Cancer

Question 1

There were around 10 millions deaths due to cancer in 2020. What fraction of these deaths were attributed to modifiable risk factors, such as tobacco, alcohol, BMI etc..?

1 - 1/3
2 - 2/3
3 - 1/2

Answer 1

1 - 1/3

Question 2

What is the most common cancer worldwide?

1 - breast
2 - lung
3 - colon
4 - prostate

Answer 2

1 - breast
- prostate us most common in UK
- lung cancer kills more though

Question 3

Genes are inherited from parents and are essentially the instructions to produce proteins. What is the exon parts of a gene?

1 - coding part of gene
2 - non-coding part of gene
3 - nucleotide backbone of DNA
4 - contains start sequence for transcription

Answer 3

1 - coding part of gene

Question 4

Genes are inherited from parents and are essentially the instructions to produce proteins. What is an intron part of a gene?

1 - coding part of gene
2 - non-coding part of gene
3 - nucleotide backbone of DNA
4 - contains start sequence for transcription

Answer 4

2 - non-coding part of gene

Question 5

Typically we see higher cancer incidence in older patients. Why is this?

1 - immunocompromised
2 - increased genetic variability
3 - increased genetic mutations
4 - all of the above

Answer 5

3 - increased genetic mutations
- cells continually divide throughout life
- increased cell turnover = increased risk of mutations
- longer we live = more mutations and greater risk of cancers

Question 6

Are all cancers acquired through mutations as we age?

Answer 6

• no
• can be inherited, with mutations in gametes and their precursors

Question 7

What is a mutation in the DNA?

1 - altered instructions for a protein
2 - altered protein function
3 - altered protein structure
4 - all of the above

Answer 7

4 - all of the above
- change in instructions will affect the structure and function of the protein being made

Question 8

What is an allele?

1 - variations in chromosome shape and number
2 - variations of a specific gene
3 - variations in genes susceptible to cancer
4 - variations in the number of SNPs

Answer 8

2 - variations of a specific gene
- we get a gene from each parent for the same traits
- different versions of the same gene

Question 9

What is a germline mutation?

1 - mutation in a single nucleotide
2 - a chromosome is missing
3 - mutations present in gametes that is passed on to offspring
4 - mutations passed on in somatic cells

Answer 9

3 - mutations present in gametes that is passed on to offspring
- gametes are eggs in women and sperm in men
- these are inherited

Question 10

What is a proto-oncogene?

1 - mutated gene causing abnormal cell growth and division in cell cycle
2 - gene responsible for negative regulation of cell growth and division in cell cycle
3 - gene responsible for positive regulation of cell growth and division in cell cycle
4 - mutated gene unable to control cell growth and division in cell cycle

Answer 10

3 - gene responsible for positive regulation of cell growth and division in cell cycle

• these genes produce proteins that accelerate normal cell growth and division in the cell cycle

Question 11

What is a tumour suppressor gene?

1 - mutated gene causing abnormal cell growth and division in cell cycle
2 - gene responsible for negative regulation of cell growth and division in cell cycle
3 - gene responsible for positive regulation of cell growth and division in cell cycle
4 - mutated gene unable to control cell growth and division in cell cycle

Answer 11

2 - gene responsible for negative regulation of cell growth and division in cell cycle

• these genes produce proteins involved in DNA repair and inhibit transcription factors
• they are able to induce apoptosis if a cell is abnormal or growing too fast

Question 12

What is a oncogene?

1 - mutated gene causing abnormal cell growth and division in cell cycle
2 - gene responsible for negative regulation of cell growth and division in cell cycle
3 - gene responsible for positive regulation of cell growth and division in cell cycle
4 - mutated gene unable to control cell growth and division in cell cycle

Answer 12

1 - mutated gene causing abnormal cell growth and division in cell cycle

• caused by mutation to proto-oncogene
• leads to uncontrollable cell growth and division

Question 13

What is the most common cause for genetic variation?

1 - single nucleotide polymorphisms (SNP)
2 - DNA mismatching
3 - mutations in whole gene sequence
4 - mutations in mitochondrial DNA

Answer 13

1 - single nucleotide polymorphisms (SNP
- one nucleotide: A, cytosine, or C, thymine, or T and guanine, or G is changed
- this can affect the structure and function of the protein encoded by the gene

Question 14

What is a Cancer Predisposition Genes?

