Post Term Test 2 - Cancer

Question 1

how do neoplastic cells BEHAVE BADLY (6)

Answer 1

expansion
tissue injury
pain
invasion
metastasis
secretion

Question 2

Hyperplastic vs Benign vs Malignant - Cellular Differentiation

Answer 2

Hyperplastic: normal gradient/cells
Benign: usually well differentiated
Malignant: poorly differentiated, anaplastic

Question 3

Hyperplastic vs Benign vs Malignant - Mitotic Activity

Answer 3

Hyperplastic: variable; typically low
Benign: usually low
Malignant: often high

Question 4

Hyperplastic vs Benign vs Malignant - Rate of growth/Reversible or irreversible

Answer 4

Hyperplastic: reversible
Benign: slow, irreversible
Malignant: rapid, irreversible

Question 5

Hyperplastic vs Benign vs Malignant - Necrosis

Answer 5

Hyperplastic: none
Benign: usually minimal
Malignant: often high

Question 6

Hyperplastic vs Benign vs Malignant -Tissue demarcation

Answer 6

Hyperplastic: blends with normal
Benign: expansive, discrete
Malignant: poorly demarcated; locally invasive

Question 7

Hyperplastic vs Benign vs Malignant - Heterogeneity

Answer 7

Hyperplastic: none
Benign: minimal
Malignant: more

Question 8

Hyperplastic vs Benign vs Malignant - Aneuploidy

Answer 8

Hyperplastic: none
Benign: low
Malignant: more

Question 9

Hyperplastic vs Benign vs Malignant - paraneoplastic syndrome

Answer 9

Hyperplastic: none
Benign: variable
Malignant: variable

Question 10

Hyperplastic vs Benign vs Malignant - recurrence after removal

Answer 10

Hyperplastic: none
Benign: rare
Malignant: frequent

Question 11

Hyperplastic vs Benign vs Malignant - Propensity to progress if not removed

Answer 11

Hyperplastic: none
Benign: low
Malignant: high

Question 12

name some examples of local injury

Answer 12

ulceration, infection, perforation, hemmorrhage, nerve damage, restricted motion

Question 13

T/F invasion and local spread is always malignant

Answer 13

T

Question 14

what is one way that cancerous cells can change phenotype and why is it beneficial

Answer 14

epithelial to mesenchymal -> the latter has fewer cell-cell junctions/contact inhibition and more ECM matrix adhesion/protease expression -> better invasion

Question 15

what is the fertile soil concept of tumor metastasis

Answer 15

going from one region of the organ to another because it can grow well there (ex. from one ovary to the other via the peritoneal cavity)

Question 16

Uterine carcinoma tends to produce what characteristic that can be appreciated grossly

Answer 16

Secretes growth factors (ex. TGFβ) that induce fibrosis; tumors are schirrhous

Question 17

what is paraneoplastic syndrome

Answer 17

when tumours produce excessive amounts of functional proteins in an unregulated manner (think endocrine disease-causing tumours)

Question 18

what is elevated with some paraneoplastic syndromes and can indicate neoplasia

Answer 18

elevated Ca2+

Question 19

What underpins neoplastic behaviour on a molecular level (7)

Answer 19

• activated oncogenes
• functional harmful molecules
• matrix proteinases
• angiogenic factors
• ECM factors (ex. TGFβ -> scarring)
• cell adhesion molecules
• resistance factors

Question 20

T/F necrotic tumors are easier to kill than non-necrotic tumours

Answer 20

F

Question 21

a tumor that outgrew its own blood supply takes on what gross appearance

Answer 21

umbilicated; has a central, red depression

Question 22

name two examples of angiogenic growth factors

Answer 22

VEGF, bFGF

Question 23

Sutent (Sunitinib) does what

Answer 23

inhibits angiogenesis

Question 24

what are the 6 hallmarks of cancer

Answer 24

sustained proliferative signalling
evade growth suppressors
activate invasion and metastasis
evade cell death
induce angiogenesis
enable replicative immortality

Question 25

what are two enabling characteristics of cancer

Answer 25

genome instability and mutation
tumor promoting inflammation

Question 26

oncogenes are __________ in cancers whereas TSGs are _____________in cancers

Answer 26

activated; inactivated

Question 27

oncogenes

Answer 27

mutated genes that produce proteins with increased growth stimulatory or cell survival functions

Question 28

tumor suppressor genes

Answer 28

genes typically involved in genomic stability and apoptosis, or that counteract oncogenes, that become mutated

Question 29

what is c-kit

Answer 29

a membrane receptor for growth factors; targeted in some cancer therapies

Question 30

what are two examples of oncogenes

Answer 30

mutated c-kit; mutated tyrosine kinase receptors

Question 31

Herceptin (Trastumuzab) targets

Answer 31

ErbB2 receptor (tyrosine kinase)

