Chapter 7: Cancer Tables

Question 1

Overexpression of the PDGFB proto-oncogene encoding the PDGF-β chain results in what kind of cancer?

Answer 1

Astrocytoma

Question 2

Overexpression of the HST1 proto-oncogene encoding Fibroblast growth factors results in what kind of cancer?

Answer 2

Osteosarcoma

Question 3

Amplification of the FGF3 proto-oncogene encoding Fibroblast growth factors results in what kind of cancers?

Answer 3

• Stomach cancer
• Bladder cancer
• Breast cancer
• Melanoma

Question 4

Overexpression of the TGFA proto-oncogene encoding TGF-α results in what kind of cancer?

Answer 4

Astrocytomas

Question 5

Overexpression of the HGF proto-oncogene encoding HGF results in what kind of cancers?

Answer 5

• Hepatocellular carcinomas
• Thyroid cancer

Question 6

Mutation in the ERBB1 (EGFR) proto-oncogene encoding the EGF-receptor tyrosine kinase results in what kind of cancer?

Amplification of the ERBB2 (HER) proto-oncogene results in?

Answer 6

ERBB1 (EGFR): Adenocarcinoma of lung

ERBB2 (HER): Breast carcinoma

Question 7

Point mutation of the FLT3 proto-oncogene encoding FMS-like tyrosine kinase 3 receptor results in what kind of cancer?

Answer 7

Leukemia

Question 8

Point mutation of the RET proto-oncogene encoding Receptor for neurotrophic factors results in what kind of cancers?

Answer 8

• MEN2A and 2B
• Familial medullary thyroid carcinomas

Question 9

Overexpression/translocation of the PDGFRB proto-oncogene encoding PDGF receptor results in what kind of cancers?

Answer 9

• Gliomas
• Leukemias

Question 10

Point mutation of the KIT proto-oncogene encoding the receptor for KIT ligand results in what kind of cancers?

Answer 10

• Gastrointestinal stromal tumors
• Seminomas
• Leukemias

Question 11

Translocation/fusion gene formation of the ALK proto-oncogene encoding ALK receptor results in what kind of cancers?

Point mutation?

Answer 11

Translocation/fusion gene formation: adenocarcinoma of lung, certain lymphomas

Point mutation: neuroblastoma

Question 12

Point mutation of the KRAS proto-oncogene encoding GTP-binding (G) protens results in what kind of cancers?

Answer 12

• Colon
• Lung
• Pancreatic tumors

Question 13

Point mutation of the HRAS proto-oncogene encoding GTP-binding (G) protens results in what kind of cancers?

Answer 13

Bladder and kidney tumors

Question 14

Point mutation of the NRAS proto-oncogene encoding GTP-binding (G) protens results in what kind of cancers?

Answer 14

Melanomas, hematologic malignancies

Question 15

Point mutation of the GNAQ proto-oncogene encoding GTP-binding (G) protens results in what kind of cancer?

Answer 15

Uveal melanoma

Question 16

Point mutation of the GNAS proto-oncogene encoding GTP-binding (G) protens results in what kind of cancers?

Answer 16

Pituitary adenoma, other endocrine tumors

Question 17

Translocation of the ABL proto-oncogene encoding Nonreceptor tyrosine kinase results in what kind of cancer?

Point mutation?

Answer 17

Translocation = Chronic myelogenous leukemia

Point mutation = Acute lymphoblastic leukemia

Question 18

Point mutation/Translocation of the BRAF proto-oncogene encoding RAS signal transducers results in what kind of cancers?

Answer 18

Melanomas

Leukemias

Colon carcinoma

Question 19

Mutation of the NOTCH1 proto-oncogene encoding Notch signal transducers results in what kind of cancers?

Answer 19

Leukemias

Lymphomas

Breast carcinoma

Question 20

Translocation of the JAK2 proto-oncogene encoding JAK/STAT signal transducers results in what kind of cancers?

Answer 20

• Myeloproliferative disorders
• Acute lymphoblastic leukemia

Question 21

Translocation of the MYC proto-oncogene results in what kind of cancers?

Amplification of NMYC?

Answer 21

MYC = Burkitt lymphoma

NMYC = Neuroblastoma

Question 22

Mutations of the CCND1 (Cyclin D1) proto-oncogene encoding Cyclins results in what kind of cancers?

Answer 22

• Mantle cell lymphoma (Translocation)
• Multiple myeloma (Translocation)
• Breast and esophageal cancers (Amplification)

Question 23

Mutations of the CDK4 proto-oncogene encoding Cyclin-dependent kinase results in what kind of cancers?

Answer 23

• Glioblastoma
• Melanoma
• Sarcoma

Question 24

A (9;22)(q34;q11) translocation affecting ABL (9q34) and BCR (22q11) results in?

