Oncogenesis and metabolism in cancer self study flashcards

Question 1

bcr-abl

Answer 1

Fusion oncogene. Example of uninhibited tyrosine kinase activity. Activates all downstream signals.

Question 2

Is carcinogenesis usually somatic or germ line?

Answer 2

Usually somatic (nonheritable)

Question 3

What are germ line mutations?

Answer 3

Present in egg or sperm, heritable

Question 4

What are somatic mutations?

Answer 4

Occur in nongermline tissues, nonheritable. May be caused by intefections, toxins.

Question 5

Early onset bilateral cancers are associated with what?

Answer 5

Germline mutations

Question 6

Knudson 2 hit hypothesis

Answer 6

Usually underlying germline mutation (1st hit) and later onset somatic mutation (2nd hit)

Question 7

What happens if you give an identical twin a stem cell transplant?

Answer 7

Perfect match but more risk of relapse because immune systems identical

Question 8

T-cell depletion in donor bone marrow

Answer 8

Cause more relapses, suggesting donor t-cells help eradicate cancer cells

Question 9

Tumor vaccines

Answer 9

Use patient’s own cells to prevent cancer recurrence

Question 10

6 hallmarks of cancer

Answer 10

1. Sustaining proliferative signaling 2. Resisting cell death 3. Inducing angiogenesis 4. Enabling replicative immortality 5. Evading growth suppressors 6. Activating invasion and metastasis

Question 11

2 emerging hallmarks of cancer

Answer 11

1. Deregulating cellular energetics 2. Genome instability and mutation

Question 12

2 enabling characteristics of cancer

Answer 12

1. Avoiding immune destruction 2. Tumor-promoting inflammation

Question 13

Immune system and cancer

Answer 13

Plays critical role in suveillance of, prevention of, and elimination of cancer and pre-cancerous cells. More profound immune dyfunction means higher cancer risk.

Question 14

What are the 2 most common cancers associated with immunodeficiency?

Answer 14

1. Leukemias 2. Lymphomas

Question 15

What predisposes someone to leukemia?

Answer 15

Damage to bone marrow

Question 16

Chromosome instability and cancer

Answer 16

Fragile chromosomes greatly increase chromosomal mutations and DNA damage. In damaged DNA failure to undergo apoptosis allows persistence of mutations which can lead to cancer.

Question 17

p53

Answer 17

Guardian of the genome. Arrests cell in G1 and G2 when DNA damage is detected to give cell time to repair or die

Question 18

p53 in cancer

Answer 18

If mutation in p53 the probability of survival for more than a few years is extremely low.

Question 19

BRCA1 and NBS in breast cancer

Answer 19

Participate in DNA repair

Question 20

ATM

Answer 20

Mediates response to DNA damage and cell cycle progression. Detects the DNA damage so p53 can drive cell to repair or apoptosis.

Question 21

2 things oncogenes control

Answer 21

1. Cell proliferation 2. Apoptosis (or both)

Question 22

Oncogene product 3 categories

Answer 22

1. Transcription factors 2. Tyrosine Kinase activity (often growth factor receptors and activate downstream targets) 3. Chromatin remodelers “Imprinting”

Question 23

Transcription activators

Answer 23

Potent for very active genes (like Immunoglobin genes). Can inappropriately activate oncogenes that can lead to cancer.

Question 24

Philadelphia chromosome

Answer 24

Discovered by Janet Rowley. Chromosome 9 and chromosome 22 switched places which is called chronic myelogenous leukemia (CML). This started to convice scientific community that cancer is genetic.

Question 25

Imatinib AKA “Gleevec” AKA STI

Answer 25

Drug which has lock and key fit for abnormal Bcr-abl protein. Had 40-50% cure rate and turned it into a 98% cure rate.

Question 26

Imprinting

Answer 26

Example of chromatin remodeling. Methylation which changes transcription of a gene, turning off the promoter.

Question 27

Uninhibited activity of growth factors

Answer 27

Can happen through imprinting and loss of heterozygosity

Question 28

Loss of heterozygousity

Answer 28

One allele vanishes and only one parent’s allele is expressed—uniparental disomy

Question 29

Unilateral disomy

Answer 29

Two copies from the SAME parent instead of one copy from each parent

Question 30

Is suppressing the suppressor (p53 and Rb) or activating the activator worse for cancer?

Answer 30

Suppressing the supressor (taking away the defense) because the tumor suppressor gene can fix the problems caused by the activator

Question 31

What does loss of tumor suppressors do?

Answer 31

Leads to overexpression of oncogenes

Question 32

Vascular endothelial growth factor (VEGF)

Answer 32

Stimulates formation of vasculature for new tumor site (there is a drug that targets this)

Question 33

Angiogenesis

Answer 33

New blood vessels (does NOT happen normally)

Question 34

Wrong number of chromosomes and embryologic defects

Answer 34

Increased risk of cancer

Question 35

What is the difference between embryology and cancer?

Answer 35

Embryology is “regulated” growth vs cancer is dysregulated

Question 36

Malignant tumors are characterized by what 4 things?

Answer 36

1. Upregulated cell division 2. Immortality, resistance to apoptosis 3. Ability to metastasize 4. Induce angiogenesis (make new blood vessels)

Question 37

Tumor cells and energy needs

Answer 37

Main energy source is glucose-will take it under any conditions. Tumor cells are not responsive to insulin or glucagon. Tumor cells also have high AA requirements for building proteins.

Question 38

Source of glucose for tumor cells

Answer 38

Blood (glycogen breakdown oe glucose synthesis in liver). Glycolysis highly upregulated; some glycolytic enzymes become much more efficient variants.

Question 39

Source of amino acids for tumor cells

Answer 39

Skeletal muscle

Question 40

Cancer cachexia and 4 causes

Answer 40

Unexplained weight loss in cancer patients possibly caused by: 1. Decreased appetite 2. Increased energy need of cancer cells 3. Secretion of factors that stimulate skeletal muscle/fat tissue wasting 4. Endocrine imbalance (insulin resistance, higher cortisol, higher BMR)

Question 41

5 factors released by cancer cells which moderate metabolism

Answer 41

1. ACTH 2. Nerve growth factor 3. Insulin-like growth factor 4. Proteolysis inducing factor 5. Lipid mobilizing factor

Question 42

Host response to tumor

Answer 42

Release of IL-1, IL-6, interferon-gamma, tumor necrosis factor-alpha by immune cells which cause fever, proteolysis (breakdown of proteins), lipolysis