Causes of cancer

Question 1

What is the risk assessment for carcinogens?

Answer 1

Definate carcinogens
Probable carcinogens
Possible carcinogens
-potency
-type of exposure
-dose response

Question 2

Describe the agents of outdoor pollution

Answer 2

Particulate matter
Nitrogen dioxide
Sulphur dioxide
Ozone gas
Carbon monoxide
Polycyclic aromatic hydrocarbons (PAHs)

Question 3

What is the significance of asbestos?

Answer 3

Almost exclusively causes pleural mesothelioma

Question 4

List some water contaminants

Answer 4

Arsenic- bladder, skin, lung
Nitrates- stomach, non-hodgkin lymphoma
Radium- leukaemia
Chlorination by products- bladder

Question 5

List groups of people with risk of cancer from radioactive sources

Answer 5

Japanese atomic bomb survivors
Underground minors
Radiologists
Luminous dial painters
Generally public- from solar radiation

Question 6

Name the cancer causing viruses

Answer 6

Epstein-Barr virus (EBV)
Hepatitis B (HBV)
Human T cell lymphotrophic virus type 1 (HTLV1)
High-risk human papilloma virus (HPV16, 18, 45)
Hepatitis C (HCV)
Kaposi’s sarcoma herpes virus (KSHV)
Merkel cell polyomavirus (MPV)

Question 7

Describe Epstein Barr virus and cancer

Answer 7

Endemic/endemic Burkitt lymphoma- 4-7 yrs
Hodgkin lymphoma 20-24 70-80yrs
Nasopharyngeal carcinoma
Gastric carcinoma
Group 1 herpes virus

Question 8

Describe the causes of Burkitt lymphoma

Answer 8

EBV
Malaria
C-myc translocation to the Ig heavy or light chain

Question 9

Describe the causes of Kaposi’s sarcoma

Answer 9

KSHV

• tumour from mesenchymal tissue
• highly vascular tumour
• classical- v rare
• iatrogenic (immunosuppression)
• HIV/AIDS patients

Question 10

Describe the causes of skin cancer in EV

Answer 10

HPV5, HPV8
UV light
Epidermodysplasia verruciformis gene mutation

Question 11

Describe the causes of hepatocellular carcinoma

Answer 11

HBV and Aflatoxin

Question 12

How do viruses act as carcinogens?

Answer 12

Direct- introduction of a vital oncogene into host cell, activates an endogenous oncogene, inhibits a tumour suppressor gene
Indirect- causes chronic inflammation, prevention of apoptosis, virus induced immunosuppression (HIV)
They prolong cell cycling allowing the cell to live longer and squire more genetic mutations and promote cell survival making cancer more likely

Question 13

Same some protein targets of virus that cause cancer

Answer 13

HPV encodes E7 which binds RB so it releases E2F-1 that activates transcription of S phase genes
And encodes E6 which binds p53, which is activated in response to uncontrolled cell cycling, and promotes its ubiquitination and therefore degradation so it cannot initiate transcription of apoptosis eg. p21

Question 14

Describe HPV vaccination

Answer 14

HPV1) and 18 most prevalent HPV type in cancers
Cervical cancer arises at the “squamocolumnar” junction of the cervix
Vaccine is the proteins that make up the virus particle that assemble into the native 3D structure when in cells and so initiates a good antibody response

Question 15

Describe the function of the retinoblastoma protein

Answer 15

Tumour suppressor
Unless hyperphosphorylated, prevents progression through the restrictions point in G1 to S phase
When hypophosphorylated, bound to E2F, DP, GDAC and p300
Phosphorylation of pRB by cycD and cdk4/6 removes HDAC
Phosphorylation by cycD and cdk2 removes RB from the complex activating transcription
p16(ink4a) is a cdk inhibitor and promotes cell senescence

Question 16

Describe the role of p53

Answer 16

Guardian of genome
Activated by ATM, CHK2 as apart of the DNA damage response
Regulated by mdm2 a E3 ubiquitin kinase
Activated by CBP, TRAF, PCAF P300 ASPP1
Promotes anti-angiogenesis (tsp1), growth arrest (p21), DNA repair (p48) and apoptosis (DRS, Fas)

Question 17

When are the cell cycle checkpoints?