Answer 24

Chronic myelogenous leukemia (CML)

Question 25

A (8;21)(q22;q22) or (15;17)(q22;q21) translocation results in?

Answer 25

Acute Myeloid leukemia (AML)

Question 26

A (8;14)(q24;q32) translocation is seen in what?

What is located on chromosome 8 and 14?

Answer 26

• Burkitt Lymphoma
• MYC = chromosome 8
• Ig heavy chain = chromosome 14

Question 27

A (11;14)(q13;q32) translocation involving CCND1-IGH results in?

Answer 27

Mantle cell lymphoma

Question 28

A (14;18)(q32;q21) translocation is seen in?

What is located on chromosome 14 and 18?

Answer 28

• Follicular lymphoma
• Ig heavy chain = chromosome 14
• BCL2 = chromosome 18

Question 29

APC encoding Adenomatous polyposis coli protein is an inhibitor of?

Associated familial syndromes?

Sporadic cancers?

Answer 29

• Inhibitor of WNT signaling

Familial syndromes: familial colonic polyps and carcinomas

Sporadic cancers: carcinomas of stomach, colon, pancreas; melanoma

Question 30

NF1 encoding Neurofibromin-1 which is an inhibitor of?

Associated familial syndromes?

Sporadic cancers?

Answer 30

• Inhibitor of RAS/MAPK signaling

Familial syndromes: Neurofibromatosis type 1 (malignant peripheral nerve sheath tumors)

Sporadic cancers: Neuroblastoma, juvenile myeloid leukemia

Question 31

NF2 encoding Merlin which has what function?

Associated familial syndromes?

Sporadic cancers?

Answer 31

• Cytoskeletal stability, Hippo pathway signaling

Familial syndromes: Neurofibromatosis type 2 (acoustic schwannoma and meningioma)

Sporadic cancers: Schwannoma, meningioma

Question 32

PTCH encoding Patched which is an inhibitor of?

Associated familial syndromes?

Sporadic cancers?

Answer 32

• Inhibitor of Hedgehog signaling

Familial syndromes: Gorlin syndrome (basal cell carcinoma, medulloblastoma, several benign tumors)

Sporadic cancers: Basal cell carcinoma, medulloblastoma

Question 33

RB encoding Retinoblastoma (RB) protein which is an inhibitor of?

Associated familial syndromes?

Sporadic cancers?

Answer 33

• Inhibitor of G₁/S transition during cell cycle progression

Familial syndromes: Familial retinoblastoma syndrome (retinoblastoma, osteosarcoma, other sarcomas)

Sporadic cancers: Retinoblastoma, osteosarcoma, carcinomas of breast, colon, lung

Question 34

VHL encoding Von Hippel Lindau (VHL) protein which is an inhibitor of?

Associated familial syndromes?

Sporadic cancers?

Answer 34

• Inhibitor of hypoxia-induced transcription factors (i.e., HIF-1)

Familial syndromes: Von Hippel Lindau syndrome (cerebellar hemangioblastoma, retinal angioma, renal cell carcinoma)

Sporadic cancers: Renal cell carcinoma

Question 35

CDH1 encodes E-cadherin which is involved in?

Associated familial syndromes?

Sporadic cancers?

Answer 35

• Cell adhesion, inhibition of cell motility

Familial syndromes: Familial gastric cancer

Sporadic cancers: Gastric carcinoma, lobular breast carcinoma

Question 36

TP53 encodes p53 protein which has what important function?

Associated familial syndromes?

Sporadic cancers?

Answer 36

• Cell cycle arrest and apoptosis in response to DNA damage

Familial syndromes: Li-Fraumeni syndrome (diverse cancers)

Sporadic cancers: Most human cancers!

Question 37

BRCA1, BRCA2 encodes Breast cancer-1 and Breast cancer-2 DNA repair factors which have what important function?

Associated familial syndromes?

Sporadic cancers?

Answer 37

• Repair of double-stranded breaks in DNA

Familial syndromes: Familial breast and ovarian carcinoma; carcinomas of male breast; chronic lymphocytic leukemia (BRCA2)

Sporadic cancers: RARE!

Question 38

MSH2, MLH1, MSH6 encode MSH1, MLH1, MSH6 DNA repair factors which have what important function?

Associated familial syndromes?

Sporadic cancers?

Answer 38

• DNA mismatch repair

Familial syndromes: Hereditary nonpolyposis colon carcinoma

Sporadic cancers: Colonic and endometrial carcinoma

Question 39

WT1 encodes Wilms tumor-1 (WT1) which has what function?

Associated familial syndromes?

Sporadic cancers?

Answer 39

• Transcription factor

Familial syndrome: Familial Wilms tumor

Sporadic cancers: Wilms tumor, certain leukemias