1/6 Molecular Basis of Hematologic Malignancy - Corbett

Question 1

steps in malignant transformation

Answer 1

1. non-lethal genetic damage

• acquired (chemicals, radiation, viruses)
• inherited

2. damage disruption of key regulatory genes

• growth promoters (proto-oncogenes)
• growth suppressors (tumor suppressor genes)
• regulators of programmed cell death
• genome guardians

Question 2

balanced reciprocal translocation

why are lymphoid cells common targets of gene rearrangement?

Answer 2

single breaks occur in two chromosomes, switch spots

often leads to…

• overexpression of gene product
• abnormal function

lymphoid cells purposely make DNA breaks

• normal antigen receptor recombo (B and T cell progenitors)
• class switch recombo (antigen-stimulated mature B cells)

Question 3

oncogenes

proto-oncogenes

Answer 3

oncogenes: genes that promote autonomous cell growth in cancer cells

• single gene mutation is enough to promote unreg’d growth

proto-oncogenes: unmutated cellular counterparts of oncogenes, including…

• transcription factors
• growth regulatory proteins
• cell survival proteins
• cell-cell and cell-ECM interaction proteins

Question 4

5 ways to create sustained growth signals

Answer 4

1. receptor activation
2. non-receptor tyrosine kinases
3. downstream signal-transducing proteins
4. nuclear transcription factors
5. cell cycle proteins
   
   • cyclins
   • cyclin-dependent kinases

Question 5

myeloproliferative disorders

mast cell

RBC

platelet

eosinophil

neutrophil

monocyte

Answer 5

Question 6

receptor-assoc or cytoplasmic signaling molecules

Answer 6

activation of nonreceptor Tyr kinases

Question 7

polycythemia vera mutation

Answer 7

JAKV617F

essential thrombocytosis

primary myelofibrosis

Question 8

role of c-Abl

constitutive activation of c-Abl

comparison of c-Abl and Bcr-Abl

Answer 8

c-Abl is a tyrosine kinase

• promotes growth and survival
• helps regulate DNA damage repair response

balanced translocation between ch9 (abl) and ch22 (bcr) produces Philadelphia chromosome (altered ch22) containing bcr-abl

• c-Abl gains a domain from BCR that facilitates dimerization → constitutive kinase activity

comparison:

• Bcr-Abl is constitutively active
• Bcr-Abl is trapped in cytoplasm

Question 9

RAS-RAF PATHWAY

Answer 9

gain of fx point mutation on ras → constitutive activation → signalling to MAP kinase to enhance proliferation

ex. hairy cell leukemia: 100% have a BRAF mutation

Question 10

nuclear transcription factors

c-MYC

Answer 10

cMYC is an imp activator of transcription (among other things)

generally, promotes cell growth

Burkitt lymphoma is associated with overexpression of c-myc

Question 11

Burkitt lymphoma

connection to transcriptional activation

Answer 11

tumor of mature B cells

3 forms:

• endemic Burkitt lymphoma (eBL): jaw and facial bone (orbit) involvement in over 50% of cases
• sporadic Burkitt lymphoma (sBL): ileocecal or peritoneal tumors that cause swelling and pain
• HIV-associated

all assocaited with c-myc translocation

• classic t(8:14) translocation of c-myc such that it ends up adjacent for IgH promoter on chr14!

as a result, IgH promoter acts on c-myc → v high levels of c-myc seen

Question 12

BCL6

associated illness

Answer 12

transcriptional repressor in germinal center B cells

• lots of fx, but key: inhibition of response to genotoxic stress (p53, ATR)

sooo if BCL6 is active all the time, then normal surveillance mechanisms are shut down all the time = BAD

overexpression of BCL6 associated with diffuse large B cell lymphoma

• occurs one of two ways:
  
  • translocation placing BCL6 under control of new promoter (30%)
  • small deletions or somatic point mutations in BCL6 regulatory region (70%)

Question 13

acute promeylocytic leukemia

associated with…

Answer 13

assoc with transcriptional repressor

balanced 15:17 translocation

• resulting fusion protein blocks retinoic acid-induced myeloid differentiation AND enhanced self-renewal

Question 14

cell cycle control

roles of cyclins, cylin-dependent kinases, CDK inhibitors

and connection to unchecked growth

Answer 14

loss of cell cycle control is central to malignant transformation

defects in G1/S phase checkpoint are associated with unchecked growth

two classes of cancer mutations:

1. gain of function mutations in oncogenes
   
   • D cyclin genes
   • cyclin-dependent kinase 4 (CDK4)
2. loss of function mutations in tumor suppressor genes
   
   • cyclin dep kinase inhibitor (CDKN2A)
   • Retinoblastoma protein 1 (Rb1)

Question 15

mantle cell lymphoma

Answer 15

overexpression of cyclin D1

• 11:14 translocation involving…
  
  • IgH locus on chr14
  • cyclin D1 locus on chr11

upreg of cyclin D1 promotes G1→S phase transition

Question 16

loss of cell cycle regulation

Answer 16

gain of fx mutations

• increased CDK4/cyclinD activity
  *

Question 17

evasion of cell death

apoptotic pathways

Answer 17

accumulation of neoplastic cells can result from mutation in genes that regulate apoptosis

1. mitochondrial (intrinsic) pathway
   
   • cell injury → Bcl2 sensors → Bcl2 effectors (Bax, Bak) hit mitochondria and promote pore formation→ mito releases cytochrome c, APAF1 and other pro apoptotic proteins → initator caspases → executioner caspases
   • regulators (Bcl2, Bcl-xl) are antiapoptotic
     
     • Bcl2 binds Bax/Bak to prevent pore formation
   • Bid, Bad, PUMA promote apoptosis by binding Bcl2 and keeping Bax/Bak free
2. death receptor (extrinsic) pathway

Question 18

how do tumor cells evade death?

Answer 18

1. loss of p53 reduces pro-apoptotic Bax/Bak
2. upreg of anti-apoptotic BCL2
3. loss of APAF1
4. upreg of inhibitors of apoptosis (IAP)

Question 19

BCL2 and cancer

Answer 19

Bcl2 has well established role in protecting malignant lymphioid cells from apoptosis

follicular lymphoma arises from germinal center B cells

90% carry characteristic 14:18 translocation

• results in overabundance of BCL2 protein (necessary but not sufficient for malignant transformation)
• lymphocytes are protected from apoptosis as a result
• see lymphadenopathy and marrow infiltration as numbers increase

Question 20

key genes/mutations and diseases

Answer 20

Question 21

key PROTEINS and translocations for:

diffuse large B cell lymphoma

Burkitt lymphoma

mantle cell lymphoma

follicular lymphoma

Answer 21

CHROMOSOME 14

Question 22

disease and translocation associated with:

BCL6

CCND1/CyclinD1

cMYC

BCL2

Answer 22