Answer 17

R point in G1
G1/S
Replication point in S phase
G2/M
Antephase checkpoint before mitosis
Spindle checkpoint in M phase

Question 18

What is the DNA damage response to checkpoint arrest?

Answer 18

DSB- MRN➡ ATM➡ BRCA1/53BP1➡ Chk2/p53- effectors
SSB- RPA➡ ATR/ATRIP➡ TopBP1/Claspin➡ Chk1- effector
Facilitated and amplified by Rad17 and H2AX

Question 19

Describe telomeres

Answer 19

Nucleoprotein structures that protect chromosome ends- 10-15kb in humans
Maintained by telomerase (hTERT) and an RNA template (TERC)
Telomere length is maintained in cancer to immortalise the cell
Telomere DNA is associated with the proteins TRF1 and 2
With a 3’ overhang of 250-200nt
Forms a D loop of ssDNA protected by Pot1 and a T loop of dsDNA, this is so out does not look like a DSB

Question 20

Describe senescence

Answer 20

STress and Abberent Signalling Induced Senescence (STASIS)

Inhibitors of cdks- p21 and p16

Question 21

What is the significance of histone methylation of telomeres?

Answer 21

RB regulates H4K20Me3
SUV3aH2 regulates H3K9Me3
Loss of either results in the extension of telomeres and opening of chromatin

Question 22

What induces M1 senescence?

Answer 22

DNA damage➡ ATM➡ p53➡ p21➡ growth arrest
In cells that bypass M1 senescence, telomeres continue to erode so that cannot protect the chromosome and crisis is triggered- apoptosis

Question 23

What induces M2 senescence?

Answer 23

Many short telomeres induce the DNA damage response
ATM/ATRIP dependent- components of TRF2-shelterin complex
Dicenteic chromosomes trigger apoptosis

Question 24

Describe cell immortalization

Answer 24

Mutations in critical genes and maintainence of telomeres via telomerase or ALT pathways

Question 25

What is ALT?

Answer 25

Alternative lengthening of telomeres
Strand invasion of the template molecule and formation of HR intermediate
Copying
Dissolution of HR intermediate
Possible filling of complementary strands

Question 26

Describe telomerase as a possible cancer therapy

Answer 26

Oligonucleotides complementary to the TERC template
Telomerase targeted immunotherapy
Targeting telomerase- expressing cells with suicide gene or oncolytic viruses

Question 27

Describe the PI3-kinase pathway

Answer 27

Receptor tyrosine kinase➡ PI3-kinase➡ PI(3,4,5)P3➡ PDK1➡ Akt➡ mTOR
Cell survival and proliferation

Question 28

What is the action of Akt?

Answer 28

Phosphorylates a variety of targets like Bad
Upon phosphorylation Bad releases active apoptosis-inhibitory protein which promotes cell survival
mTOR complex 1 (complex two helps to activate Akt)- contains the protein raptor, sensitive to rapamycin
Stimulates cell growth by promoting ribosome production and protein synthesis and inhibiting protein degradation
Akt inhibits the action of Tsc2 a GAP that inactivates the molecular switch Rheb, so Rheb remains GTP bound and can activate mTOR

Question 29

How do you turn the growth and survival signal off?

Answer 29

Removal of receptor ligand
Switching the activated RTK off using protein tyrosine phosphatases (PTPs- SHP1, SHP2)
Dephosphorylation of target proteins by serine/threonine phosphatatases
PTEN- inositol lipid phosphatase- removes s phosphate from PI(3,4,5)P3 spo jit is no longer a docking site for PDK1 or Akt

Question 30

Describe the importance of the EGF receptor family in cancer

Answer 30

EGFR1 activated by ligands such as EGF and TGFalpha
HER2 heterodimerises with EGFR1
Over expression and amplification of EGFR family members are implicated in 30% cancers

Question 31

Describe the treatment of cancer with monoclonal antibodies

Answer 31

Cetuximab- humanised anti-EGFR1 antibody
Only approved is patients with wildtype Ras
Used to treat colon, lung, head, neck and pancreas cancer
Trastuzumab (herceptin)- humanised anti-HER2 antibody
Used in patients over expressing HET2
Used in breast cancer
Imatinib- blocks the ATP binding site in the tyrosine kinase domain in the BCR-ABL fusion protein so it cannot phosphorylate target proteins and stimulate proliferation

Question 32

How can oncogenes be amplified to cause cancer?

