2. Clinical Pharmacogenetics David A Flockhart MD, PhD Chief, Division of Clinical Pharmacology Professor of Medicine, Genetics and Pharmacology Indiana University School of Medicine

3. Pharmacogenetics, 1990

4. Pharmacogenomic Journals, 2007

5. Ethical, legal and policy issues within pharmacogenetics Risk of Loss of Patient Confidentiality –Need for anonymized DNA storage systems Risk that existing patents will stifle progress –Need for careful interpration of Bayh-Dole Untangling the relationship between genetics and self-described ethnicity

6. Role Models for Pharmacogenetics Concorde? Nuclear Power? The Longitude Problem?

7. SNP Variability in The Human Genome December 2007 2.85 billion base pairs ~22,000 genes 1.7% of the genome codes for protein 3.3% of the genome is as conserved as the 1.7% that codes for protein On average 1 SNP/1.2kb 10 - 15 million SNPs that occur at > 1% frequency ~450,000 SNPs in MCS (Multiply Conserved Regions)

8. SNP Variability In Exons ~150,000 SNPs in known exons 48,451 non-synonymous SNPs 1113 introduce a stop codon 104 disrupt an existing STOP

9. Hierarchy of Pharmacogenetic Information from Single Nucleotide Polymorphisms (SNPs)

10. Current Clinical Ability to Predict Response Clinical Value of a Pharmacogenetic Test Pharmacogenetic Principle 1: Value Decreases when Current Predictive Ability is High Meyer UA and Flockhart DA, 2005 Azathioprine/TPMT β-blockade/β Receptor Cancer Chemotherapy Antidepressants/5HTR

11. Methods in Pharmacogenetics SNP discovery: –Candidate gene approach –Pathway approach –Genome Wide Arrays Identification of gene and variants Development of a genetic test for DNA variants Correlation between genotype and phenotype Validation Application in Clinical Practice

12. Polymorphic Distribution Antimode

13. The Value of Normit Distribution Plots: Population Distribution of CYP2C19 phenotype Flockhart et al: Clin Pharmacol Ther 1995;57:662-669

14. Skewed Distribution

15. Example 1 of a Skewed Distribution: Heterogeneity in response to Inhaled Corticosteroids Weiss ST et al. Hum Molec Genetics 2004; 13:1353-1359

16. Using the extremes of a phenotypic distribution as a strategy to identify pharmacogenetic predictors Example: Iressa™ and the EGF receptor

17. Lessons Germline genetic variation matters, but so do somatic mutations in tumors Extremes of phenotype are often viewed as “discardable data”, but outliers should be viewed as important research stimuli

18. Genetics and Drug Absorption

19. Enterocyte GI Lumen ATP ADP P-gp Transport Passive Diffusion Digoxin Transport across the GI lumen 

20. Fig. 3. Correlation of the exon 26 SNP with MDR-1 expression. The MDR- phenotype (expression and activity) of 21 volunteers and patients was determined by Western blot analyses. The box plot shows the distribution of MDR-1 expression clustered according to the MDR-1 genotype at the relevant exon 26 SNP. The genotype-phenotype correlation has a significance of P = 0.056 (n = 21). P-Glycoprotein Pharmacogenetics : Effect of a “wobble” (no coding change) SNP in exon 26 Eichelbaum et al. Proc Nat Acad Sci March, 2000.

21. Eichelbaum et al, Proc Nat Acad Sci, 2000:March 0.25 mg of digoxin po at steady state

22. Brain Blood ATP ADP P-gp Transport Passive Diffusion Digoxin Transport across the Blood-Brain Barrier 

23. Genetics and Drug Elimination

24. Cytochrome P450 2D6 Absent in 7% of Caucasians Hyperactive in up to 30% of East Africans Catalyzes primary metabolism of: propafenone codeine  -blockers tricyclic antidepressants Inhibited by: fluoxetine haloperidol paroxetine quinidine

25. CYP2D6 Pharmacogenetics

26. New CYP2D6 variants continue to appear…. From: Zanger et al: Clin Pharmacol Ther. 2004 Aug;76(2):128-38.

27. CYP2D6 Alleles 67 as of December, 2007 24 alleles have no activity 6 have decreased activity *1, *2, *4 and many others have copy number polymorphisms The *2 variant can have 1,2,3,4,5 or 13 copies i.e increased activity

28. Oligonucleotide array for cytochrome P450 genotesting From: Flockhart DA and Webb DJ. Lancet End of Year Review for Clinical Pharmacology, 1998.

29. From: Dalen P, et al. Clin Pharmacol Ther 63:444-452, 1998.

30. Paroxetine and CYP2D6 genotype change the plasma concentrations of endoxifen Stearns, Flockhart et al. J Natl Cancer Inst. 2003;95(23):1758-64.

