Familial Cancer

Question 1

What are the main gene mutations that lead the cancer? (2)

Answer 1

• Caretaker genes

- Gatekeeper genes

Question 2

What are the main categories of environmental factors that lead the cancer?

Answer 2

• Macro environment (e.g. chemicals, viruses)

- Micro environment (e.g. hormones, radicals)

Question 3

What is the multistage process of colon carcinogenesis?

Answer 3

Normal epithelium
>> hyperproliferative epithelium
>> adenoma (early - intermediate - late)
>> carcinoma 
>> metastasis

Question 4

What is an inherited cancer?

Answer 4

Inherited genetic mutations increase an individual’s chance of developing cancer.
-e.g. BRCA

Question 5

What is penetrance?

Answer 5

Percentage with a gene change who develop the condition.

-may be altered by genes/environment

Question 6

What is the function of gatekeeper genes?

Answer 6

Directly regulate tumour growth.

• monitor / control cell division and death
• prevent accumulations of mutations

Question 7

What is the main function of caretaker genes?

Answer 7

Improve genomic stability.

-e.g. repair mutations

Question 8

What is the main function of landscaper genes?

Answer 8

Control the surrounding stromal environment.

Question 9

Give an example of how importance of gene function affects the likelihood of developing cancer.

Answer 9

COLORECTAL CANCER:

• gatekeeper mutation (>95%)
• caretaker mutation (70%)
• landscaper mutation (10-20%)

Question 10

What is the effect of loss of function of tumour suppressor genes?

Answer 10

Loss of function increases the risk of cancer.

Question 11

Give some examples of tumour suppressor genes.

Answer 11

APC
BRCA
TP53
Rb

Question 12

What is the function of oncogenes?

Answer 12

Regulate cell growth and differentiation.

Question 13

How can oncogenes increase the risk of cancer?

Answer 13

Mutation&raquo_space; gain of function&raquo_space; increased risk of cancer.

Question 14

What is Knudson’s 2 hit hypothesis?

Answer 14

Cancer is the result of multiple mutations.

• recessive at cellular level (i.e. need both genes inactivated)
• e.g. retinoblastoma

Question 15

According the Knudson’s 2 hit hypothesis, what is the difference between sporadic and inherited cancers?

Answer 15

Sporadic - 2 ‘hits’ required in a cell.

Inherited - 1 additional ‘hit’ required in a cell (inherit 1).

Question 16

What sort of inheritance pattern do most cancer syndromes show?

Answer 16

Autosomal dominant.

-for cancer RISK

Question 17

How do autosomal recessive cancer syndromes account for some sporadic disease?

Answer 17

Must inherit both copies in order to have an increased cancer risk.

• appears to skip generations
• e.g. Fanconi anaemia

Question 18

How many generations should be included when taking a family history?

Answer 18

At least 2 generations.

Question 19

What are the main differences between sporadic and familial cancers?

Answer 19

SPORADIC

• onset at older age
• 1 cancer in individual
• family unaffected

FAMILIAL

• onset at younger age
• multiple 1* cancers in individual
• other family members affected

Question 20

How is diagnostic and predictive testing usually used for cancer diagnosis?

Answer 20

DIAGNOSTIC - testing on DNA of relative with cancer to identify familial mutation

PREDICTIVE - if mutation is identified, test family for specific mutation to determine risk

Question 21

What are some disadvantages of genetic testing in cancer?

Answer 21

• Anxiety
• May not lead to change in management
• Costly to NHS

Question 22

What is retinoblastoma?

Answer 22

Rare childhood ocular cancer.

-classic example of 2-hit hypothesis

Question 23

What gene is mutated in retinoblastoma?

Answer 23

Rb1 gene.

Question 24

How does retinoblastoma develop?

Answer 24

Both Rb1 genes mutated/lost.

• inherited cases (1 mutation in germline) present at younger age
• bilateral cases are almost always germline

Question 25

What is retinoblastoma associated with?

Answer 25

Increased risk of other cancers.

• due to radiation
• e.g. osteosarcoma

Question 26

What is Familial Adenomatous Polyposis (FAP)?

Answer 26

Hundreds of polyps in bowel.

-high bowel cancer risk

Question 27

How can FAP be inherited?

Answer 27

Autosomal dominant inheritance.

-APC tumour suppressor gene

Question 28

What is the inheritance pattern of HNPCC?

Answer 28

Autosomal dominant inheritance.

• mismatch repair genes
• e.g. MLH1, MSH2, PMS 1

Question 29

What is the Amsterdam criteria for HNPCC?

Answer 29

5 criteria used to identify HNPCC:

e.g. 2 affected generations, FAP excluded, tumours verifieds, etc

Question 30

How is HNPCC managed?

Answer 30

Colonscopy every 2 years and removal of polyps.

- high cancer risk

Question 31

What process are BRCA genes involved in?

Answer 31

DNA repair.

-autosomal dominant inheritance

Question 32

What is the risk of breast cancer with BRCA gene?

Answer 32

80%.

Question 33

What are the options for BRCA gene carriers?

Answer 33

• Breast screening
• Mastectomy
• Lifestyle changes

Question 34

What mutation is associated with Li Fraumeni syndrome?

Answer 34

P53 mutation.

• autosomal dominant
• ~100% lifetime risk of cancer (e.g. breast, sarcoma)