1. RTKs and rational cancer therapy Dr Andrejs Liepins/Science Photo Library

2. Are we making progress?

3. In looking at “5-year” survival, we need to remember we are are making a LOT of progress in cancer detection for some cancers

4. And we need to remember detection when it comes to “survival rates”

5. How does current chemotherapy work?

6. KILL dividing cells!

8. Chemotherapy Kills all dividing cells Amanda Dugger 2007 ACS Hero of Hpe

9. There has to be a better way! Amanda Dugger 2007 ACS Hero of Hpe

10. Bishop and Varmus Let’s go Back to the 1970s

11. Retroviruses can cause cancer by picking up mutated versions of normal cellular genes Alberts et al. Fig. 24-23

12. Many viral oncogenes are kinases, including RTKs Alberts et al.

13. Different families of RTKs recognize a diverse set of different ligands Alberts et al. Fig. 15-47

14. And that was just a few of the RTK families doi:10.1016/j.cell.2010.06.011

15. Valberga, Anals. Oncogene 07 Adding complexity, In mammals many RTKs and ligands Are encoded by Multi-gene families The EGF receptor family

16. Ligand binding activates RTKs by dimerization Lodish et al. Fig. 20-21

17. RTK signaling ultimately leads to activation of a transcription factor Gilbert Fig. 6.14

18. Most ligands that induce receptor dimerization act as dimers Alberts et al. Fig. 15-48

19. EGF and TGF-alpha induce receptor dimerization by an unusual mechanism Garrett et al., Ogiso et al., Cell 2002, 110: 763, 775

20. “Neuroblastoma is one of the most common solid tumours of early childhood usually found in babies or young children. The disease originates in the adrenal medulla or other sites of sympathetic nervous tissue. The most common site is the abdomen (near the adrenal gland). Most patients have widespread disease at diagnosis.” http://www.cancerindex.org Neu = HER2 was first found in a Neuroblastoma cell line

21. “Neuroblastoma is one of the most common solid tumours of early childhood usually found in babies or young children. The disease originates in the adrenal medulla or other sites of sympathetic nervous tissue. The most common site is the abdomen (near the adrenal gland). Most patients have widespread disease at diagnosis.” http://www.cancerindex.org While HER2 is overexpressed in some neuroblastomas, it is not commonly mutated there

22. However, it did provide the earliest example of a mutated RTK in a tumor

23. It also allowed Cori Bargmann to make a bold prediction

24. "I prefer the clustering model- a series of receptors on the membrane.... all have to bind with growth factor more or less simultaneously.... Only after they are clustered are they able to send along the signal... The insertion of a glutamic acid into the transmembrane domain could trick the neu protein into believing it was surrounded by other neu receptors even when it stood alone"

25. "I prefer the clustering model- a series of receptors on the membrane.... all have to bind with growth factor more or less simultaneously.... Only after they are clustered are they able to send along the signal... The insertion of a glutamic acid into the transmembrane domain could trick the neu protein into believing it was surrounded by other neu receptors even when it stood alone" She was right!

26. Activating mutations in RTKs take several forms but all lead to ligand-independent dimerization and thus activation Lodish et al. Fig. 24-16

27. A chimeric oncogenic version of the trk RTK was isolated from a human colon carcinoma Here’s a cool example Lodish et al. Fig. 24-16

28. A chimeric oncogenic version of the trk RTK was isolated from a human colon carcinoma Tropomyosin dimerization dimerizes the receptor even in the absence of ligand Lodish et al. Fig. 24-16

29. However, mutational activation of RTKs in human tumors is rare

30. So why are you telling us all this?

31. Gene amplification is also a common mechanism of inappropriate gene activation in human tumors Double minute chromosomesTandem duplications Alberts et al. Fig. 24-20

