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School of Pharmacy

expertise: Drug Metabolism

(cytochrome P450 enzymes)

Jessica Beers

Education:

  • Postdoctoral Fellowship, University of Washington School of Pharmacy
  • Doctor of Philosophy (PhD) in Pharmaceutical Sciences, University of North Carolina at Chapel Hill
  • Doctor of Pharmacy (PharmD), Lipscomb University College of Pharmacy

Biography:
Dr. Beers is an assistant professor in the Department of Pharmacy at the University of Washington. Dr. Beers is passionate about drug safety in understudied populations, and her past research has focused on precision medicine, drug-induced liver injury, and using in vitro systems to predict drug metabolism and toxicity. Dr. Beers’ current work combines basic and translational research to investigate drug metabolism and disposition in pregnancy and lactation.

Publications: NIH

Jingjing Yu

Education

  • PhD Degree in Biology,Rensselaer Polytechnic Institute
  • MS Degree in Biology,Rensselaer Polytechnic Institute
  • MS Degree in Psychology,Peking University
  • MD in Preventive Medicine,Peking University

Research Interests

  • Drug disposition and mechanism of PK-based drug interaction
  • Drug-Drug interaction assessment and safety evaluation during drug development
  • Translational research in drug interaction risk prediction, clinical relevance evaluation, and risk management
  • Natural product-Drug interaction evaluation framework

Biography

Dr. Yu received her MD degree in Preventive Medicine and MS degree in Psychology from Peking University (Beijing, China). She obtained her MS degree (2005) and PhD degree in Biology (2007) from Rensselaer Polytechnic Institute (Troy, NY) and then continued her post-doctoral training at Cerep (now Eurofins) followed by UW Medicine. In 2013, Dr. Yu joined UW Drug Interaction Solutions as a Research Scientist and Project Manager. Her role and responsibility have increasingly expanded to manage and supervise the Drug Interaction Database content curation process and the database subscription. In 2019, she was promoted to Associate Director of the program. In July 2020, Dr. Yu joined the faculty of the Department of Pharmaceutics as a Clinical Associate Professor. Dr. Yu’s main research interests relate to drug-drug interaction assessment and safety evaluation of drugs and natural products, especially in drug interaction risk prediction, clinical relevance evaluation, and management.

Selected Publications

https://pubmed.ncbi.nlm.nih.gov/?term=(Yu,+Jingjing%5BAuthor+-+Full%5D)+AND+University+of+Washington%5BAffiliation%5D

 

Catherine Yeung

Education

  • PharmD (University of Michigan)
  • PhD, Medicinal Chemistry (University of Washington)
  • MPH, Epidemiology (University of Washington)

Research Interests

  • Optimizing medication use in patients with Chronic Kidney Disease
  • Microfluidic models of kidney function in health and disease
  • Effects of uremia on drug transport and pharmacokinetics
  • Effects of microgravity on kidney structure and function

Courses Taught

  • PHARM 560
  • PHARM 579
  • PHARM 301
  • PCEUT 586
  • PCEUT 506
  • PHARBE 522

Biography

Dr. Yeung’s research includes both basic science and translational studies, and spans from the determination of molecular mechanisms of altered drug metabolism using 3-dimensional cell culture techniques to the evaluation of the effect of drugs and nutritional supplements on health outcomes in patients receiving hemodialysis. She is a key investigator in the development of a “kidney on a chip” microphysiological system that can be used in preclinical drug development.

Selected Publications

  • Kidneys on Chips: Emerging Technology for Preclinical Drug Development (PMID: 30274990)
  • Human liver-kidney model elucidates the mechanisms of aristolochic acid nephrotoxicity (PMID: 29202460)
  • Does Secretory Clearance Follow Glomerular Filtration Rate in Chronic Kidney Diseases? Reconsidering the Intact Nephron Hypothesis (PMID: 28675584)
  • Effects of chronic kidney disease and uremia on hepatic drug metabolism and transport (PMID: 24132209)
  • Development of a microphysiological model of human kidney proximal tubule function (PMID: 27521113)

Libin Xu

Accepting Students to Lab: Yes

Education

  • Postdoctoral training, Vanderbilt University
  • Ph.D. in Organic Chemistry, University of Illinois at Chicago
  • B.Sc. in Chemistry, Nankai University

Courses Taught

  • MEDCH/PCEUT 327
  • MEDCH 562
  • MEDCH 529
  • MEDCH 541
  • MEDCH 582
  • MEDCH 500

Research Interests

  • Mechanisms and products of lipid oxidation
  • Cholesterol biosynthesis disorders, in particular, Smith-Lemli-Opitz syndrome
  • Effect of drugs on lipid metabolism
  • Metabolomics and Lipidomics using ion mobility-mass spectrometry
  • Lipid metabolism in neurodevelopment
  • Mechanisms of antibiotic resistance

Biography

Dr. Xu was trained as an organic chemist early in his career, but during his postdoctoral training at Vanderbilt University, his research expanded to chemistry and biology of lipid peroxidation underlying human diseases, as well as mass spectrometry-based lipidomics.

The Xu lab is interested in the consequences of unusual lipid metabolism and oxidation processes on the nervous system, which could result from genetic mutations or small molecule interference. The lab aims to develop interventions that could ameliorate or reverse the adverse effects of the disrupted lipid homeostasis and oxidized lipids. The Xu lab is also interested in elucidating the contribution of altered lipid metabolism to antibiotic resistance in bacterial pathogens using mass spectrometry and molecular biology methodologies, aiming to develop strategies to re-sensitize the resistant bacteria. On the analytical chemistry side, the Xu Lab develops novel methodologies for the analysis of lipids, metabolites, drugs, and drug metabolites using ion mobility-mass spectrometry to meet the needs of our biological problems.

Dr. Xu is the recipient of the NIH Pathway to Independence Award from NICHD in 2012 and the Young Investigator Award from the Society for Free Radical Biology and Medicine in 2011. He is also the inaugural recipient, together with Prof. Brian Werth, of the School of Pharmacy Faculty Innovation Fund in 2016. He received this award again, with Dr. Edward Kelly, in 2020.

