7 - Neoplasia

Question 1

Which appears to be the dominant risk factor category for neoplastic development, genetics or environmental factors?

Answer 1

Environmental

Question 2

Do mixed tumors (pleomorphic adenomas) have cells from multiple germ layers?

Answer 2

No, they often have epithelial and myoepithelial cells (both from the same layer and clonal start)

Question 3

What is a choristoma?

Answer 3

A nonneoplastic nodule of well-developed tissue in the wrong place (a heterotopic rest of cells)

Question 4

What is a morphologic hallmark of malignancy?

Answer 4

Anaplasia

Question 5

What are some signs of a lack of differentiation in malignant cells (anaplasia)?

Answer 5

Pleomorphism, abnormal nuclear morphology, mitoses, loss of polarity, central areas of ischemic necrosis, loss of function

Question 6

What are the two most major characteristic behaviors of a malignancy?

Answer 6

Metastasis; local invasiveness

Question 7

Do tumors have their own contained functional lymphatics?

Answer 7

No, the ones around the periphery of the tumor are sufficient

Question 8

Is it accurate to say that carcinomas spread via lymphatics and sarcomas spread via hematogenous routes?

Answer 8

Yes, but it is misleading as the lymphatics and vascular systems are very interconnected.

Question 9

What are two major spots of dissemination in hematogenous spread?

Answer 9

The liver and lungs

Question 10

What tumors are very likely to spread to the vertebral column?

Answer 10

Proximal tumors (e.g. the thyroid and prostate) metastasize through the paravertebral plexus

Question 11

What tumor has a high affinity for venous invasion and invades the branches of the renal vein and then the renal vein itself?

Answer 11

Renal cell carcinoma (it can even reach all the way up the inferior vena cava to the heart)

Question 12

To where do breast cancers preferentially spread?

Answer 12

Bone

Question 13

To where do bronchogenic carcinomas preferentially spread?

Answer 13

The adrenals and the brain

Question 14

To where do neuroblastomas preferentially spread?

Answer 14

The liver and bones

Question 15

What are the most common cancers in men?

Answer 15

Prostate, lung, and colon/rectum

Question 16

What are the most common cancers in women?

Answer 16

Breast, lung, and colon/rectum

Question 17

What four cancers account for more than 50% of cancer diagnoses and deaths in the U.S.?

Answer 17

Lung, female breast, prostate, an colon/rectum

Question 18

What are the most common cancers in the world?

Answer 18

Lung, stomach, and liver in men; breast, cervix, and lung in women

Question 19

What percentage of cancers worldwide are thought to be directly or indirectly caused by infectious agents?

Answer 19

15%

Question 20

What is the single most important environmental factor contributing to premature death in the U.S.?

Answer 20

Smoking

Question 21

What percentage of lung cancer deaths can be attributed to smoking?

Answer 21

90%

Question 22

What are some acquired conditions that can predispose to cancer (3)?

Answer 22

Chronic inflammation, precursor leisons, immunodeficiency states

Question 23

What are the four classes of normal regulatory genes that are the principal targets of cancer-causing mutations?

Answer 23

Proto-oncogenes, tumor suppressor genes, apoptosis-regulating genes, and genes involved in DNA repair

Question 24

What are the mutations called that contribute to the development of a malignant phenotype?

Answer 24

Driver mutations

Question 25

What are the three steps of tumor development?

Answer 25

Initiation, promotion, and progression

Question 26

What is the Warburg effect?

Answer 26

Tumors switch to aerobic glycolysis from oxidative phosphorylation. Aerobic glycolysis provides rapidly dividing tumor cells with metabolic intermediates that are needed for the synthesis of cellular components, whereas mitochondrial oxidative phosphorylation does not

Question 27

What is a particularly important proto-oncogene?

Answer 27

The signal transducer RAS (as well as MYC, P13K, BRAF, ERBB1 and 2)

Question 28

What are the three RAS mutations in humans?

Answer 28

HRAS, KRAS, NRAS

Question 29

What is the Philadelphia chromosome?

Answer 29

CML change; BCR-ABL kinase mashup between chromosomes 9 and 22

Question 30

What two genes promote G1/S progression? What two genes inhibit it?

Answer 30

D cyclin genes, CDK4; RB, TP53

Question 31

How is RAS usually activated?

Answer 31

Point mutations

Question 32

Do both tumor suppressor alleles or both proto-oncogenes need to be knocked out?

Answer 32

Tumor suppressors (only one proto-oncogene mutation is needed)

Question 33

What are some principal tumor suppressor genes?

Answer 33

RB, TP53, APC, NF1, NF2, VHL, MEN1

Question 34

What is the most frequently mutated gene in human cancers?

Answer 34

TP53 (found in more than 50% of all cancers)

Question 35

What is the gene that regulates the WNT pathway in colonic epithelium?

Answer 35

APC

Question 36

What is the TGF-beta pathway?

Answer 36

A potent inhibitor of cellular proliferation

Question 37

Which is the most commonly mutated apoptotic pathway in cancer, the intrinsic or extrinsic?

Answer 37

The intrinsic

Question 38

What family of anti-apoptotic genes is often overexpressed in certain cancers?

Answer 38

BCL2

Question 39

What are some possible mechanisms by which cancer cells have seemingly immortal potential?

Answer 39

(1) Evasion of senescence; (2) evasion of mitotic crisis; (3) the capacity for self-renewal

Question 40

What diameter is a solid tumor limited to if it lacks the ability for angiogenesis?

Answer 40

1 to 2 mm

Question 41

What is the principal proangiogenic factor?

