Genetics Of Oncogenes

Question 1

What is cancer?

Answer 1

Aberrant cell growth

Caused by a series of acquired mutations affecting a single cell and its clonal progeny

The mutations usually target genes that regulate proliferation, differentiation and survival of cells

Question 2

Describe Darwinian micro evolution

Answer 2

• All cancer cells originate from a single cell
• accumulation of mutations with each successive proliferation
• With each cumulative mutational event the mutated cells gain a growth advantage

Question 3

Outline tumor progression

Answer 3

Normal—> hyperplastic—> dysplastic—> neoplasticism—> metastatic

The property of progressive aggressiveness is selected for in cancer

Tumor progression results from waves of mutation followed by clonal expansion

Question 4

What are the cancer results from Darwinian evolution on a microscopic scale?

Answer 4

Initial mutation - creates a cell that undergoes clonal expansion

Within the clonal expansion cells, there is a cell that undergoes a second mutation

This cycle repeats to establish tumor heterogeneity

Question 5

Summarize the age dependency of cancer (all types combined)

Answer 5

Most occurs with the 5th to 6th power of age, suggesting the result may come due to multiple independent events

Question 6

Explain evidence for monoclonality

Answer 6

1. Examination of X-inactivation pattern in cancers
   - tissues are mosaic for X-inactivation

-BUT, cells from cancer tissue have the same copy of the inactivated X-inactivation chromosome

Strongly suggests that they are derived from a single

2. Chromosomal abnormalities of cancers
   - Chromosomal aberration occurs(translocation)
   - Cancer develops
   - All cells in the tumor contain the genetic aberration
3. Multiple myeloma produce a monoclonal immunoglobin
   - Multiple myeloma is a malignancy of B-cell (precursors of antibody producing plasma cells)
   - All myeloma cells in a patient produce the same antibody molecule
   - Also evidence for monoclonality of cancers

Question 7

What are the fundamental changes for cancer formation?

Answer 7

1. Proliferation without external stimuli because of oncogenes activation
2. Non responsive to growth inhibition because of tumor suppressor genes inactivation
3. Metabolic switch to aerobic glycolysis for rapid growth
4. Resistance to programmed cell death
5. Unrestricted proliferative capacity.
6. Induce angiogenesis
7. Loss of cell to cell adhesion and contact inhibition of growth allowing invasion and metastasis
8. Evasion of the immune system

Question 8

How do mutations take Place?

Answer 8

Exogenous, I.e. viruses, chemicals

Endogenous- products of metabolism (these are the environmental exposures)

Environmental exposures lead to non lethal genetic damage( and so does germ line and spontaneous damage)

Non lethal mutation initiated mutation developing malignant phenotype

Question 9

What can lead to cancer formation?

Answer 9

Mutations in any of the following four classes if normal regulatory genes can lead to cancer formation m

• DNA repair
• Apoptosis regulating gene
• Proto-oncogenes
• Tumor suppressor genes

Question 10

What are proto-oncogenes?

Answer 10

• Normally they encode proteins that promote cell growth
• Mutations activating proto-oncogenes can result in one of two things:
  
  • Excessive increase in one or more normal function
  • Creating a completely new function on the affected gene product (Gain of Function)

Usually a single copy mutation is sufficient to cayse cancer despite the presence of a normal copy (oncogenes are dominant)

Question 11

What are tumor suppressor genes?

Answer 11

• Usually produces genes that inhibit cell cycle and preventing proliferation
• Mutations usually result in a Loss of Function
• Both alleles must be affected before malignant transformation can take place (tumor suppressor genes behave in a recessive manner

Question 12

What are apoptosis regulating genes?

Answer 12

Mutations that can cause either:

• Gain of function in genes that suppress apoptosis (anti-apoptotic )
• Loss of function in genes that promote apoptosis (pro-apoptotic

Question 13

What are DNA repair genes?

Answer 13

Mutations in these genes impair the cell’s ability to recognize and repair non lethal genetic damage

Question 14

Explain the major cellular proliferative pathway

Answer 14

MAP kinase pathway under normal condition

1. Growth factor presence outside the cell
2. Binding of growth factor to its soecufuc growth factor receptor
3. Receptor auto phosphorylation
4. Exchange kf GTP for GDP on RAS
5. RAS binds to RAF and begins a phosphorylation cascade
6. Upregulation and downregulation transcription of different genes favoring cell survival and proliferation

Question 15

What is the effect of mutations in dna repair genes?

Answer 15

Increase in frequency of mutations in cells

Question 16

Describe the cellular growth control pathway (MAP KINASE)

Answer 16

1. Instructions come from outside the cell (growth factors)
2. Growth factors bind to cell surface tyrosine kinase receptors
3. Trigger signal transduction pathways which involve intracellular kinases
4. And proteins with GTPase activity
5. Then activate DNA-binding proteins which in turn activate gene expression to drive DNA replication and cell division

Question 17

What are the components of the MAP KIJASE?