Recent Publications

Examining the Nephrotoxicity Induced by Benzalkonium Chlorides in 2D and 3D-Cultured Human Proximal Tubule Epithelial Cells Brzoska M, Seguin RP, Yang J, Kelly E, Xu L. J Pharmacol Exp Ther. 2025 Mar, Volume 392, Issue 3, DOI: 10.1016/j.jpet.2024.101674

Respective Roles of CYP4F2 and CYP2D6 in the Formation of Even- and Odd-Carbon Carboxylic Acid Metabolites of Benzalkonium Chloride in Human Hepatocytes  Zhu L, Seguin RP, Xu L. J Pharmacol Exp Ther. 2025 Mar, Volume 392, Issue 3, DOI: 10.1016/j.jpet.2024.101708

Interaction of Benzalkonium Chlorides with CYP168A1 of Pseudomonas aeruginosa Seguin RP, Kandel SE, Lampe JN, Xu L. J Pharmacol Exp Ther. 2025 Mar, Volume 392, Issue 3, DOI: 10.1016/j.jpet.2025.103508

A Multidimensional Database for Biomonitoring of Quaternary Ammonium Compounds and Their Phase I Metabolites in Human Feces Nguyen R, Liu X, Liem L, Lin YS, Xu L. J Pharmacol Exp Ther. 2025 Mar, Volume 392, Issue 3, DOI: 10.1016/j.jpet.2024.101672

PubChemLite Plus Collision Cross Section (CCS) Values for Enhanced Interpretation of Nontarget Environmental Data. Elapavalore A, Ross DH, Grouès V, Aurich D, Krinsky AM, Kim S, Thiessen PA, Zhang J, Dodds JN, Baker ES, Bolton EE, Xu L, Schymanski EL. Environ Sci Technol Lett. 2025 Jan 24;12(2):166-174.

Simulated exposures of oritavancin in in vitro pharmacodynamic models select for methicillin-resistant Staphylococcus aureus with reduced susceptibility to oritavancin but minimal cross-resistance or seesaw effect with other antimicrobials. Werth BJ, Zhang R, Barreras Beltran IA, Penewit K, Waalkes A, Holmes EA, Salipante SJ, Xu L. J Antimicrob Chemother. 2025 Feb 12:dkaf042.

Growth of Staphylococcus aureus in the presence of oleic acid shifts the glycolipid fatty acid profile and increases resistance to antimicrobial peptides. Raskovic D, Alvarado G, Hines KM, Xu L, Gatto C, Wilkinson BJ, Pokorny A. Biochim Biophys Acta Biomembr. 2025 Jan;1867(1):184395.

Empirically establishing drug exposure records directly from untargeted metabolomics data. Zhao HN, Kvitne KE, … Xu L, Knight R, Tsunoda SM, Dorrestein PC. bioRxiv [Preprint]. 2024 Oct 26:2024.10.07.617109.

Molecular basis of cell membrane adaptation in daptomycin-resistant Enterococcus faecalis. Nguyen AH, Tran TT, Panesso D, Hood KS, Polamraju V, Zhang R, Khan A, Miller WR, Mileykovskaya E, Shamoo Y, Xu L, Vitrac H, Arias CA. JCI Insight. 2024 Nov 22;9(22):e173836.

Oral exposure to benzalkonium chlorides in male and female mice reveals alteration of the gut microbiome and bile acid profile. Lopez VA, Lim JJ, Seguin RP, Dempsey JL, Kunzman G, Cui JY, Xu L. Toxicol Sci. 2024 Dec 1;202(2):265-277.

Acetyl-CoA carboxylase inhibition increases retinal pigment epithelial cell fatty acid flux and restricts apolipoprotein efflux. Hass DT, Pandey K, Engel A, Horton N, Haydinger CD, Robbings BM, Lim RR, Sadilek M, Zhang Q, Gulette GA, Li A, Xu L, Miller JML, Chao JR, Hurley JB. J Biol Chem. 2024 Oct;300(10):107772.

Several common methods of making vesicles (except an emulsion method) capture intended lipid ratios. Weakly HMJ, Wilson KJ, Goetz GJ, Pruitt EL, Li A, Xu L, Keller SL. Biophys J. 2024 Oct 1;123(19):3452-3462.

Erratum: How do different lipid peroxidation mechanisms contribute to ferroptosis? Do Q, Xu L. Cell Rep Phys Sci. 2024 May 15;5(5):101932.

Membrane Lipids Augment Cell Envelope Stress Signaling via the MadRS System to Defend Against Antimicrobial Peptides and Antibiotics in Enterococcus faecalis. Miller WR, Nguyen A, Singh KV, Rizvi S, Khan A, Erickson SG, Egge SL, Cruz M, Dinh AQ, Diaz L, Thornton PC, Zhang R, Xu L, Garsin DA, Shamoo Y, Arias CA. J Infect Dis. 2024 Apr 5:jiae173.

Development and Application of a Multidimensional Database for the Detection of Quaternary Ammonium Compounds and Their Phase I Hepatic Metabolites in Humans. Nguyen R, Seguin RP, Ross DH, Chen P, Richardson S, Liem J, Lin YS, Xu L. Environ Sci Technol. 2024 Apr 9;58(14):6236-6249.

How do different lipid peroxidation mechanisms contribute to ferroptosis? Do Q, Xu L. Cell Rep Phys Sci. 2023 Dec 20;4(12):101683.

Interaction and Transport of Benzalkonium Chlorides by the Organic Cation and Multidrug and Toxin Extrusion Transporters. Vieira LS, Seguin RP, Xu L, Wang J. Drug Metab Dispos. 2024 Mar 13;52(4):312-321.

Cholic acid increases plasma cholesterol in Smith-Lemli-Opitz syndrome: A pilot study. Elias ER, Orth LE, Li A, Xu L, Jones SM, Rizzo WB. Mol Genet Metab Rep. 2023 Nov 28;38:101030.

Temporal gene expression changes and affected pathways in neurodevelopment of a mouse model of Smith-Lemli-Opitz syndrome. Li A, Tomita H, Xu L. bioRxiv. 2023 Nov 21:2023.11.21.568116.

Elucidating the impact of bacterial lipases, human serum albumin, and FASII inhibition on the utilization of exogenous fatty acids by Staphylococcus aureus. Pruitt EL, Zhang R, Ross DH, Ashford NK, Chen X, Alonzo F 3rd, Bush MF, Werth BJ, Xu L. mSphere. 2023 Dec 20;8(6):e0036823.

