Tumour angiogenesis

Question 1

what are the 3 main characteristics of malignant tumours?

Answer 1

unlimited growth (as long as there is adequate blood supply)

invasiveness (spread of tumour to surrounding tissue AND to distant organs)

metastasis (spread of tumour from primary to secondary site)

Question 2

briefly describe the steps from when a cell is transformed to its metastatic process

Answer 2

1. transformation + proliferation
2. tumour angiogenesis
3. motility and invasion
   (via blood and lymphatic vessels)
4. multicell aggregates
5. tumour will embolise (lodge)
6. arrest in capillary bed
7. extravasation
   (movement of tumour out of vessel and proliferating at a different site

Question 3

What is angiogenesis?

Answer 3

Angiogenesis is the formation of new blood vessels from pre-existing vessels

Question 4

What is vasculogenesis?

Answer 4

Vasculogenesis is the formation of new blood vessels from progenitors (de novo)

Question 5

name the 3 different types of angiogenesis

Answer 5

1. Developmental/vasculogenesis
2. Normal angiogenesis
3. pathological angiogenesis

Question 6

when does developmental angiogenesis occur

Answer 6

organ growth

Question 7

when does normal angiogenesis occur (3)

Answer 7

wound repair

placenta during pregnancy

cycling ovary

Question 8

when does pathological angiogenesis occur

Answer 8

tumour angiogenesis

ocular and inflammatory disorders

Question 9

what is the difference between in situ and invasive breast cancer

Answer 9

in situ

• not vascularised
• contained, has not spread to nearby breast tissue

invasive

• vascularised
• spread to nearby breast tissue

Question 10

describe tumour angiogenesis steps

from tumour formation to metastasis

Answer 10

• growth of self sustained tumour
• tumour becomes hypoxic
• hypoxia = angiogenic switch = tumour secretes angiogenic factor such as VEGF (cytokines)
• cytokines diffuse out and stimulate endothelial cells within nearby capillaries to proliferate, migrate and form NEW vessels
• blood vessel network will develop and spread allowing the tumour to further grow
• cells form growing tumour can travel via capillary network and spread to different areas of the body (metastatic spread)

Question 11

describe what is meant by tumour hypoxia and what happens as a result of this

Answer 11

as tumour grows it gets further away from the capillaries

hypoxia increases with increasing distance of the tumour cells from the capillaries

tumour hypoxia can activate transcription of genes involved in angiogenesis, tumour cell migration and metastasis

Question 12

tumour hypoxia can activate transcription of genes involved in angiogenesis, tumour cell migration and metastasis.

Name 4 of the target genes that are activated

Answer 12

VEGF

GLUT-1

u-PAR

PAI-1

Question 13

Angiogenic factors are secreted by hypoxic tumour cells. What is the role of these factors and give 4 examples

Answer 13

angiogenic factors stimulate directional growth of endothelial cells

• VEGF
• FGF-2
• TGF-B
• HGF/SF

Question 14

where CAN angiogenic factors be secreted from?

Answer 14

tumour cells

OR

are stored bound to components of the extracellular matrix and may be released by enzymes called matrix metalloproteinases

Question 15

some angiogenic factors are bound to components of the extracellular matrix. How are they released from here?

Answer 15

these factors may be released by enzymes called MMPs

matrix metalloproteases

Question 16

describe the release and action of VEGF

• where is it released from?
• where does it act?
• what effect does it have?

Answer 16

released by tumour

acts on VEGF-R within the endothelial cells of capillaries

causes proliferation of endothelial cells so that they can from new vessels and surround the tumour to promote its growth and spread

Question 17

what type of receptor is VEGF-R?

describe the binding of its ligand and the overall outcome of it

Answer 17

tyrosine kinase receptor

VEGF binds to VEGF-R (tyrosine kinase receptor)

this causes dimerisation of the receptors

activates certain pathways to promote angiogenesis for the tumour cell

Question 18

Binding of VEGF to VEGF-R can go on to activate 3 different pathways. Name all of these pathways.

What is the end outcome of all these pathways?

Answer 18

1. Ras-MEK and MAPK pathway
2. PKB pathway
3. PLC pathway

THE END OUTCOME OF ALL PATHWAYS IS ANGIOGENESIS

Question 19

describe the role of Ras-MEK and MAPK pathway in angiogenesis

Answer 19

stimulates gene expression and cell proliferation

Question 20

Describe the role of PKB pathway in angiogenesis

Answer 20

stimulates cell survival

Question 21

describe all 3 PLC pathways and their role in angiogenesis

Answer 21

THEY ALL START OFF WITH PLC –> PIP2 AND THEN…

1. DAG -> PKC
   - stimulates cell proliferation and vasopermeability
2. IP3 -> Ca2+
   - stimulates cell proliferation and vasopermeability
3. IP3 -> Ca2+ -> NOS -> NO

THESE ALL LEAD TO STIMULATION OF ANGIOGENESIS IN THE ENDOTHELIAL CELL

Question 22

what is the process of EMT

Answer 22

Epithelial to mesenchymal transition

• this increases the motility of the malignant cells
• EMT enables the primary tumour cells to acquire migratory characteristics needed for invasion of their local environment
• it is a reversible process
  (reverse = MET)

Question 23

EMT

results in the loss of what?

Answer 23

LOSS OF:

• epithelial shape and cell polarity

-cytokeratin intermediate filament expression
(what gives it its shape)

-E-caherins

Question 24

EMT

results in the acquisition of what?
5

Answer 24

GAIN OF:

• fibroblast like shape and motility
• invasiveness (loss of ECM via MMP)
• vimentin intermediate filament expression
• mesenchymal gene expression
• protease secretion

Question 25

EMT

mesenchymal gene expression - examples?