32. Kim et al, JKMS 08 HER2 amplified HER2 normal HER2 is Amplified in 30% of Breast Cancer Cases

33. This and other RTKs are amplified in other cancers Met amplified in drug resistance lung cancers EGFR amplified in some glioblastomas and lung cancers HER2 amplified in some bladder cancers Kit amplified in some gastrointestinal stromal tumors

34. They are enzymes-- what should we do?

35. An example of an inhibitor (in red and green) designed to block the active site of the insulin receptor tyrosine kinase (in gray)

36. Iressa, an EGFR inhibitor Illustrates the ups And downs Of this form of therapy aka Gefitinib

37. Iressa was approved after Phase II trials for “third line” treatment of non-small cell lung cancer Curr Treat Options Oncol. 2005 6:75-81www.iressa-us.com

38. Iressa was approved after Phase II trials for “third line” treatment of non-small cell lung cancer Curr Treat Options Oncol. 2005 6:75-81 But Phase III clinical trial data From December 2004 raised serious questions about whether it prolongs life. www.iressa-us.com

39. Data suggested that Iressa benefits a small subset of patients Including “never-smokers” and Patients of Asian descent Curr Treat Options Oncol. 2007 Feb;8(1):28-37

40. Data suggested that Iressa benefits a small subset of patients Including “never-smokers” and Patients of Asian descent Curr Treat Options Oncol. 2007 Feb;8(1):28-37 Why those patients?

41. It only works on patients with activating mutations in the kinase domain of the EGF receptor

42. It has been partially replaced by Erlotinib (Tarceva), another EGFR inhibitor approved for “second line” treatment of non-small cell lung cancer

43. Erlotinib (Tarceva) works, but how well? Median Survival: 6.7 months vs. 4.7 months in placebo control

44. Four second generation EGFR inhibitors are now entering clinical trials EKB-569, HKI-272, CI-1033, and ZD6474 The Oncologist, Vol. 12, No. 3, 325-330, March 2007 Covalently bind EGFR Target multiple kinases including HER2 and VEGFR

45. Even when kinase inhibitors work well initially....

46. Relapses often occur

47. How could that happen?

48. Have you heard The one about Natural selection?

49. Second site mutations in kinase block drug binding Or other RTKs (e.g., c-Met) are gene amplified

50. Luckily drugs are not the only approach

51. Herceptin-- The corporate view

52. Genentech.com

53. Antibodies have been crafted by natural selection to allow recognition of diverse antigens from bacterial, viral, and parasitic invaders Alberts et al. Fig. 23-31

54. The 3-dimensional structure of an antibody Alberts et al. Fig. 23-34

55. The antibody-antigen recognition event is exquisitely specific Yellow and blue= heavy and light chains Green=antigen (in this case would be EGF Receptor) Red= amino acids in contact Alberts et al. Fig. 23-35

56. Genentech.com Data from Phase III clinical trials of Herceptin

57. Genentech.com Data from Phase III clinical trials of Herceptin

58. Herceptin is now approved for treatment of Metastatic breast cancer

59. However, even more exciting is data on using Herceptin plus chemotherapy for treatment of early breast cancer Breast cancer was half as likely to come back in patients who received Herceptin® for a year after completing chemotherapy than in patients who received chemotherapy alone! New England Journal of Medicine, October 20, 2005

60. However, even more exciting is data on using Herceptin plus chemotherapy for treatment of early breast cancer FDA News Nov. 16, 2006 The FDA rapidly approved expansion of recommended use

61. By early 2009 follow-up data and additional trials Confirm a 50% reduction in recurrance And 30% improvement in survival Clin Breast Cancer. 2008 Dec;8 Suppl 4:S157-65.

62. But like a freight train, it can run you over.... Cardiac toxicity in a few percent of patients Costs $60,000

63. Two anti-EGFR and one anti VEGFR antibodies are also FDA approved

64. And back to the pathway…. Gilbert Fig. 6.14 BAY 43-9006 (Phase II) C-1040 Phase II failure Others in Phase I Farnesyl transferase inhibitors Phase II successes and failures