High-throughput analysis of lipidomic phenotypes of methicillin-resistant Staphylococcus aureus by coupling in situ 96-well cultivation and HILIC-ion mobility-mass spectrometry. Zhang R, Ashford NK, Li A, Ross DH, Werth BJ, Xu L. Anal Bioanal Chem. 2023 Oct;415(25):6191-6199.

Tracking the Metabolic Fate of Exogenous Arachidonic Acid in Ferroptosis Using Dual-Isotope Labeling Lipidomics Reimers N, Do Q, Zhang R, Guo A, Ostrander R, Shoji A, Vuong C, Xu L bioRxiv 2023.05.28.542640;

Quaternary Ammonium Compounds: A Chemical Class of Emerging Concern. Arnold WA, Blum A, Branyan J, Bruton TA, Carignan CC, Cortopassi G, Datta S, DeWitt J, Doherty AC, Halden RU, Harari H, Hartmann EM, Hrubec TC, Iyer S, Kwiatkowski CF, LaPier J, Li D, Li L, Muñiz Ortiz JG, Salamova A, Schettler T, Seguin RP, Soehl A, Sutton R, Xu L, Zheng G. Environ Sci Technol. 2023 May 23;57(20):7645-7665.

Differential Contributions of Distinct Free Radical Peroxidation Mechanisms to the Induction of Ferroptosis. Do Q, Zhang R, Hooper G, Xu L. JACS Au. 2023 Mar 4;3(4):1100-1117.

7-Dehydrocholesterol-derived oxysterols cause neurogenic defects in Smith-Lemli-Opitz syndrome. Tomita H, Hines KM, Herron JM, Li A, Baggett DW, Xu L. Elife. 2022 Sep 16;11:e67141.

High-Throughput Measurement and Machine Learning-Based Prediction of Collision Cross Sections for Drugs and Drug Metabolites. Ross DH, Seguin RP, Krinsky AM, Xu L. J Am Soc Mass Spectrom. 2022 Jun 1;33(6):1061-1072.

Emergence of dalbavancin, vancomycin, and daptomycin non-susceptible Staphylococcus aureus in a patient treated with dalbavancin: Case report and isolate characterization. Zhang R, Polenakovik H, Barreras Beltran IA, Waalkes A, Salipante SJ, Xu L, Werth BJ. Clin Infect Dis. 2022 May 1:ciac341.

CNPY4 inhibits the Hedgehog pathway by modulating membrane sterol lipids. Lo M, Sharir A, Paul MD, Torosyan H, Agnew C, Li A, Neben C, Marangoni P, Xu L, Raleigh DR, Jura N, Klein OD. Nat Commun. 2022 May 3;13(1):2407.

Evolution of Enterococcus faecium in Response to a Combination of Daptomycin and Fosfomycin Reveals Distinct and Diverse Adaptive Strategies. Supandy A, Mehta HH, Tran TT, Miller WR, Zhang R, Xu L, Arias CA, Shamoo Y. Antimicrob Agents Chemother. 2022 Jun 21;66(6):e0233321.

Temporal changes in the brain lipidome during neurodevelopment of Smith-Lemli-Opitz syndrome mice. Li A, Hines KM, Ross DH, MacDonald JW, Xu L. Analyst. 2022 Apr 11;147(8):1611-1621.

Discovery of coordinately regulated pathways that provide innate protection against interbacterial antagonism. Ting SY, LaCourse KD, Ledvina HE, Zhang R, Radey MC, Kulasekara HD, Somavanshi R, Bertolli SK, Gallagher LA, Kim J, Penewit KM, Salipante SJ, Xu L, Peterson SB, Mougous JD. Elife. 2022 Feb 17;11:e74658.

Jashvant Unadkat

Education

  • PhD, University of Manchester
  • B. Pharm, University of London

Research Interests

  • Mechanisms of drug transport and metabolism
  • Maternal-fetal pharmacology

Courses Taught

  • PCEUT 501
  • PCEUT 506
  • PCEUT 532

Biography

Jashvant (Jash) Unadkat, Ph.D. is a Professor of Pharmaceutics at the School of Pharmacy, University of Washington, Seattle. He received his Bachelor degree in Pharmacy (B.Pharm.) from the University of London (1977), his Ph.D. from the University of Manchester (1982) and his postdoctoral training at the University of California at San Francisco (1982-85).

Dr. Unadkat studies the mechanisms of transport and metabolism of drugs, including during pregnancy. Dr. Unadkat has published more than 270 peer-reviewed research papers. He is a fellow of AAAS, AAPS, JSSX, and the founding co-chair (1999-2001) of the focus group of AAPS on Drug Transport and Uptake. Dr. Unadkat received the AAPS Research Achievement Award in 2012, the ISSX Research Achievement Award in 2023 . Dr. Unadkat created and led for 10 years the UW Research Affiliates Program on Transporters (UWRAPT), funded by pharmaceutical companies, and UWPKDAP, a NIDA funded Program Project grant (P01) on drug disposition during pregnancy. He now co-leads the UW Transporter Elucidation Center (https://depts.washington.edu/uwtec/) funded by NICHD to identify and characterize novel transporters in the placenta and the developing intestine.  In 2025, Dr. Unadkat was elected to the Washington State Academy of Sciences and as a President-elect of the International Society for the Study of Xenobiotics (ISSX).  

Selected Publications

(PubMed.gov)

Rheem Totah

Accepting Students to Lab: Yes

Education

  • B.S. (Honors), 1995, Birzeit University, Palestine
  • Masters (Honors), 2000, University of Kansas
  • Ph.D. (Honors), 2002, University of Kansas

Research Interests

  • Prescription drug negative side effects in the heart, skeletal muscle and bone; associated chemical mechanisms for this toxicity
  • Drug-endogenous substrate interactions
  • Pharmacogenetics

Biography

Dr. Totah obtained her bachelor’s degree in chemistry from Birzeit University in Palestine and her master’s and PhD in medicinal chemistry from the University of Kansas. Dr. Totah is currently a professor in the Department of Medicinal Chemistry. Her research is in the area of prescription drug negative side effects especially in the heart, skeletal muscle and bone. She focuses on researching the chemical mechanisms for this toxicity. Her research is important in guiding research towards medicines with fewer side effects and safer use. Research in the Totah lab is broadly centered on drug-endogenous substrate interactions.

