Here are some CML slides that may be helpful for your presentation.

1. Here are some CML slides that may be helpful for your presentation.

2. Chronic Myeloid Leukemia (CML) • Accounts for 15-20% of adult leukemias • Median age is 50-60 years • Higher incidence noted in patients with heavy radiation exposure • In 1960, Nowell and Hungerford detected the Philadelphia chromosome (22q-). • In 1973, Rowley identified the reciprocal translocation involving chromosome 9 : t(9;22)(q34;q11). • In 1980s, the unique fusion gene termed BCR-ABL was discovered.

3. Epidemiology of CML • Median age range at presentation: 45 to 55 years • Incidence increases with age • Up to 30% of patients are >60 years old • Slightly higher incidence in males • Male-to-female ratio—1.3:1 • At presentation • 50% diagnosed by routine laboratory tests • 85% diagnosed during chronic phase Sawyers CL. N Engl J Med. 1999;340:1330-1340. Faderl S, et al. Ann Intern Med. 1999;131:207-219.

4. CML: Peripheral Blood Smear Normal Chronic phase CML Courtesy of John K. Choi, MD, PhD, University of Pennsylvania.

5. Pathogenesis of CML • A single, pleuripotential, hematopoietic stem cell acquires a Ph chromosome carrying the BCL-ABL fusion gene  proliferative advantage • Constitutive expression by leukemic stem cell of growth factors ( Il-3, G-CSF) • CML cells survive longer due to defective apoptosis • Close proximity of the BCR and ABL genes in hematopoietic cells in interphase may favor translocations. • Transformation from the chronic phase to blast phase is associated with additional molecular changes ( activation of oncogenes or deletion of tumor-suppressor genes)

6. Pathogenesis of CML • The classic BCR-ABL gene result from the fusion of parts of two normal genes  ABL on Ch9 and BCR on Ch22. • Both genes are ubiquitously expressed in normal tissue,but their precise functions are not well defined. • Break occurs in ABL upstream of exon a2 and the major breakpoint cluster region of the BCR gene  a 5’ portion of BCR and a 3’ portion of ABL are juxtaposed on a shortened Ch22. • The mRNA molecules transcribed from this hybrid gene contain one of two BCR-ABL junctions: e13a2 and e14a2  translated into p210BCR-ABL

7. Pathogenesis of CML • What causes the leukemogenic potential of p210bcr-abl? The constitutive activation of the ABL tyrosine kinase activity by BCR  deregulated cellular proliferation  decreased adherence of leukemic cell to the stroma  reduced apoptotic response to mutagenetic stimuli • Most crucial domain : the tyrosine kinase encoded by the SRC-homology 1 (SH1) domain on ABL • Various substrates have been found to bind to BCR-ABL and to be tyrosine –phosphorylated by it.

8. The Translocation of t(9;22)(q34;q11) in CML Faderl, S. et al. N Engl J Med 1999;341:164-172

9. Molecular Targets • Target for inhibition: Tyrosine kinase • Aim: to design a small chemical compound that would compete with ATP for its binding site in the kinase domain. • By blocking the ATP site, no phosphate groups would be transferred to tyrosine residues on the BCR-ABL substrate  unphosphorylated substrate protein would not be able to undergo a conformational change to allow it to associate with downstream effectors  the downstream reactions would then be impeded  interrupting transmission of the oncogenic signal to the nucleus.

10. Molecular Targets • Imatinib Mesylate (Gleevec, STI571): a small molecule that inhibits the kinase activity of all proteins that contain ABL, ABL-related gene protein, PDGFR, as well as c-kit receptor. • It was first approved in 2001. • It occupies the ATP binding site in the SH1 domain of the BCR-ABL oncoprotein. • It inhibits cellular growth and induces apoptosis. • Other targeted therapies being investigated: • The more specific Tyrosine Kinase inhibitors such as the dual SRC-ABL inhibitor : Dasatanib which was approved in June by the FDA.

11. Translocation Leading to the Philadelphia (Ph) Chromosome and the Role of BCR-ABL in the Pathogenesis of CML (Panel A) and the Effect of Normal (Panel B) and Abnormal (Panel C) c-kit Function on Platelet-Derived Growth Factor and Gastrointestinal Stromal Tumors Savage, D. G. et al. N Engl J Med 2002;346:683-693

12. Mechanism of Action of BCR-ABL and of Its Inhibition by Imatinib Savage, D. G. et al. N Engl J Med 2002;346:683-693

13. Clinical Course: Phases of Untreated CML Advanced phases Chronic phase Median duration5–6 years Accelerated phase Median duration6–9 months Blast crisis Median survival3–6 months p53, Rb, p16, t(3;21), t(8;21), t(7;11) Faderl S, et al. Ann Intern Med. 1999;131:207-219. Pasternak G, et al. J Cancer Res Clin Oncol. 1998;124:643-660.