31. Inhibition of CYP2D6 Affects Endoxifen Concentrations Jin Y et al: J Natl Cancer Inst 97:30, 2005 Wt/Wt, no inhibitor VenlafaxineSertralineParoxetine*4/*4, no inhibitor Plasma Endoxifen (nM)

32. Relapse-free Survival % % Years after randomization P=0.009 (vs. 0.02 genotype only) EM IM PM 2 year RFS: EM 98% IM 92% PM: 68% 10 year NNT = 3

33. Lessons from CYP Pharmacogenetics Multiple genetic tests of one gene may be needed to accurately predict phenotype Gene duplication in the germline exists The environment in the form of Drug Interactions can mimick a genetic change

34. Vitamin K Carboxylase and CYP2C9 Genotypes altered Warfarin Dose Rieder et al. N. Eng J. Med 2005;352: 2285- 2293

35. Genetic alterations in Phase 2 enzymes with clinical consequences UGT1A1 NAT-2 SULT1A1 COMT TPMT

36. UGT1A1 TA repeat genotype alters irinotecan neutropenia/activity 35.7 16.3 8.6 0 5 10 15 20 25 30 35 40 45 50 6/66/77/7 P=0.007 UGT1A1 genotype % grade 4/5 neutropenia N=524 41.9 33.8 14.3 0 5 10 15 20 25 30 35 40 45 6/66/77/7 UGT1A1 genotype Objective response (%) P=0.045 McLeod H. et al, 2003.

37. N-Acetylation Polymorphism NAT-2 Late 1940’s : Peripheral Neuropathy noted in patients treated for tuberculosis. 1959 : Genetic factors influencing isoniazid blood levels in humans. Trans Conf Chemother Tuberc 1959: 8, 52–56.

38. NAT-2 substrates (All have been used as probes) Caffeine Dapsone Hydralazine Isoniazid Procainamide

39. Incidence of the Slow Acetylator NAT-2 phenotype 50% among Caucasians 50% among Africans 20% among Egyptians 15% among Chinese 10% among Japanese

40. Onset of Positive ANA Syndrome with Procainamide. Woosley RL, et al. N Engl J Med 298:1157-1159, 1978.

41. Thiopurine Methyl Transferase Homozygous mutants are 0.2% of Caucasian Populations Heterozygotes are ~ 10% Homozygous wild type is 90% –Metabolism of Azathioprine –6-Mercaptopurine

42. Thiopurine Methyl Transferase Deficiency From: Weinshilboum et al. JPET;222:174-81. 1982

43. Effect of TPMT genotype on duration of Azathioprine therapy. From: Macleod et al: Ann Int Med 1998;

44. Examples of Human Receptors shown to be genetically polymorphic with possible alterations in clinical phenotype G-proteins Angiotensin II receptor and angiotensinogen Angiotensin converting enzyme  2 receptor Dopamine D 4 receptor Endothelial NO synthase 5HT 4 receptor

45. SerArg SerGly Arg Gly Ser Arg SerArg Ser Gly SerArg Gly Arg SerArg Gly SerArg Gly SerGly Arg SerGly Ser Gly SerGly Arg Gly Arg GlyArg HaplotypesDiplotypes Ying-Hong Wang PhD, Indiana University School of Medicine Gly 2SNPs: 10 possible hapoltypes

46. Observed  1 AR Haplotypes in Caucasians and African American Women (WISE study) Terra et al. Clin. Pharmacol. Ther. 71:70 (2002)

47. Ser Arg SerArg Ser Gly SerArg Gly Arg SerArg Gly Arg SerGly SerArg Gly SerGly Ser Gly SerGly Arg Gly Arg GlyArg HaplotypesDiplotypes SR/SRSR/SGSR/GR SG/GR SerArg SerGly Arg Gly Ying-Hong Wang PhD, Indiana University School of Medicine Of 10 theoretical diplotypes, only 4 were present in the study population

48. Johnson et al. Clin Pharmacol & Ther. 2003,74:44-52. Diplotype predicts Beta-blocker effect

49. Lesson: Diplotype may be a better predictor of effect than Genotype A SNP that tags a Haplotype (tagSNP) may be an economical means of screening

50. Lanfear DE et al. JAMA September 28 th, 2005;294:1526- 1533. β 2 receptor Gln27Glu (79CG) genotype predicts mortality during β -blockade after MI.

51. Non-synonymous coding region polymorphisms in long QT disease genes SCN5A I Na I Ks I Kr KvLQT1 minK HERG MiRP1 K897T (10%) T8A (1.5%) D85N (1.5%) S38G (38%) H558R (24%) Vanderbilt R34C (4%) P1090L (4%) G643S (9%) Japan only P448R (20%[?]) Dan Roden MD, October 2003.

52. A Genetic Effect on Hydrochlorothiazide Efficacy

53. Hierarchy of Pharmacogenetic Information from Single Nucleotide Polymorphisms (SNPs)

55. Current Methods for genetic testing By phenotype: metabolic probe drug or Western blot or Immunohistochemistry By PCR with mutation-specific endonuclease By PCR and allele-specific hybrization By oligonucleotide chip hybridization By laser lithography - guided oligonucleotide chip hybridization. By rapid throughput pyrosequencing Taqman probe screening By rapid and high throughput full sequencing

57. Medication History: AVOID Mistakes Allergies? : Is there any medicine that we should not give you for any reason? Vitamins and Herbs? Old drugs? …..as well as current Interactions? Dependence? Mendel: Family Hx of benefits or problems with any drugs?

58. Pharmacogenetics Websites www.pharmgkb.org The SNP consortium: http://brie2.cshl.org The Human Genome: www.ncbi.nlm.nih.gov/genome/guide/H_sapiens.html CYP alleles: www.imm.ki.se/CYPalleles/ Drug Interactions: www.drug-interactions.com