Recent Publications

A Rapid and Reliable Absorbance Assay to Identify Drug-Drug Interactions with Thiopurine Drugs. Russell DA, Stafford C, Totah RA. Metabolites. 2024 Dec 19;14(12):715. doi: 10.3390/metabo14120715. PMID: 39728496

Liver CYP4A autophagic-lysosomal degradation (ALD): A major role for the autophagic receptor SQSTM1/p62 through an uncommon target interaction site. He L, Kwon D, Trnka MJ, Liu Y, Yang J, Li K, Totah RA, Johnson EF, Burlingame AL, Correia MA. bioRxiv [Preprint]. 2024 Oct 14:2024.10.14.618315. doi: 10.1101/2024.10.14.618315. PMID: 39464120 Preprint.

A Rapid and Reliable Absorbance Assay to Identify Drug-Drug Interactions with Thiopurine Drugs. Russell DA, Stafford C, Totah RA. Metabolites. 2024 Dec 19;14(12):715.

Editorial: Cytochromes P450, their modulators and metabolites in cardiovascular function and disease. Adebesin AM, Roman RJ, Campbell WB, Seubert JM, Totah RA. Front Pharmacol. 2024 Dec 3;15:1531166.

Liver CYP4A autophagic-lysosomal degradation (ALD): A major role for the autophagic receptor SQSTM1/p62 through an uncommon target interaction site. He L, Kwon D, Trnka MJ, Liu Y, Yang J, Li K, Totah RA, Johnson EF, Burlingame AL, Correia MA. bioRxiv [Preprint]. 2024 Oct 14:2024.10.14.618315.

A Case to Support the Continued Use of Rifampin in Clinical Drug-Drug Interaction Studies. Bercu JP, Ponting DJ, Ripp SL, Dobo KL, Totah RA, Bolleddula J. Clin Pharmacol Ther. 2024 Jul;116(1):34-37.

Investigating the association between CYP2J2 inhibitors and QT prolongation: a literature review. Wiley AM, Yang J, Madhani R, Nath A, Totah RA. Drug Metab Rev. 2024 Mar 20:1-19.

The methyltransferases METTL7A and METTL7B confer resistance to thiol-based histone deacetylase inhibitors. Robey RW, Fitzsimmons CM, Guiblet WM, Frye WJE, González Dalmasy JM, Wang L, Russell DA, Huff LM, Perciaccante AJ, Ali-Rahmani F, Lipsey CC, Wade HM, Mitchell AV, Maligireddy SS, Terrero D, Butcher D, Edmondson EF, Jenkins LM, Nikitina T, Zhurkin VB, Tiwari AK, Piscopio AD, Totah RA, Bates SE, Arda HE, Gottesman MM, Batista PJ. Mol Cancer Ther. 2023 Dec 28.

Cardioprotective mechanisms of cytochrome P450 derived oxylipins from ω-3 and ω-6 PUFAs. Cho C, Aliwarga T, Wiley AM, Totah RA. Adv Pharmacol. 2023;97:201-227.

METTL7A (TMT1A) and METTL7B (TMT1B) are responsible for alkyl S-thiol methyl transferase activity in liver. Russell DA, Chau MK, Shi Y, Levasseur IN, Maldonato BJ, Totah RA. Drug Metab Dispos. 2023 May 3:DMD-AR-2023-001268.

Effects of Pregnancy on Plasma Sphingolipids Using a Metabolomic and Quantitative Analysis Approach. Enthoven LF, Shi Y, Fay E, Kim A, Moreni S, Mao J, Isoherranen N, Totah RA, Hebert MF. Metabolites. 2023 Sep 21;13(9):1026.

CYP2D6 Activity Is Correlated with Changes in Plasma Concentrations of Taurocholic Acid during Pregnancy and Postpartum in CYP2D6 Extensive Metabolizers. Czuba LC, Malhotra K, Enthoven L, Fay EE, Moreni SL, Mao J, Shi Y, Huang W, Totah RA, Isoherranen N, Hebert MF. Drug Metab Dispos. 2023 Nov;51(11):1474-1482.

Cardioprotective mechanisms of cytochrome P450 derived oxylipins from ω-3 and ω-6 PUFAs. Cho C, Aliwarga T, Wiley AM, Totah RA. Adv Pharmacol. 2023;97:201-227.

METTL7A (TMT1A) and METTL7B (TMT1B) Are Responsible for Alkyl S-Thiol Methyl Transferase Activity in Liver. Russell DA, Chau MK, Shi Y, Levasseur IN, Maldonato BJ, Totah RA. Drug Metab Dispos. 2023 Aug;51(8):1024-1034.

Plasma hydrogen sulfide, nitric oxide, and thiocyanate levels are lower during pregnancy compared to postpartum in a cohort of women from the Pacific northwest of the United States. Zeigler MB, Fay EE, Moreni SL, Mao J, Totah RA, Hebert MF. Life Sci. 2023 Jun 1;322:121625.

The Effects of Pregnancy on Amino Acid Levels and Nitrogen Disposition. Enthoven LF, Shi Y, Fay EE, Moreni S, Mao J, Honeyman EM, Smith CK, Whittington D, Brockerhoff SE, Isoherranen N, Totah RA, Hebert MF. Metabolites. 2023 Feb 7;13(2):242.

Cardiac Disease Alters Myocardial Tissue Levels of Epoxyeicosatrienoic Acids and Key Proteins Involved in Their Biosynthesis and Degradation. Aliwarga T, Dinh JC, Heyward S, Prasad B, Gharib SA, Lemaitre RN, Sotoodehnia N, Totah RA. Int J Mol Sci. 2022 Oct 17;23(20):12433.

Selective deuteration of bupropion slows epimerization and reduces metabolism. Shi Y, Dinh J, Pelletier R, Raccor B, Yusuff N, Morgan AJ, Harbeson S, Uttamsingh V, Totah RA. Bioorg Med Chem Lett. 2022 Nov 15;76:129009.

Plasma epoxyeicosatrienoic acids and diabetes-related cardiovascular disease: The cardiovascular health study. Lemaitre RN, Jensen PN, Zeigler M, Fretts AM, Umans JG, Howard BV, Sitlani CM, McKnight B, Gharib SA, King IB, Siscovick DS, Psaty BM, Sotoodehnia N, Totah RA. EBioMedicine. 2022 Sep;83:104189.