Answer 32

Chromosomal translocation eg. 8:14/2/22 in Burkitts lymphoma
The c-myc gene is placed near the immunoglobulin genes which are highly expressed in B cells and the expression of the c-myc gene is then constitutively increased
Gene replication
Double minute chromosomes

Question 33

What is myc?

Answer 33

A transcription factor
Heterodimerises with max to activate transcription of S phase genes
Max homodimerises to suppress gene transcription in the absense of myc

Question 34

What is the importance of tyrosine kinase in cancer?

Answer 34

Amino acid changes or over expression can lead to contituative activation or constant phosphorylation and cell growth cascades
Eg. Pp60c-src a non-receptor tyrosine kinase- often over expressed in colon, liver, lung, breast and pancreas tumours binds to phosphorylkated receptors and the kinase domain becomes active leading to survival and proliferation

Question 35

Describe Ras

Answer 35

Commonest oncogene mutated in human tumours
Common cancer causeoing mutations at codons 12,13 or 61
Is a molecular switch-inactive Ras-GDP➡ active ras-GTP (GEF)
Ras-GTP➡ ras-GDP (GAP- Ra’s has intrinsic GTPase)
Reduced GTPase activity results in a constant ‘on’ leading to constitutive signalling
➡raf➡ mek➡ erk

Question 36

What is the significance of the retinoblastoma protein?

Answer 36

Classical example for a genetic predisposition to cancer
Recessive at the cellular level
Almost inevitable that after all the necessary cell divisions that one retinal cell with acquire the mutation to inactivate the remaining RB1 gene in the heterozygote- therefore the cancer shows dominant inheritance
Also shows increased incidence in other cancers- loss of heterozygosity
RB is a master controller of the cell cycle controlling S-phase entry- when hyper-phosphorylated dissociates from E2F at R-point allowing the transcription of genes for S-phase

Question 37

What are some mechanisms for loss of function of tumour suppressor genes

Answer 37

Deletion of chromosome region
Whole chromosome loss
Transcriptional silencing- aberrant methylation of promoter region
Virus targeting

Question 38

Lists some other tumour suppressor genes involved in pathways controlling cell proliferation

Answer 38

NF1- Ras-GAP- associated with Neurofibromatosis type 1 and colon carcinoma, astrocytoma, AML
APC- beta-catenin degradation- associated with familial adenomatous polyposis coli and colorectal, pancreatic, gastric and prostate carcinoma
PTEN- PIP3 phosphatase- associated with Cowden’s disease, breast and GI tumours and glioblastomas, breast, prostate, thyroid carcinomas

Question 39

What is the significance of p53?

Answer 39

It is the ‘Guardian of the Genome’
Regulates cell cycle arrest, DNA repair, block of angiogenesis and apoptosis in response to lack of nucleotides, UV, IR, oncogenic signalling, hypoxia, blockage of transcription
Unlike most tumour suppressor a p53 mutations are predominately Mis-sense and a single allelic loss confers predisposition to cancer alone
DNA damage stabilises p53 via phosphorylation so it is not ubiquitinated by MDM2
Mutations in the DNA binding domains prevent the transcription of cell cycle arrest proteins like p21

Question 40

List other tumour suppressor genes that are involved in maintaining the integrity of the genome

Answer 40

BRCA 1+2- DSB repair- associated with familial breast and ovarian cancers and breast, ovarian, prostate and pancreas
ATM- DSB repair- associated with ataxia Telangiectasia, leukaemias, lymphomas and breast cancers