1 - mutations in proto-oncogenes
2 - mutations in tumour suppressor genes
3 - genes susceptible to single nucleotide polymorphism’s
4 - genes in which germline mutations lead to increased risks of cancer

Answer 14

4 - genes in which germline mutations lead to increased risks of cancer

Question 15

Although inherited oncogenes are rare, as in most cases they would be lethal, there are some that we are aware of. Which of the following is an example of an inherited oncogene that causes cancer?

1 - Multiple Endocrine Neoplasia
type 2
2 - T1DM
3 - Hyperparathyroidism
4 - Hirschsprung disease

Answer 15

1 - Multiple Endocrine Neoplasia type 2
- patients present with medullary thyroid cancer, phaeochromocytomas, parathyroid adenomas, hyperparathyroidism​

Question 16

Which of the following is an example of an mutated tumour suppressor gene that causes cancer?

1 - Multiple Endocrine Neoplasia
type 2
2 - Retinoblastoma
3 - Hyperparathyroidism
4 - Hirschsprung disease

Answer 16

2 - Retinoblastoma
- most common eye cancer in children
- typically diagnosed <5 y/o

Question 17

Retinoblastoma is an example of an mutated tumour suppressor gene that causes cancer, and is the most common eye cancer in children. How can this present clinically?

1 - nystagmus (involuntary eye movement)
2 - white reflex replaces red light reflex
3 - lack of convergence reflex
4 - inability to blink

Answer 17

2 - white reflex replaces red light reflex
- if identified early it has a 99% cure rate
- BUT are at increased of cancers in adulthood

Question 18

Which of the following has the highest occurrence in solid cancer tumours (up to 85%) and is due to a tumour suppressor gene mutation?

1 - BRCA1
2 - MLH1
3 - TP53
4 - PTEN

Answer 18

3 - TP53
- commonly due to somatic mutations
- very rare in germline mutations

Question 19

BRCA1 is a tumour suppressor gene mainly linked with which cancer?

1 - thyroid
2 - colon
3 - ovarian
4 - breast

Answer 19

4 - breast
- BRCA1 and BRCA2 genes produce proteins that suppress abnormal cell division and growth

• can also increase risk of ovarian cancer (BRCA1) and men increases prostate cancer (BRCA2)

Question 20

What is the most common cancer in the UK?

1 - thyroid
2 - colon
3 - ovarian
4 - breast

Answer 20

4 - breast
- affects 1 in 8 women
- 5-10% inherited

Question 21

Breast cancer is the most common cancer in the UK, and 5-10% of this is accounted for by inherited genes, specifically BRCA1 and BRCA2. What type of inheritance are BRCA1 and BRCA2?

1 - autosomal dominant
2 - X linked recessive
3 - autosomal recessive
4 - X linked dominant

Answer 21

1 - autosomal dominant
- one copy of the mutated gene needed

Question 22

What is the risk factor in % that a patient can be genetically tested according to the NICE guidelines using an algorithm to assess the risk of inheritance?

1 - >50%
2 - >35%
3 - >10%
4 - >1%

Answer 22

3 - >10%

Question 23

Which of the following syndromes is caused by a mutation in the TP53 mutation that can increase the risk of cancer?

1 - Li Fraumeni Syndrome
2 - Metabolic Syndrome
3 - Down Syndrome
4 - Turner Syndrome

Answer 23

1 - Li Fraumeni Syndrome
- autosomal dominant inheritance (only 1 mutated gene needed)

• high rates of osteosarcoma, soft tissue sarcoma, acute leukaemia, breast cancer, brain cancer, and adrenal cortical tumours

Question 24

Genetic testing is often offered in those patients with a high risk of cancer. Which of the following are reasons why this is the case?

1 - family support
2 - diagnose earlier
3 - personalised cancer treatment
4 - all of the above

Answer 24

4 - all of the above
- tumour may also be genetically tested ad they may be more responsive to specific medications

Question 25

What is epigenetics?

1 - process of up regulating transcription
2 - process of gene regulation
3 - process of down regulating transcription
4 - process of inducing apoptosis

Answer 25

2 - process of gene regulation
- can up or down regulate genes
- DNA is NOT modified

Question 26

DNA is wrapped around histones, which essentially come in groups of 8. When the DNA wraps around the histone twice it becomes nucleosomes and lots of these is called chromatin. If an acetyl group is added to a histone this causes acetylation. What then happens to the DNA?