Reductions in Hydrogen Sulfide and Changes in Mitochondrial Quality Control Proteins Are Evident in the Early Phases of the Corneally Kindled Mouse Model of Epilepsy. Cho C, Zeigler M, Mizuno S, Morrison RS, Totah RA, Barker-Haliski M. Int J Mol Sci. 2022 Jan 27;23(3):1434.

Future of Biotransformation Science in the Pharmaceutical Industry. Kramlinger VM, Dalvie D, Heck CJS, Kalgutkar AS, O’Neill J, Su D, Teitelbaum AM, Totah RA. Drug Metab Dispos. 2022 Mar;50(3):258-267.

Full PubMed Listing

Kenneth Thummel

Education

  • B.S., Chemistry
  • Ph.D., Pharmaceutical Sciences

Research Interests

  • Drug metabolism kinetics
  • Intestinal first-pass metabolism
  • Mechanisms of inter-individual variability in metabolic drug clearance and drug response
  • Pharmacogenetics
  • Fat soluble vitamins and regulation of DMETs

Courses Taught

  • PCEUT 502
  • PCEUT 506
  • PCEUT 510
  • PCEUT 513
  • PCEUT 534
  • PCEUT 583
  • PCEUT 586
  • MEDCH 527

Biography

Kenneth Thummel received his Ph.D. in Pharmaceutical Science from the University of Washington in 1987 and completed a post-doctoral fellowship in Pharmacology at the University of Connecticut Health Science Center. In 1989, he was appointed to the University of Washington School of Pharmacy faculty, promoted to the rank of Professor in 2001 and was Chairman of the Department of Pharmaceutics between 2006 – 2019. He currently holds the title of Professor of Pharmaceutics and is an Adjunct Professor in the UW Department of Environmental and Occupational Health Sciences. Dr. Thummel’s research interests include the elucidation of genetic, hormonal and environmental factors that contribute to interindividual differences in xenobiotic biotransformation, in particular, intestinal cytochrome P450 3A-mediated first-pass drug metabolism, as well as gene x diet modifiers of drug response in Alaska Native and American Indian people. Dr. Thummel is a Fellow of the American Association for the Advancement of Science and the American Association of Pharmaceutical Scientists, and the recipient of the Rawls-Palmer Progress in Medicine Award from ASCPT. He is a Past-President of the American Society for Pharmacology and Experimental Therapeutics.

Selected Publications

https://www.ncbi.nlm.nih.gov/pubmed/?term=Thummel+K

Danny Shen

Accepting Student to Lab: No

Education

  • PhD in Pharmaceutics, State University of New York at Buffalo
  • BA in Chemistry and Biology, Luther College

Research Interests

  • Opioid pharmacokinetics & pharmacodynamics
  • Pharmacokinetic modeling & simulations
  • Pharmacokinetics of herb-drug interactions

Courses Taught

  • PCEUT 505 Concepts in Pharmaceutical Sciences I
  • PCEUT 503 Drug Transport & Delivery
  • PCEUT 531 Pharmaceutical Formulation: Principles and Dosage Forms

Biography

Dr. Shen received his doctoral degree in pharmaceutics from the State University of New York at Buffalo in 1975. He is currently Professor Emeritus of Pharmaceutics at the University of Washington. He was Chair of the Department of Pharmacy from 1999 to 2011. He also held a Member appointment in the Clinical Research Division at the Fred Hutchinson Cancer Research Center from 1973 to 2016. Prior to his joining the faculty at the University of Washington in 1984, he held faculty appointments at the University of Kansas Medical Center (1975-1979) and State University of New York at Buffalo (1979-1984). Dr. Shen is a Fellow of the AAPS, and is 2010 President of the Association. He is also a Past-Chair of the Pharmaceutical Sciences Section and a Fellow of the American Association for the Advancement of Science (AAAS). Dr. Shen is a member of the editorial advisory board for AAPS Journal, Pharmaceutical Research, and Journal of Pharmaceutical Sciences. He has served as advisor or consultant to NIH, FDA and pharmaceutical industry. Dr.

Shen has a broad range of research interests involving first-pass drug metabolism, drug transport in the central nervous system, pharmacokinetics/pharmacodynamics of opioid analgesics, and pharmacokinetics of herb-drug interactions. He has published over 200 journal articles, reviews and book chapters.

Selected Publications

https://www.ncbi.nlm.nih.gov/myncbi/1PAALeBQPgL/bibliography/public/

Isabelle Ragueneau-Majlessi

Education

  • MD, University of Paris VI
  • Master in Biomedical Regulatory Affairs, University of Washington

Research interests

  • Mechanisms of PK-based drug interactions
  • Regulatory framework of drug interactions assessment
  • Clinical relevance and risk management of drug interactions

Biography

Dr. Ragueneau is co-author of the DIDB and e-PKGene applications (https://www.druginteractionsolutions.org/) and Director of UW Drug Interaction Solutions. She received her medical degree from St Antoine University in Paris, France, and specialized in Clinical Pharmacology. Prior to moving to the US, Dr. Ragueneau designed and supervised clinical studies in the private sector and in academia for over 6 years. She started working at the University of Washington in 1999, as a Research Associate, then Principal Research Scientist and Project Manager for the Drug Interaction Database. In November 2009, Dr. Ragueneau joined the faculty of the Department of Pharmaceutics as Clinical Associate Professor and was promoted to full Professor in 2014. Dr. Ragueneau has published in the areas of drug-drug interactions (DDIs), drug disposition and clinical pharmacology. She is interested in the regulatory framework of DDI assessment and the clinical relevance of drug interactions. Dr. Ragueneau graduated from the University of Washington’s Master’s Degree Program in Biomedical Regulatory Affairs in 2010. In 2015, she was named a UW CoMotion Presidential Innovation Fellow.

Selected Publications

PubMed link: https://www.ncbi.nlm.nih.gov/pubmed?term=ragueneau-majlessi[Author]%20OR%20ragueneau%20i[Author]

Dave Porubek

Accepting Students to Lab: No

Education

  • PhD, Medicinal Chemistry, 1984, University of Washington
  • BA, Chemistry, 1979, Eastern Washington University

Research Interests

  • Analytical methods for studying drug metabolism and drug targets in drug development for industry. Major focus on anti-cancer drugs.

