, leukaemias and lymphomas?

Answer 86

Carconoma:
- Cancer of cells of epithelial origin e.g. skin or cells that line internal organs
- Subtypes include adenocarcinomas - derived from glandular epithelium e.g. GI tract or breast
Sarcoma:
- Connective tissue cancers e.g muscle
Mesothelioma:
Mesothelioma cells - cover outer surface of most internal organsm e.g mesothelium of lung from asbestos exposure
Melanoma:
Cancers of melanocytes in skin
Leukaemia:
Cancers of white blood cells
Lymphoma:
Cancers of lymphatic system e.g. lymph nodes

Question 87

What is ductal carcinoma in situ (DCIS)?

Answer 87

Most common type of non invasive breast cancer
- A proliferation of
malignant epithelial cells that have not breached the myoepthithelial layer of the ductolobular system

Question 88

What is performed to decide whether a breast tumour is invasive or not?

Answer 88

Immunostaining is performed using a panel of antibodies to conform the presence of an intact layer of myoepithelial cells - which indicates that the cancer is DCIS

Question 89

How are oestrogen receptors in the breast related to breast cancer?

Answer 89

• Binding of oestrogen to oestrogen receptor causes the ER to translocate from cytoplasm to nucleus, where is binds to DNA and transcribes genes important for cell proliferation
• Can be overexpressed in breast cancer

Question 90

What drug is used to prevent the activity of the ER in breast cell proliferation?

Answer 90

Tamoxifen - binds to oestrogen receptors and blocks activity of ER

Question 91

How is immunostaining used to determine whether DCIS patients should be prescribed with tamoxifen?

Answer 91

Immunostaining of the ER to determine whether it is the cause

Question 92

How is ductal carcinoma in situ (DCIS) treated?

Answer 92

• If DCIS cells have oestrogen receptors then tamoxifen prescribed
• Area of DCIS removed, with border of healthy tissue around it
  > called wide local excision
• Radiotherapy common post surgery
• Some women choose to have entire breast removed (Mastectomy)

Question 93

What is Human Epidermal Growth Factor 2 and what is its relation to breast cancer?

Answer 93

Protein found on surface of many cells

• Usually high in cancer
• ~20% of all breast cancers express high HER2
• Breast cancers that express HER2 tend to be more aggressive

Question 94

How is HER2 treated?

Answer 94

• The HER2 test to see if its high

- Herceptin - monoclonal antibody that can bind to and block activity of HER2

Question 95

What is molecular pathology and what does it aim to investigate?

Answer 95

• Study of molecules in the diseased state
  Aims to investigate:
• Changes in the sequence, structure or amount of DNA - changes protein
• Increase or decrease in the amount of RNA - related to expression

Question 96

How can molecular pathology be used in disease prevention?

Answer 96

Tests that look for inherited genetic disease allow for preventive measures:
E.g. people wth family history of colon cancer can be tested for presence of inherited mutations in genes such as APC
- Individuals with family history of breast and/or ovarian cancer can be tested for mutations in the BRCA1 and BRCA2 genes

Question 97

How can molecular pathology be used in diagnosis and treatment?

Answer 97

Molecular testing to diagnose certain forms of cancer and then predict their response to certain drugs

• ‘personalised medicine’
• e.g. HER2 testing in breast and gastric cancer
• BRAF testing in melanoma
• BCR-ABL testing in chronic myeloid leukaemia (CML)

Question 98

Why does a APC gene mutation often cause colon cancer?

Answer 98

APC gene is known as a tumour suppressor gene

- Mutated APC gene causes mutated adenomatous polyposis coli (APC) protein

Question 99

Describe the meaning of a substituation, insertion, deletion, amplification and translocation mutation

Answer 99

Substitution (point mutation) - exchanges one base for another
Insertion - extra base pair inserted
Deletion - section of DNA is deleted, usually single bp
Amplification - An increase in the number of copies of a gene
Translocation - A chromosome or chromosome segment is interchanged with another whole or partial chromosome

Question 100

What is melanoma and what is its prevalence in the UK?

Answer 100

Cancer of melanocytes - pigment cells found in the dermis of the skin
~ 13,300 people diagnosed each year in the UK
6th most common cancer in UK

Question 101

What gene can commonly cause melanomas?

Answer 101

BRAF gene - BRAF is a kinase protein that regulates proliferation of melanocytes

Question 102

What % of melanomas have a point mutation in the BRAF gene?

Answer 102

50%

Question 103

What occurs to the BRAF protein and what is the corresponding nucleotide change?

Answer 103

Valine 600 is converted to glutamic acid - causes hyperactivation of BRAF which drives melanocyte proliferation
Wild type DNA = GTG = valine
Mutant DNA = GAG = glutamic acid

Question 104

What is the name of the drug used in melanomas and how does it work?

Answer 104

• Vemurafenib ( commercial name = Zelboraf)

- Blocks activity of mutant BRAF kinase

Question 105

How is the mutation of the BRAF gene tested using PCR?

Answer 105

• Detects changes from GTG to GAG
• 2 primers added
• 95 degrees - hybridisation
• 50 degrees - annealing of primers
• 72 degrees - optimum for DNA polymerase
• 1 primer will be designed to only bind to GAG mutant and not GTG wt - only mutant DNA amplified

Question 106

How is the mutation of the BRAF gene tested using real time PCR?

Answer 106

• olignonucleotide called TagMan Probe is added to reaction mixture including enzyme, DNA and 2 primers
• TagMan probe has a fluorescent dye attached at one end and another molecule at the other end that quenches the dye signal when they are in close proximity (atm, no fluorescence)
• Probe anneals to mutant BRAF sequence between the 2 primers
• Probe sits in path of polymerase
• When polymerase reaches probe, 4’ exonuclease activity vleaves probe releasing dye (fluorescent signal)
• Can be measured by fluorimeter
• Fluorescent signal = mutant BRAF

Question 107

How is Human epidermal growth factor receptor 2 (HER2) tested for?

Answer 107

• First test is detection of protein by IHC (immunostaining)
• If test is unclear e.g. 2+ staining, then a test will be performed to see if the HER2 gene is amplified (flourescent in situ hybridisation)
• Overexpression of the HER2 protein is often due to having multiple copies of the HER2 gene

Question 108

How is fluorescent in situ hybridisation performed to test for HER2 genes?

Answer 108

• DNA denatured
• Single strands hybridised with DNA probe with chemical tag e.g digoxigenin (dig)
• anti-dig antibodies linked with fluorophor bound to tag
• Gene located using epifluorescent microscopy

Question 109

What is chronic myeloid leukaemia (CML) and what causes it?

Answer 109

• Cancer of the white blood cells in which the granulocyte white cells are cancerous
• 95% of CML patients have abnormality called Philadelphia chromosome
• Caused by translocation of part of chromosome 9 to chromosome 22
• Causes fusion of c-abl gene on C9 with c-Bcr gene on C22

Question 110

What is the product of the fused c-abl c-Bcr gene?

Answer 110

• Production of fusion protein called p210 Bcr-Abl
• Has deregulated Abl tyrosine kinase activity
• Protein causes hyperproliferation of granuloctye white blood cells

Question 111

What drug can be used to treat CML and how does it work?

Answer 111

• Imatinib (commercial name Glivec)

- blocks activity of p210 Bcr-Abl protein

Question 112

How is bcr-abl detected?

Answer 112

Originally detected by Geimsa staining of chromosomes

- Often used in combination with FISH or RT-PCR where primers have been designed to detect translocation