04 Octobre 2012

1. Towardsoptimization of Acute MyeloidLeukemiatreatment: a data-driven model of cell population dynamics Annabelle Ballesta, FatenMehri, Xavier Dupuis, Pierre Hirsh, Ruoping Tang, Jean-Pierre Marie, Jean Clairambault 04 Octobre 2012

2. OUTLINE Introduction on Acute MyeloidLeukemia • Cell Dynamics in the absence of drugs • Experimentalresults for Patient #7 • Time- and age-structuredmathematicalmodel • Fit to experimentalresults for Patient #7 • Cell Dynamics in presence of Anticancerdrugs (Aracytine and AC220) Annabelle Ballesta

3. Normal Hematopoiesis Hematopoietic Stem Cell Annabelle Ballesta

4. Acute MyeloidLeukemia Hematopoietic Stem Cell Annabelle Ballesta

5. Acute MyeloidLeukemia Blockage in the differenciation of progenitors of the myeloidlinage. Cancer cellsproliferate in the bonemarrow and eventuallyinvade the blood and otherorgans. AMLs are the mostfrequentleukemias in adults. They are associated to a high mortality (40 000/year in Europe). -> optimizingtherapiesagainst AML still a clinical challenge Annabelle Ballesta

6. 1 Cell Dynamics in the absence of drugs

7. Experimentalprotocol Experiments on AML patient bloodsample. Assumption: only cancer progenitors in blood, healthyprogenitorsbeing in the bonemarrow. Three membrane markers to characterizecell populations: CD 34, CD 38 and CD 33 Surface marker Annabelle Ballesta

8. ThreeCellcompartments Cancer Hematopoietic stem cells CD34+/CD38- CD38+/CD33- Cancer progenitors Mature cancer cells ”blast” CD38+/CD33+ Threecell population: from immature to mature cells Able to self-renew, to differenciate Able to differenciate Unable to differenciate Annabelle Ballesta

9. Experimentalprotocol J0 8am: Blood sample collection J0: Sort white bloodcells by Ficoll J0: Sort CD34/38/33+ cell population by immunomagnetic technique J0 2pm to J5: cell culture in standard medium supplementedwithgrowthfactors (SCF, G-CSF, Il-3, Flt-3) Annabelle Ballesta

10. Patient #7: Markers at J0 Markers: ->cellsorting of CD 38+ population Annabelle Ballesta

11. Patient #7: Cell count Methods: count using the Malassezcell Average of 2 to 3 independantmeasurements Time (min) Annabelle Ballesta

12. Patient #7: CellDeath Methods: Annexin/ Propidium iodure (PI) Average of 2 to 3 independantmeasurements Time (min) Annabelle Ballesta

13. Patient #7: Cell cycle (PI+Ki67) J2 J1 J4 J3 Annabelle Ballesta

14. Patient #7: CD 38 and CD 33 markers Time (min) Annabelle Ballesta

15. Mathematical model One population : CD 38+ Model isstructured in time and age 4 phases: G0 (r), G1 (g), S (s), G2/M (m) NB: model incorporatescell cycle phases in view of modeling of phase-specificanticancerdrugs. Tr r Tg Ts Tm g s m γ γ γ γ Annabelle Ballesta

16. Mathematical model Equation for g(t,a): Initial condition in age: Initial condition in time: Annabelle Ballesta

17. Mathematical model Tr, Tg, Ts, Tm: Transitions functions in the form: -> 3 parameters to beestimated for each phase= 12 parameters Initial instant: cells in G0 and G1, sameageassumed for all cells,age to beestimated Annabelle Ballesta

18. Parameter estimation 16 parameters to beestimated in total: 12 for transition functions, age in G0 and G1 at t=0, 2 deathrates gamma and delta. Least square approach, minimizationtaskperformedwith the CMAES algorithm Annabelle Ballesta

19. Results for Patient #7: cellnumber Annabelle Ballesta

20. Results for Patient #7: celldeath Annabelle Ballesta

21. Results for Patient #7: cell cycle G0 G1, S , G2/M Annabelle Ballesta

22. Results for Patient #7: parameter values a0_G0= 53 h a0_G1= 235 h γ=0.002 h-1 δ=0 h-1 a_min_r= 30.2 h µ_r= 53 σ_r= 7.1 a_min_g= 18.9 h µ_g= 27.7 σ_g=7 a_min_s= 28.3 h µ_s=39.9 σ_s=-=6.59 a_min_m= 0.9 h µ_m=0.16 σ_m=0.05 Annabelle Ballesta

23. Conclusions and Perspectives Experimentalcharacterization of celldynamicsin control conditions for Patient #7, mathematical model calibrated to data achieve a satisfying fit. Perspective: model two populations (CD 38+/CD 33- and CD38+/33+) to improve fit. Samemodelingapproach for other patient data (10 patients) Annabelle Ballesta

24. 2 Cell Dynamics in presence of Aracytin (ARA-C) and FLt 3 inhibitor AC220

25. AML therapeutics Aracytine (ARA-C) widelyused in clinicsagainst AML. Aracytinetargetscells in S-phase. Annabelle Ballesta

26. Celldynamics: cell count Patient #7: CD38+ population Temps (min) Annabelle Ballesta

27. Celldynamics: Annexin/PI Patient #7: CD38+ population % de cellules Annexin-/IP- Temps (min) • Forte mort cellulaire due à l’ARA-C, dépendante du temps d’exposition (pas de la dose pour ce patient) Annabelle Ballesta

28. Celldynamics: cell cycle analysis Patient #7: CD38+ population, ARA-C 0.5ng/mL J2 J1 J3 Annabelle Ballesta

29. Celldynamics: differenciation Patient #7: CD38+ population, ARA-C 0.5ng/mL Temps (min) Annabelle Ballesta

30. Celldynamics in presence of Flt3 inhibitor AC220 Flt 3 isatyrosine kinase whichisoftenmutated in AML cells, giving a proliferativeadvantage AC220 inhibits Flt3 activty. Annabelle Ballesta

31. Cell dynamics : cell count Patient #8 (53LAM2012), polpulation CD38+/33- Temps (min) Annabelle Ballesta

32. Celldynamics : Annexin/PI Patient #8 (53LAM2012), population CD38+/33- Temps (min) Annabelle Ballesta

33. Celldynamics: cell cycle analysis Patient #8 (53LAM2012), Flt3-, polpulation CD38+/33- Normal conditions AC-220, 1000µM Annabelle Ballesta

34. Conclusions and Perspectives Cytotoxicactivity of ARA-C on AML cells Cytostaticactivity of AC220 on AML cells Next: Mathematically Model ARA-C and AC220 activities. Performoptimizationprocedure to optimizeco-administration. Annabelle Ballesta

35. Thankyou • www.inria.fr

36. M0 M4 M5a M6 M7 M1 M5b M2 M3 AML: FAB Classification Expression des antigènes: CD33, CD13, CD117, CD65, CD14, MPO Annabelle Ballesta

37. Experimentalprotocol Ficoll on bloodsamples to isolate white bloodcells: Annabelle Ballesta

38. Experimentalprotocol Cell sorting by immunomagnetic technique: Antibody against CD 34, CD38 and CD33 Specific antibody Surface antigen Magnetic particule Annabelle Ballesta

39. Introduction rates:  functions Adimy et al., J of Biologicalsystems, 2008 : Annabelle Ballesta