Question 32

Lapatinib targets

Answer 32

downstream tyrosine phosphorylation of the ErbB2 receptor

Question 33

T/F oncogenes may undergo translocations to become activated

Answer 33

T

Question 34

what is the classic example of oncogene translocations in cancer

Answer 34

chronic myeloid/myelogenous leukemia (CML)

Question 35

what goes Gleevec (imatinib) target (3)

Answer 35

tyrosine kinase domain of abl, c-kit, and PDGF-R

Question 36

what is a classic tumor suppressor gene product

Answer 36

p53 (involved in cell cycle checkpoints and initiation of apoptosis)

Question 37

patients with DNA mismatch repair defects are susceptible to

Answer 37

colon polyps -> cancer

Question 38

how does heterozygosity play a role in oncogenesis

Answer 38

if people are born heterozygous for a TSG allele and then lose that copy, they are more prone to progress to malignancy

Question 39

how does PTEN work as a TSG

Answer 39

it dephosphorylates tyrosine kinase receptors (ex. c-Met), which inhibits downstream signalling

Question 40

what is a key factor for combating colon carcinogenesis

Answer 40

remove the polyp before it becomes malignant; if malignant you will leave cells behind

Question 41

transition of a large colon adenoma to a carcinoma is mediated by what molecular factor

Answer 41

p53 mutation and loss of 18q

Question 42

___________heterogeneity leads to ____________ heterogeneity

Answer 42

genotypic; phenotypic

Question 43

heterogeneity leads to what practical problems (4)

Answer 43

diagnostic markers
chemotherapeutic regimens (drug resistance)
mutation-specific drugs
evasion of immune system

Question 44

how can we identify poorly differentiated tumors? how can this be a problem?

Answer 44

immunohistochemistry; can be an issue if the tumor is heterogeneous for expression of markers

Question 45

what is an endothelial cell marker

Answer 45

CD31

Question 46

what are the two ways that cancer cells can sustain proliferative signalling

Answer 46

1. do not require GF for signalling
2. make their own GF

Question 47

what is a marker for cancer stem cells

Answer 47

CD133

Question 48

T/F tumours require cancer stem cells to form a new tumour

Answer 48

T

Question 49

what are 2 key factors that make cancer stem cells hard to treat

Answer 49

1. low proliferation rate
2. low uptake of drugs

Consequence: drug and radiation resistant

Question 50

T/F cancer stem cells express unique stem cell markers

Answer 50

F; often express normal markers

Question 51

how can giving anti-oxidants actually increase the incidence of cancer

Answer 51

cancer cells produce high ROS, which can kill them; antioxidants produced by the cell deal with this but only partially balance the oxidative stress, which means the cancer cells survive and have more ROS-mediated mutagenic events

Question 52

most cancer mortality is due to

Answer 52

metastasis

Question 53

T/F for some cancers there are primary tumor gene expression signatures that can predict their likelihood to metastasize

Answer 53

T

Question 54

what is the term for spread into body cavities by entering the pleural, peritoneal, pericardial or subarachnoid spaces

Answer 54

transcelomoic

Question 55

what are the 8 steps in the metastatic cascade

Answer 55

1. detach (from primary tumor)
2. invade (local stroma)
3. intravasate (go into local lymphatics/bvs)
4. survive (in circulation)
5. arrest (in capillaries or venules)
6. extravasate (go into parenchyma)
7. adapt to or subvert (environment)
8. proliferate (to form new tumor)

Question 56

why is inflammation associated with cancer (4)

Answer 56

1. cytokines
2. angiogenic factors
3. high proliferation
4. produce ROS - predisposes to mutation

Question 57

how do cancer cells avoid immune destruction (3)

Answer 57

1. stop producing antigen in a subset of cells (immuno-editing)
2. mutate or stop expressing MHC
3. produce immunosuppressive cytokines

Question 58

list whether the following factors increase or decrease the risk of cancer:
- decreasing age
- high calorie, low fibre diets
- obesity
- reproductive status (spayed/neutered)
- exposure to chemical carcinogens
- ionizing and UV radiation

Answer 58

• decreases
• increases
• increases
• decreases
• increases
• increases

Question 59

what are 4 oncogenic viruses

Answer 59

papillomaviruses
herpesviruses
hepadnaviruses
retroviruses

Question 60

avian leukosis virus causes

Answer 60

bursa lymphoma

Question 61

marek’s disease (herpesvirus) causes

Answer 61

lymphoma infiltrate in liver

Question 62

T/F there can be transmission of live neoplastic cells

Answer 62

T (can occur in tasmanian devils, in dogs)

Question 63

T/F after a tumor has undergone treatment, it cannot be reliably graded but can be reliably staged

Answer 63

F; cannot be reliably graded OR staged