Week 2: Cancer

Question 1

General trend between cancer incidence and age

Answer 1

Cancer requires a series of mutations in somatic cells, so increased likelihood of developing cancer with age

Question 2

Extrinsic stimuli for cancer

Answer 2

Environmental/acquired stimuli eg. smoking

Question 3

Intrinsic stimuli for cancer

Answer 3

Genetic design of the cell eg. BRCA gene

Question 4

Characteristics of benign tumors (2)

Answer 4

1. well differentiated

2. localized and demarcated

Question 5

Characteristics of malignant tumors (4)

Answer 5

1. less differentiated
2. grow rapidly
3. can invade neighboring tissues
4. can spread to other body sites

Question 6

Define neoplasia

Answer 6

uncontrolled, abnormal growth of cells or tissues in the body

Question 7

What is the difference between cancer & neoplasia?

Answer 7

cancer is a malignant form of neoplasia

Question 8

Define differentiation

Answer 8

degree of specialization within a cell

Question 9

Differentiation in a normal cell

Answer 9

all cells become more differentiated as they mature

Question 10

Relationship between cancer & differentiation

Answer 10

less differentiated, often express molecules that are normally only expressed in immature or less differentiated cells

Question 11

Define Carcinoembryonic antigen

Answer 11

Tumor cell marker of colorectal carcinomas, usually only expressed before birth

Question 12

Define proliferation

Answer 12

a cell’s ability to divide and make copies of itself

Question 13

Proliferative capacity

Answer 13

a limited number of cell divisions before that cell will die

Question 14

Relationship between cancer & proliferation

Answer 14

Cancer cells become immortalized and can divide without undergoing cell death, often divide more rapidly

Question 15

The more _____ the greater the capacity to _______and the more _______ the cancer

Answer 15

1. undifferentiated
2. proliferate
3. malignant

Question 16

3 major tasks of cell cycle

Answer 16

1. DNA replication or synthesis
2. Mitosis (nucleus divides)
3. Cytokinesis (cell divides)

Question 17

Which phase in the cell cycle is important for regulation of cell division?

Answer 17

G (gap) phases

Question 18

What is the relationship between the cell cycle and cancer?

Answer 18

Cell cycle is altered in many cancer cells

Question 19

What is different about the cell cycle of a cancer cell? (2)

Answer 19

• Disruption of normal cell division

- Cancer cells are autonomous or independent of normal growth controls

Question 20

What does the term “autonomous” mean with respect to cancer?

Answer 20

Cancer cells are independent of normal growth controls so they can divide indefinitely and proliferate continually

Question 21

What is the major function of telomerase?

Answer 21

places telomeres at the end of chromosomes

Question 22

Why does telomere loss occur and what is the result?

Answer 22

Why: telomeres are built into the ends of chromosomes to prevent the loss of genetic info as polymerase cannot copy the information at the end
Result: as cells divide, telomeres are lost, trigger apoptosis

Question 23

What is the relationship between cancer & telomeres?

Answer 23

Cancer cells overcome the association between telomere loss and death by activating telomerase to add new telomeres to the end of chromosomes

Question 24

What is the role of p53 in the cell cycle?

Answer 24

slows the cell cycle to allow for repair of mutations before cell division, has anticancer functions centered around DNA repair

Question 25

Anticancer functions of p53 (3)

Answer 25

1. Activates DNA repair proteins when DNA has sustained damage
2. Arrests the cell cycle to allow DNA repair proteins time to fix mutations
3. Initiates apoptosis if DNA damage cannot be reversed

Question 26

How does alteration of this normal role for p53 relate to cancer?

Answer 26

results in altered growth signals, cell cycle is not regulated

Question 27

What is the role of pRB in the cell cycle?

Answer 27

governs the restriction point in G1; if cells pass this point, they are committed to the cell cycle

Question 28

How does alteration of this normal role for pRB relate to cancer?

Answer 28

results in increased cell proliferation

Question 29

Explain what is meant by the statement: “cancer is genetic, but not necessarily inherited”

Answer 29

Genetic changes or mutations are required for cancer to arrive, but we don’t necessarily inherit these changes from our parents

Question 30

Define the term genetic and inherited in relation to cancer

Answer 30

genetic = mutation is involved
inherited = mutation is inherited from parent

Question 31

Most changes that lead to mutation are ______ not ______.

Answer 31

1. acquired

2. inherited

Question 32

General steps of the multi-step basis of cancer (3)

Answer 32

1. Initiation: DNA mutation, irreversible
2. Promotion: stimulation of cell proliferation, reversible in early stages
3. Progression: obtaining malignant phenotype, invasiveness and metastasis, autonomous growth, genomic instability

Question 33

Example of the multi-step concept and cancer - familial adenomatous polyposis (FAP) (6 steps)
What types of genes are mutated in this kind of cancer?