1 - DNA tightens around histone, genes are exposed causing increased transcription
2 - DNA tightens around histone, genes are exposed causing reduced transcription
3 - DNA loosens around histone, genes are exposed causing increased transcription
3 - DNA loosens around histone, genes are exposed causing decreased transcription

Answer 26

3 - DNA loosens around histone, genes are exposed causing increased transcription
- less attraction between histones, so DNA and genes on DNA is exposed

• removal of the acetyl group, called deacytelation has the opposite effect

Question 27

DNA is wrapped around histones, which essentially come in groups of 8. When the DNA wraps around the histone twice it becomes nucleosomes and lots of these is called chromatin. If histone undergoes methylation, which is when a methyl group is added to the DNA building blocks, this can cause what to happens to the DNA?

1 - DNA tightens around histone, genes are exposed causing increased transcription
2 - DNA tightens around histone, genes are exposed causing reduced transcription
3 - DNA loosens around histone, genes are exposed causing increased transcription
4 - DNA tightens around histones, genes are hidden causing decreased transcription

Answer 27

4 - DNA tightens around histones, genes are hidden causing decreased transcription
- DNA and genes on DNA cannot be accessed to up regulate
- essentially gene is turned off

Question 28

Reactive oxygen species are unstable molecule that contains oxygen and can react with other molecules in a cell. Lots of ROS can damage cells and all the contents. How have ROS been linked with cancer?

1 - result in DNA mismatch repair
2 - result in increased SNP
3 - induces acetylation and up regulates transcription in oncogenes
4 - removes methyl groups, increasing DNA transcription

Answer 28

1 - result in DNA mismatch repair
- ROS cause oxidative damage to DNA bases that result in DNA mismatching and mutations

Question 29

Which of the following are methods mechanisms of how metastasis are caused?

1 - direct infiltration of surrounding tissue
2 - cancer spreads through blood stream
3 - cancer spreads through lymphatics
4 - all of the above

Answer 29

4 - all of the above

Question 30

All of the following are steps in metastasis. What is typically the 1st step?

1 -Survival in the circulation and attachment to the endothelium
2 - Angiogenesis and Intravasation
3 - Invasion and Migration
4 - Extravasation and Colonisation

Answer 30

3 - Invasion and Migration
- tumour grows, invading local tissues, blood and lymphatic vessels
- tumour migrates elsewhere in the body

Question 31

All of the following are steps in metastasis. What is typically the 2nd step?

1 -Survival in the circulation and attachment to the endothelium
2 - Angiogenesis and Intravasation
3 - Invasion and Migration
4 - Extravasation and Colonisation

Answer 31

2 - Angiogenesis and Intravasation
- angiogenesis = new blood vessels made
- intravastation = tumour moves through blood or lymph vessel wall

Question 32

All of the following are steps in metastasis. What is typically the 3rd step?

1 -Survival in the circulation and attachment to the endothelium
2 - Angiogenesis and Intravasation
3 - Invasion and Migration
4 - Extravasation and Colonisation

Answer 32

1 -Survival in the circulation and attachment to the endothelium
- attach to endothelium at locations through the body

Question 33

All of the following are steps in metastasis. What is typically the 4th step?

1 -Survival in the circulation and attachment to the endothelium
2 - Angiogenesis and Intravasation
3 - Invasion and Migration
4 - Extravasation and Colonisation

Answer 33

4 - Extravasation and Colonisation
- extravasation = tumour can leave blood and lymphatics and enter tissues
- colonisation = divide, growth and develop into secondary tumour

Question 34

What % of cancer cells that metastasise become secondary tumours?

1 - 35%
2 - 20%
3 - 10%
4 - <0.1%

Answer 34

4 - <0.1%
- BUT if 1000s are released, this still means 10 can become secondary cancers

Question 35

CRP can be used to remember what is used clinically to help stage and diagnose cancer:

C = clinical diagnosis following surgery for example
R = radiological findings
P = pathological findings based on biopsy

Once a staging is given using TNM, is this a fixed staging?

Answer 35

• no
• can changed based on using CRP