Answer 25

fibronectin

PDGF-R

Question 26

EMT

protease secretion - examples?

Answer 26

MMP-2

MMP-9

Question 27

what is the function of E-cadherins?

Answer 27

E-cadherins are important for a process called contact inhibition

E-cadherins recognise if there is another cell nearby and will then stop proliferating/moving

Question 28

what type of molecule is E-cadherins

Answer 28

• E-cadherins are homotypic adhesion molecules

* E-cadherins are calcium dependent transmembrane glycoproteins that interact, via B-catenin, with the cytoskeleton

Question 29

compare and contrast what happens in a cells with normal functioning E-cadherin compared to a cell with loss of E-cadherin

Answer 29

NORMAL CELL
• Cells proliferate
• E-cadherins presence = cell to cell adhesion = contact inhibition = stops proliferation and monolayer of normal cells

LOSS OF/MUTATION OF E-cadherins
• Mutation/loss of E-cadherins = disrupted cell to cell adhesion = loss of contact inhibition = cells grow on top of each other instead

Cancer cells don’t recognise each other and start to grow on top of each other = formation of tumour

Question 30

what is the role of integrins?

Answer 30

• adhesion to ECM via collagen, fibronectin, laminin

- cell migration through matrix

Question 31

what type of molecule is integrin

Answer 31

heterodimers (alpha and beta)

heterotypic adhesion molecule

Question 32

What are examples of stromal cells that release things such as angiogenic factors

Answer 32

macrophages

mast cells

fibroblasts

Question 33

what are some of the factors that can be released by stromal cells

Answer 33

• angiogenic factors
• growth factors
• cytokines
• proteases (eg- MMP)

Question 34

what is uPA

Answer 34

urokinase type plasminogen activator

Question 35

How does uPA contribute to tumour progression

Answer 35

1. stroma cells release inactive pro-uPA
2. pro-uPA binds to uPA-R on cancer cell = activation of uPA
3. uPA converts plasminogen –> plasmin
4. plasmin activates MMP
5. MMP degrades the ECM = invasion AND release of matrix bound angiogenic factors

Question 36

What are the steps involved in cancer dissemination?
(cancer spread)

put these in order:

1. extravasation
2. primary tumour formation
3. transport through circulation
4. arrest in microvessels of various organs
5. formation of micrometastasis
6. intravasation
7. localised invasion
8. colonisation: formation of a macrometastasis

Answer 36

1. primary tumour formation
2. localised invasion
3. intravasation
4. transport through circulation
5. arrest in microvessels of various organs
6. extravasation
7. formation of micrometastasis
8. colonisation: formation of a macrometastasis

2, 7, 6, 3, 4, 1, 5, 8

Question 37

from breast cancer, what are the 4 common sites of tumour metastasis

Answer 37

brain

lung

liver

bone

Question 38

from colorectal cancer, what are the 2 common sites of tumour metastasis

Answer 38

liver

lung

Question 39

from gastric cancer, what are the 3 common sites of tumour metastasis

Answer 39

liver

oesophagus

lung

Question 40

from lung cancer, what are the 4 common sites of tumour metastasis

Answer 40

brain

bone

liver

adrenal gland

Question 41

from pancreatic cancer, what are the 2 common sites of tumour metastasis

Answer 41

liver

lung

Question 42

from prostatic cancer, what is the 1 common sites of tumour metastasis

Answer 42

bone

Question 43

what is the 1 site of metastasis that breast, colorectal, gastric and pancreatic cancer all have in common?

Answer 43

LUNG CANCER

Question 44

What are the 2 different hypotheses for determining the pattern of tumour spread

Answer 44

mechanical hypothesis

seed and soil hypothesis

Question 45

what is the difference between the:

• mechanical hypothesis
• seed and soil hypothesis

Answer 45

mechanical hypothesis:
- tumour spreads due to the anatomy of the vasculature

seed and soil hypothesis:
- specific adhesions between tumour cells and endothelial cells in the target organ, creating a favourable environment in the target organ for colonisation

Question 46

kidney cancer/renal cell carcinoma is a highly angiogenic and metastatic tumour. What is it treated using?

Answer 46

angiogenic drugs

Question 47

potential cancer treatments target 3 different things. State the 3 things.

Answer 47

TREATMENT TARGETS…

1. tumour angiogenesis
2. cell motility
3. invasion

Question 48

what was Judah folkman’s angiogenesis hypothesis?

Answer 48

tumour growth dependent on new blood vessel formation (angiogenesis)

lead to a shift in cancer therapy:
- both he tumour and microvascular compartment are valid therapeutic targets

• targets the ENVIRONMENT of the cancer rather than the cancer itself

Question 49

what type of drug is avastin and what specific cancers does it target?

(LOCK)

Answer 49

the first ever specific anti-angiogenesis drug

```
it was approved for the following cancers:
- colorectal
- lung
- kidney
- ovarian
and for eye diseases
~~~

Question 50

mechanims of action of avastin

Answer 50

• it’s a monoclonal antibody
• it binds to VEGF
• it prevents VEGF binding to VEGF receptors on endothelial cells

therefore, no angiogenesis

Question 51

what is EMT characterised by?

7

Answer 51

• Loss in cell polarity
  
  • Deconstruction of epithelial cell-cell junction
  • Changes in cell shape
  • Downregulation of epithelial markers such as E-cadherins
  • Upregulation of mesenchymal proteins such as N-cadherin
  • Secretion of specific proteases
• Increased cell protrusion and motility