Answer 33

Involves changes in the TS and oncogenes

1. Deletion of APC TS gene
2. Deletion of a second APC allele
3. Mutation of ras oncogene
4. Loss of both alleles of DCC TS gene
5. Loss of p53 TS gene
6. Additional changes lead to invasion and metastasis

Question 34

Define tumor suppressor genes

Answer 34

function to inhibit cell growth & division

Question 35

What is required for retinoblastoma to arise?

Answer 35

mutation in both alleles of pRB - inherited and/or acquired

Question 36

What type of mutation occurs when TS genes are mutated?

Answer 36

loss of function

Question 37

Define oncogenes

Answer 37

Form growth factors, enzymes, receptors within the cell that generally promote cell growth
Typically work as protooncogenes (inactive form)

Question 38

How does a protooncogene become an oncogene?

Answer 38

activating mutation of one of the two alleles of a proto-oncogene converts it to an oncogene

Question 39

How is the Philadelphia chromosome formed (1) and what disease does it give rise to (2)?

Answer 39

1. Transmutation of chromosome 9 and chromosome 22

2. Chronic myelogenous leukemia

Question 40

What is the role of DNA repair genes?

Answer 40

correct damage or mutations in cellular DNA due to DNA replication error or environmental exposure

Question 41

What is the consequence of unrepaired DNA mutation?

Answer 41

damage can spread across cells

failure to fix mutation increases likelihood of cancer

Question 42

Give an example of a type of cancer that involves mutations in DNA repair genes.

Answer 42

Hereditary nonpolyposis colon cancer (HNPCC) - inherited mutations that impair DNA repair genes

Question 43

What are the altered biochemical properties of a cancer cell? (2)

Answer 43

1. Promote growth by secreting growth factors/hormones

2. Promote spread by secreting proteases

Question 44

What are chromosomal changes that occur in a cancer cell? (3)

Answer 44

1. Aneuploid (loss of diploid state)
2. Translocations and other rearrangements
3. Chromosomal instability

Question 45

What are the aberrant adherence properties of a cancer cell? (3)

Answer 45

1. Loss of contact inhibition
2. Anchorage independence
3. Promotion of invasion and metastasis

Question 46

Define invasion, angiogenesis, and metastasis

Answer 46

Invasion: active process involving transfer of cancer cell across tissue barriers
Angiogenesis: formation of new blood vessels
Metastasis: spread to new sites

Question 47

What occurs during invasion? (3)

Answer 47

1. Adhesion: adherence of cancer cells to basement membrane or extracellular matrix
2. Proteolysis: breakdown of extracellular barriers
3. Motility: movement of cancer cell from origin to neighboring sites

Question 48

Three major factors of metastasis (3)

Answer 48

1. Involves entry of tumor cell to blood lymph and distribution to other body sites where secondary tumors establish
2. Follows general patterns (vascular drainage)
3. Favors some sites bc they provide a good environment for tumor growth

Question 49

Common clinical manifestations of cancer (3)

Answer 49

pain, cachexia, and declining hematopoiesis

Question 50

Define cachexia

Answer 50

severe form of malnutrition associated with anorexia and tumor necrosis factor

Question 51

Define declining hematopoiesis

Answer 51

declining formation of blood cellular components, often see anemia; tumors in bone or bone marrow can contribute to this issue

Question 52

Define tumor cell markers

Answer 52

expressed as a consequence of changes in the cancer cell, can be used to identify cancer and reflect their clonality

Question 53

How are tumor cell markers used for diagnosis and treatment?

Answer 53

help determine changes in tumor growth or response to treatment; not usually specific enough to use for diagnosis

Question 54

Examples of tumor cell markers (3)

Answer 54

prostate-specific antigen (PSA) - prostate cancer 
CA-125 - ovarian cancer 
carcinoembryonic antigen (CEA) - colorectal cancers

Question 55

What are common treatments for cancer? (4)

Answer 55

1. Surgery: elimination of local tumor
2. Chemotherapy: treatment of disseminated tumor cells
3. Radiation: elimination of local tumor
4. Personalized medicine: tailor treatment to unique characteristics of each person

Question 56

What is tumor staging used for?

Answer 56

Group people according to the extent of the disease – can determine choice of treatment, estimate prognosis, compare results after treatment

Question 57

TNM staging method: T what does it indicate and stages (4)

Answer 57

size and local spread 
Tx: tumor cannot be adequately assessed 
T0: no evidence of primary tumor 
Tis: carcinoma in situ 
T1-4 progressive increase in tumor size or involvement

Question 58

TNM staging method: N what does it indicate and stages (3)

Answer 58

involvement of the regional lymph nodes
Nx: cannot be assessed
N0: no evidence of regional node metastasis
N1-3: increasing involvement of regional nodes

Question 59

TNM staging method: M what does it indicate and stages (3)

Answer 59

describes the metastatic involvement
Mx: not assessed
M0: no distant metastasis
M1: distant metastasis present, specify sites