Biography

In 1984, after completing his PhD in the Department of Medicinal Chemistry under the guidance of his adviser, the late Sidney Nelson, Dr. Porubek received a postdoctoral fellowship at the Karolinska Institute in Sweden. After that fellowship, he returned to the UW School of Pharmacy to serve as a postdoctoral fellow in the lab of then-Professor of Medicinal Chemistry (and now School of Pharmacy Dean) Thomas Baillie.

Throughout his career, Porubek has worked for several Seattle area research companies – many of which focused on cancer drug development. He has worked in roles from research scientist to project manager at places including Cell Therapeutics, Pathogenesis Corp. and OncoGenex. He joined the Department of Medicinal Chemistry faculty in 2012, and he is currently a research consultant.

Selected Publications

Yvonne Lin

Accepting Students to Lab: Yes

Education

  • BA in Biophysics, University of California at Berkeley
  • PhD in Pharmaceutical Sciences, University of Washington

Research Interests:

  • Pharmacokinetics/pharmacogenomics
  • Natural products research
  • Regulation of drug metabolizing enzymes in children and pregnant women

Courses Taught

  • PHARBE 506
  • PHARBE 510
  • PCEUT 507
  • PCEUT 537

Biography

Dr. Lin is an Assistant Dean for Academic Affairs and Associate Professor in the Department of Pharmaceutics. She received her BA in Biophysics from the University of California at Berkeley and her PhD in Pharmaceutical Sciences from the University of Washington, and completed a postdoctoral fellowship at St. Jude Children’s Research Hospital.

Her research interests include: natural product-drug interactions, regulation of drug metabolizing enzymes in children and in pregnancy, and using metabolomics to discover endogenous biomarkers of drug metabolism and transport.

Selected Publications

https://www.ncbi.nlm.nih.gov/myncbi/yvonne.lin.1/bibliography/public/

Edward Kelly

Courses Taught:

  • PCEUT201
  • PCEUT502
  • PCEUT580
  • PCEUT586
  • PHG513

Education History:

BS, Biochemistry, UC-Riverside

MS, Biochemistry, UC-Riverside

PhD, Biochemistry, University of Washington

Biography: 

Dr. Kelly holds the rank of Professor at the University of Washington in the Department of Pharmaceutics (School of Pharmacy) and Adjunct Professor in the Department of Environmental and Occupational Health Sciences (School of Public Health). He is also an Investigator in the Kidney Research Institute at the UW School of Medicine and serves as Co-Director of the Pharmaceutical Bioengineering Extension Program.

The focus of the Kelly lab is ex vivo modeling of human organ function and drug/toxin-induced injury.  This research utilizes 3D-microfluidic “organs on chips” or microphysiological systems (MPS) as an alternative to animal testing. Our scope of work includes using MPS technologies to model how the kidney responds to microgravity on the International Space Station, how environmental toxins may modulate chronic kidney disease of unknown origin (CKDu) and the effects of glomerular disease on proximal tubule function. He is also part of a consortium to qualify a kidney MPS for defined contexts of use.

Selected Publications:

  1. Arian CM, O’Mahony ET, Manwill PK, Graf TN, Oberlies NH, Cech NB, Clarke JD, Smith JG, Paine MF, Kelly EJ & Thummel KE. A gut response: Application of human enteroid monolayers to probe the mechanism of the goldenseal-mediated inhibition of metformin intestinal absorption. The Journal of Pharmacology and Experimental Therapeutics. https://doi.org/10.1016/j.jpet.2025.103597 2025. PMID: 40403579
  2. Tsang YP, Aryeh KS, Wang K, Himmelfarb J, Yeung CK & Kelly EJ*. Enhancing therapeutic strategies and drug development for patients with kidney disease. Expert Opinion on Drug Safety https://doi.org/10.1080/14740338.2025.2525970  2025. PMID: 40568828
  3. Hansen BC, Arian CM, Zeng Y, Takezawa MG, Theberge AB, Faustman EM, Thummel KE & Kelly EJ*. Leveraging RNA-seq deconvolution to improve complex in vitro model characterization. Journal of Biological Chemistry. https://doi.org/10.1016/j.jbc.2025.110510 2025. PMID: 40701251
  4. O’Mahony ET, Arian CM, Aryeh KS, Wang K, Thummel KE & Kelly EJ*. Human intestinal enteroids: nonclinical applications for predicting oral drug disposition, toxicity and efficacy. Pharmacology and Therapeutics. https://doi.org/10.1016/j.pharmthera.2025.108879 2025. PMID: 40398537
  5. Hansen BC, Aryeh KS, Lindell LX, Lau GK, Nicholson TM, Faustman EM & Kelly EJ*. In vitro models of the male reproductive system: applications for developmental and reproductive toxicology. Toxicological Sciences. https://doi.org/10.1093/toxsci/kfaf132 2025. PMID: 41002216
  6. Mahadeo A, Tsang YP, Zheng AR, Arnzen S, Rodriguez AG, Warren MS, G?borik Z & Kelly EJ*. Human OAT1, OAT3, OAT4 and OATP1A2 Facilitate the Renal Accumulation of Ochratoxin A. Pharmaceutics. https://doi.org/10.3390/pharmaceutics17111474 2025. PMID: 41304811
  7. Mahadeo A, Bammler TK, MacDonald J, Zheng AR, Yeung CK, Himmelfarb J & Kelly EJ*. Pervasive food contaminant ochratoxin-A induces energy crisis: Mitochondrial dysfunction in human primary proximal tubule cells. Toxicology Reports. https://doi.org/10.1016/j.toxrep.2025.102169  2025. PMID: 41341619
  8. Jones-Isaac K, Yeung CK, Bain J, Lidberg K, Yang J, Wang L, MacDonald J, Bammler T, Thummel KE, Corn M, Ruiz MV, Countryman S, Koenig P, Mann HH, Himmelfarb J & Kelly EJ*. Effect of calcium oxalate microcrystals on kidney proximal tubule epithelial cell gene expression in microgravity. npj Microgravity. https://doi.org/10.1038/s41526-025-00543-3 2025. PMID: 41381544
  9. Wang K, Tsang YP, Thummel KE, Kelly EJ, Mao Q & Unadkat JD. Effect of proinflammatory cytokines on intestinal drug transporters in human enteroid monolayers. Drug Metabolism and Disposition. https://doi.org/10.1016/j.dmd.2025.100208 2025. PMID: 41418738