Answer 41

VEGF

Question 42

What are the steps of the metastatic cascade?

Answer 42

(1) Invasion of the extracellular matrix (ECM) and (2) vascular dissemination, homing of tumor cells, and colonization

Question 43

What is the first step of cancer cell invasion?

Answer 43

Alterations in intercellular adhesion molecules (E-cadherins) (dissociation of cancer cells from one another)

Question 44

What is the second step of cancer cell invasion?

Answer 44

Degradation of the basement membrane and interstitial connective tissue

Question 45

What are the final steps of cancer cell invasion?

Answer 45

Changes in attachment of tumor cells to ECM proteins; locomotion is the final step of invasion, propelling tumor cells through the degraded basement membranes and zones of matrix proteolysis

Question 46

Do all cells in a tumor hold all the necessary steps of metastasis?

Answer 46

No, different cells acquire different mutations, but the most successful cells continue to proliferate (clonal evolution model)

Question 47

What is the main class of tumor antigens?

Answer 47

Products of mutated genes (aberrantly expressed cellular proteins, oncogenic virus antigens, oncofetal antigens, altered cell surface glycoproteins)

Question 48

What immune cells have antitumor effects?

Answer 48

Cytotoxic T cells, natural killer cells, macrophages

Question 49

What makes tumors especially difficult for immune surveillance to detect and completely eliminate?

Answer 49

Immune surveillance detects and eliminates the antigen-positive cells, leaving only the antigen-negative cells that are undetectable to proliferate

Question 50

Do some tumor cells secrete immunosuppressive factors?

Answer 50

Yes.

Question 51

What expedites the acquisition of driving mutations?

Answer 51

The increased mutation rates in cancers

Question 52

Describe hereditary nonpolyposis colon cancer syndrome (HNPCC). What is the underlying issue?

Answer 52

An autosomal dominant disorder characterized by familial carcinomas of the colon; defects in DNA mismatch repair genes

Question 53

Describe xeroderma pigmentosum.

Answer 53

An inherited disorder of nucleotide excision repair; UV rays causes an increased risk of thymidine dimers

Question 54

What are some rare cancer syndromes involving DNA repair and hypersensitivity to DNA-damaging agents?

Answer 54

Bloom syndrome (ionizing agents), ataxia-telangiectasia (ionizing agents), Fanconi anemia (chemotherapeutic drugs)

Question 55

What are some systemic signs and symptoms that can result from chronic inflammation associated with cancer?

Answer 55

Anemia, fatigue, cachexia

Question 56

What are some possible mechanisms by which chronic inflammation can lead to cancer development?

Answer 56

Release of angiogenic and growth factors (by leukocytes and activated stromal cells), degradation of adhesion molecules (by inflammatory proteases), enhanced resistance to cell death

Question 57

What are some examples of chromosomal changes that cause dysregulation of cancer-associated genes?

Answer 57

Translocations (e.g. Burkitt lymphoma, MYC), deletions (e.g. Retinoblastoma, RB), gene amplification (e.g. neuroblastoma, NMYC), chymothrypsis (chromosome ‘shattering’ and haphazardly reassembled)

Question 58

What are some of the epigenetic changes that can cause dysregulation of cancer-associated genes?

Answer 58

Methylation of tumor suppressor genes; histone changes

Question 59

What are some of the miRNAs invloved in cancer epigenetics?

Answer 59

OncomiRNAs, tumor suppressive miRNAs

Question 60

What symptoms characterize cancer cachexia?

Answer 60

Equal loss of fat and muscle, elevated BMR, evidence of systemic inflammation

Question 61

What is a possible cause of cachexia?

Answer 61

Tumor necrosis factor-alpha secretion

Question 62

What are some paraneoplastic syndromes of cancer?

Answer 62

Endocrinopathies (e.g. Cushings), hypercalcemia, acanthosis nigricans, DIC

Question 63

What is the difference between grading and staging of tumors?

Answer 63

Grading: determined by cytologic appearance; based on the idea that behavior and differentiation are related, with poorly differentiated tumors having more aggressive behavior

Staging: determined by surgical exploration or imaging, is based on size, local and regional lymph node spread, and distant metastases; of greater clinical value than grading

Question 64

What is flow cytometry?

Answer 64

Mainly used to identify cellular antigens expressed by “liquid” tumors

Question 65

What tumor marker is associated with trophoblastic and nonseminomatous testicular tumors?

Answer 65

beta-HCG

Question 66

What tumor marker is associated with medullary carcinoma of the thyroid?

Answer 66

Calcitonin

Question 67

What tumor marker is associated with pheochromocytoma?

Answer 67

Catecholamine and metabolites

Question 68

What tumor marker is associated with liver cell cancer and nonseminomatous testicular cancers?

Answer 68

alpha-fetoprotein

Question 69

What cancers are associated with carcinoembryonic antigen (CEA)?

Answer 69

Carcinomas of the colon, pancreas, lung, stomach, and heart

Question 70

What tumor marker is associated with prostatic acid phosphatase?

Answer 70

Prostate cancer

Question 71

What tumor marker is associated with neuroblastoma and small-cell cancer of the lung?

Answer 71

Neuron-specific enolase

Question 72

What tumor marker is associated with multiple myeloma?

Answer 72

Immunoglobulins

Question 73

What tumor marker is associated with prostate cancer?

Answer 73

Prostate-specific antigen, prostate-specific membrane antigen, and prostatic acid phosphatase

Question 74

What tumor marker is associated with ovarian cancer?

Answer 74

CA-125