Answer 17

1. Growth factor binds to receptor in the membrane
2. Triggers cascade of activation of GTP binding proteins (ras)
3. Phosphorylation of intracellular proteins by intracellular kinase
4. Activating transcription factors which in turn activate genes in driving cell division

Mutation in any one of the genes/ proteins in this pathway results in oncogenes

Question 18

Explain proto-oncogenes in the map kinase

Answer 18

• Peotioncogenes produce proteins that regulate cell proliferation
• Mutations May occur at one of the five proteins along the signal transduction pathway
• Oncogenes are mutant or misregulated forms of proto-oncogenes
• Mutations of a proto-oncogene results in the production of a mutant protein that stimulates cell division
• Mutation May also involve increased expression of the gene resulting in production of large amounts of a protein That stimulates cell d8vision

Question 19

Describe growth factor receptor (tyrosine kinase)activation

Answer 19

1. Ligand binds to binding sites, causing receptor tyrosine kinase receptor to be phisphorylated and dimerizes-activation of lip tyrosine
2. Then phosphorylation of additional residues

Question 20

What can cause growth. Factor receptor to be rendered constitutively active?

Answer 20

Truncation sorry point mutations can render a GF receptor constitutively active- even in the absence of a signal

Proto-oncogenes are normaal versions of genes can contribute when mutationally activated, or when inappropriately expressed

This leads to oncogenes that are mutant versions of these genes

Question 21

What are examples of oncogenes due to reciprocal translocation?

Answer 21

Burkitt lymphoma -activation of Myc

Chronic myeloid leukemia- activation of abl

Question 22

Explain burkitt lymphoma

Answer 22

• Myc oncogene is fused to immuglobulin locus (t8:14)
• Myc is a transcription factor important for (G1/S) transition
• Level of oncogene expression is increased as Myc is now under the regulation of IgH promoter (Active promoter)
• Increased Myc production
• B-lymphocytes undergo rapid cell divisions (due to high levels of Myc protein) resulting in malignant phenotype

Question 23

What is the pharmaceutical use for Imanetib in Ph+CML?

Answer 23

• Imaniteb mesylate is a powerful tyrosine kinase inhibitor specific fir a few tyrosine kinase including Bcr-abl
• Effective against the bcr-abl fusion protein which is stuck in its activated form (constitutively active)
• Imanitib binds to the active site of the fusion protein, bcd-abl(tyrosine kinase ) and prevents its activity

Question 24

Explain the activation of Ras proto-oncogene

Answer 24

• Ras is a GTPase involved in the major cell proliferative pathway(MAP KINASE)
• Ras activated by binding GTP
• it initiates a phosphorylation cascade that activates cellular proliferation
• It is quickly inactivated by intrinsic GTPase activity (GTP—> GDP)
• A constant stimulation is required to continue to grow

Question 25

Explain oncogene activation of Ras

Answer 25

• Oncogenesis depends on Ras hyper-activity (over activity)
• Ras-GTP activates growth pathway
• Ras-GDP inactive (no growth)
• Many mutations inhibit GTPase activity= Ras becomes constitutively active (Ras is active even in the absence of a growth factor)
• Singkd point mutations at Gly12 or Gln61 have been isolated from tumor cells that result in constitutive activation of ras

Question 26

Explain gene amplification of an oncogene: double minutes

Answer 26

• Double minutes are extrachromosomal fragments of DNA containing an amplified oncogene (Multiple/hundreds of copies of the oncogene)
• Seen in aggressive tumors where the amplified region includes an oncogene
• Eg: EGFR is often amplified as double minute chromosomes in advanced gliomas-visualized with FISH probes

Question 27

Explain oncogenesis by gene amplification

Answer 27

Homogenously staining regions

Abnormal homogenouslystaining regions (Hsrs) of chromosomes in cancers often contain amplified oncogenes (Multiple/hundreds of copies of the oncogene)

Question 28

Contrast double minutes and hsrs

Answer 28

Double minutes are extrachromosomal fragments of DNA

Whereas, hsrs are amplified oncogenes attached to the chromosome

Oncogene amplification as double minutes or hsrs result in overproduction of the oncoprotein resulting in an increased stimulation for the cell to divide

Question 29

How does HER-2 overexpression lead to sporadic breast cancer?

Answer 29

Human epidermal growth factor receptor 2

About 30% of breast cancers have HER-2

THIS can be detected by FISH probes, and HER-2 detected as double minutes

Question 30

What are the pharmaceutical applications of HER-2?

Answer 30

Important to know HER-2 expression profile for management

• HER2+ tumors have increased HER2 receptors on the tumor
• Herceptin drug (antibody to HER2)(trastuzumb)
• antibody binds to HER2 and prevents binding of growth factor to HER2
• Addition of herceptin to the treatment, results in decreased tumor cell proliferation

Question 31

Is herceptin effective for all HER2 tumors ?

Answer 31

Herceptin is very effective for HER2+ tumors but not effective for treatment of HER2- tumors