Nina Isoherranen

Accepting Students to Lab: Yes

Education

  • PhD in Pharmaceutical Sciences, Hebrew University of Jerusalem
  • Master of Science in Analytical Chemistry
  • Bachelor of Science in Chemistry, University of Helsinki

Research Interests

  • Metabolism, disposition and biological effects of Vitamin A and Retinoic acid
  • Drug disposition and drug safety during pregnancy
  • Pharmacokinetic modeling and molecular mechanisms of drug-drug interactions

Courses Taught

  • PCEUT532
  • PCEUT506
  • PCEUT502

Biography

Dr. Isoherranen received her bachelor’s degree in chemistry and her master’s degree in Analytical Chemistry in 1998 from the University of Helsinki, Finland. She obtained a PhD from the Hebrew University of Jerusalem in 2003 and continued her training as a post-doctoral fellow with Ken Thummel at the University of Washington. She joined the Department of Pharmaceutics as an Acting Assistant Professor on November 2004.

Dr Isoherranen’s main research interests relate to vitamin A disposition, pharmacokinetic modeling and drug-drug interactions. Her research program includes studies of the role of CYP26 and ALDH1A enzymes in Vitamin A homeostasis, alterations in vitamin A metabolome in obesity and related comorbidities and characterization of how drug and vitamin metabolism change during pregnancy. She has also active research ongoing in the area of pharmacokinetic modeling and PBPK model development relating to predictions of complex drug-drug and disease-drug interactions, and in prediction of clearance changes in different physiological states.

Selected Publications

https://pubmed.ncbi.nlm.nih.gov/term=Isoherranen+N&sort=date&size=20

 

Mary Hebert

Education

  • PharmD, University of California, San Francisco
  • Residency
  • Fellowship

Research Interests

Her research focuses on a mechanistic understanding of changes in the clinical pharmacology of medications during pregnancy and lactation. She is a translational researcher and is able to bridge from basic science to clinical. Her research grants have included basic science work in drug metabolism and transport, animal work from rodent to the non-human primate and human work phase I to III. Her Obstetric-fetal Pharmacology Research Unit is a multidisciplinary program with collaborators from all 3 departments in the University of Washington School of Pharmacy as well as multiple departments outside of the School of Pharmacy.

Courses Taught

  • PHRMCY 531
  • PHRMCY 535
  • PHRMCY 536
  • PHRMCY 537
  • PHRMCY 516

Biography

Mary F. Hebert, Pharm.D., FCCP is a Professor of Pharmacy, Adjunct Professor of OBGYN, Director of the University of Washington Obstetric-Fetal Pharmacology Research Unit, Core Member of the University of Washington, Center for Ecogenetics and Environmental Health and Member of the University of Washington Institute of Translational Health Sciences. Dr. Hebert joined the University of Washington Faculty in 1996. She has a faculty appointment in the graduate school with an endorsement to Chair. Dr. Hebert has 30 years experience conducting clinical pharmacology research resulting in over 100 publications. She has a long-standing, well-funded, productive research program. She has been an invited speaker at many national and international conferences.

Her research focuses on a mechanistic understanding of changes in the clinical pharmacology of medications during pregnancy and lactation. She is a translational researcher and is able to bridge from basic science to clinical. Her research grants have included basic science work in drug metabolism and transport, animal work from rodent to the non-human primate and human work phase I to III. Her Obstetric-fetal Pharmacology Research Unit is a multidisciplinary program with collaborators from all 3 departments in the School of Pharmacy as well as multiple departments outside of the School of Pharmacy.

Dr. Hebert is a licensed pharmacist and preceptor. She has a wide range of pharmacy practice experience including practice in community retail pharmacy, community hospital pharmacy and tertiary care (adult, pediatric, inpatient (intensive care and floor patients) and outpatient clinic).

Selected Publications

Please see “My Bibliography” in the US National Library of Medicine for a list of publications at the following website:

http://www.ncbi.nlm.nih.gov/sites/myncbi/18swnaiXtFjQc/bibliography/49436592/public/?sort=date&direction=ascending

Rene Levy

Accepting New Students: No

Education

  • BS Pharmacy University of Paris, France
  • PhD Pharmaceutical Chemistry UC San Francisco

Research Interests

  • Pharmacokinetics
  • Drug-Drug Interactions
  • Development of new Antiepileptic Drugs

Biography

RENÉ H. LEVY, PhD is Professor Emeritus of Pharmaceutics at the University of Washington in Seattle.
He has served as department chair for 26 years. He has published more than 350 research articles and several books on the treatment of epilepsy.
In 1989, Dr. Levy was named “Ambassador for Epilepsy” by the International Bureau of Epilepsy. In the late 1990s, he co-founded the Eilat Conference on the Development of New Antiepileptic Drugs which is still running on a biennial basis.
In 2007, Dr Levy became “Fellow of the American Association for the Advancement of Science”.
In 2011, Dr. Levy received a “Lifetime Achievement Award from the Epilepsy Foundation”. The foundation’s president and CEO said of Levy: “He is well deserving of this award honoring his career commitment in development of prescription drug therapy for people living with epilepsy.
In 2013, Dr Levy received the William G. Lennox-Cesare T. Lombroso Award, the highest award given by the American Epilepsy Society, in recognition of lifetime accomplishment and contributions related to epilepsy.

Selected Publications

  • Colins C, Levy R, Ragueneau-Majlessi I, Hachad H. Prediction of maximum exposure in poor metabolizers following inhibition of nonpolymorphic pathways. Curr Drug Metab. 2006 Apr;7(3):295-9
  • Levy RH, Collins C. Risk and predictability of drug interactions in the elderly. Int Rev. Neurobiol. 2007;81:235-51.
  • Zhang H, Ragueneau-Majlessi I, Levy RH. Interaction between clopidogrel and proton pump inhibitors: hypothesis to explain multifactorial CYP2C19 inhibition. Drug Metab Lett. 2009 Dec;3(4):287-9.
  • Hachad H, Overby CL, Argon S, Yeung CK, Ragueneau-Majlessi I, Levy RH. e-PKGene: a knowledge-based research tool for analysing the impact of genetics on drug exposure. Hum Genomics. 2011 Jul 1;5(5):506-15.
  • Bialer M, Johannessen SI, Koepp MJ, Levy RH, Perucca E, Tomson T, White HS Progress report on new antiepileptic drugs: A summary of the Fourteenth Eilat Conference on New Antiepileptic Drugs and Devices (EILAT XIV). I. Drugs in preclinical and early clinical development. Epilepsia. 2018 Oct;59(10):1811-1841. doi: 10.1111/epi.14557.
  • Bialer M, Johannessen SI, Koepp MJ, Levy RH, Perucca E, Tomson T, White HS. Progress report on new antiepileptic drugs: A summary of the Fourteenth Eilat Conference on New Antiepileptic Drugs and Devices (EILAT XIV). II. Drugs in more advanced clinical development. Epilepsia. 2018 Oct;59(10):1842-1866. doi: 10.1111/epi.14555. Erratum in: Epilepsia. 2019 Jan;60(1):187.
  • Levy RH, Ragueneau-Majlessi I. Past, Present, and Future of Drug-Drug Interactions. Clin Pharmacol Ther. 2019 Feb 17. doi: 10.1002/cpt.1349.

Rodney JY Ho

Accepting Students to Lab: Yes

Websites

TLC-ART Program

WE-REACH Center

Education

  • PhD, University of Tennessee
  • Bachelor of Science, University of California
  • Post-Doctoral Fellow, Stanford University Internal Medicine

Research Interests

Dr. Ho is known for bio-nanotechnology bio-pharmaceutical research and education that enable transformation of basic biomedical discovery into therapeutics. In addition to innovations in targeted and drug combination synchronous delivery, his research focuses on biology and comprehensive approach to treatments of cancer and infectious diseases of pandemic potential. Some topics include (1) Systems approach to drug combination delivery, transport to target tissues and cells related to disease state intended to improve efficacy and safety; (2) Targeted and Long-acting Combination Anti-Retroviral Therapies and organized TLC-ART program intended for maximizing therapeutic impacts on adults and children (3) Drug and lipid or biomaterial interaction studies that enable the engineering and development of long acting and targeted systems that enhance drug potency and safety.

Biography

Dr. Ho is a professor and presidential entrepreneurial fellow of the University of Washington, and holds appointments at the Fred Hutchinson Cancer Research Center. Professor Ho is the founding Executive Director of the Washington Entrepreneurial Research Evaluation and Commercialization Hub (WE-REACH, a NIH designated National Hub). He has served in a number of leadership roles including Assoc Dean for Research and New Initiatives. His current TLC-ART program, built on a collaborative basic and translational research team composed of scientists, physicians, students and post-doc, focuses on developing targeted, drug-combination and long-acting therapeutics for HIV/AIDS and cancer.  Ho is a distinguished leader in pharmaceutical sciences and systems pharmacology with a proven track record of innovation in long-acting and targeted drug combination therapies for AIDS and Cancer. He serves on a number of national and international initiatives relating to Cancer and HIV therapeutics including LEAP leadership team to facilitate development of long-acting therapies for NIH and WHO’s Unitaid. He is an expert on pharmacology and systems approaches to drug targeting and long-acting therapy. His research aims to improve the therapeutic efficacy and safety of viral and cancer drugs, medical diagnostic agents and vaccines. He is an elected member of National Academy of Innovators, elected fellow of the American Association for the Advancement of Science (AAAS) and the American Association of Pharmaceutical Scientists (AAPS). He studies the relationships between drug target distribution and disease development in cancer, AIDS, and neurological disorders. Building on this understanding, he has developed a systems approach to drug delivery and targeting. He is known for his expertise in bio-therapeutics, lipid-drug and -protein interactions, liposomes, drug-combination nanoparticles, pharmacokinetics, and the interplay between tissue targets and drug penetration. His research has led to enhanced HIV, cancer, and pain medication potency and safety. In addition, he has served as an editor of the Journal of Pharmaceutical Sciences and the author of “Biotechnology and Biopharmaceuticals: Transforming Proteins and Genes into Drugs.” He has also received top honors including the Paul Dawson Biotechnology life-time achievement award, Volwiler life-time research achievement award and the AAPS Biotechnology Research achievement, one of the AAPS’s highest recognitions.

Selected Publications

PubMed link

Ho RJY. “Warp-Speed Covid-19 Vaccine Development: Beneficiaries of Maturation in Biopharmaceutical Technologies and Public-Private Partnerships. J Pharm Sci. 2021, 110(2):615-618. PMID: 33212162

Bak A, Ho RJY. “Advancing Cell and Gene Therapeutic Products for Health Impact – Progress on Pharmaceutical Research, Development, Manufacturing and Controls.” J Pharm Sci. 2021, 110(5):1869-1870. PMID: 33189694. 

Perazzolo S, Zhu L, Lin W, Nguyen A, Ho RJY. “Systems and Clinical Pharmacology of COVID-19 Therapeutic Candidates: A Clinical and Translational Medicine Perspective.” J Pharm Sci. 2021, 110:1002-1017. PMID: 33248057

Ho RJY, Gibaldi M. “Biotechnology and Biopharmaceuticals: Transforming proteins and genes into drugs,” John Wiley and Sons, N.Y., 2nd edition 2013.

Gao Y, Kraft JC, Yu D, Ho RJY. “Recent developments of nanotherapeutics for targeted and long-acting, combination HIV chemotherapy.” Eur J Pharm Biopharm. 2019 May;138:75-91. PMID: 29678735.

Mu Q, Yu J, McConnachie LA, Kraft JC, Gao Y, Gulati GK, Ho RJY. “Translation of combination nanodrugs into nanomedicines: lessons learned and future outlook.” J Drug Target. 2018 Jun-Jul;26(5-6):435-447. PMID: 29285948.

Perazzolo S, Shen DD, Ho RJY. Physiologically Based Pharmacokinetic Modeling of 3 HIV Drugs in Combination and the Role of Lymphatic System after Subcutaneous Dosing. Part 2: Model for the Drug-combination Nanoparticles.

J Pharm Sci. 2022, 111(3):825-837. PMID: 34673094

Bak A, Friis KP, Wu Y, Ho RJY. “Translating Cell and Gene Biopharmaceutical Products for Health and Market Impact. Product Scaling From Clinical to Marketplace: Lessons Learned and Future Outlook.” J Pharm Sci. 2019 Oct;108(10):3169-3175. PMID: 31150697.

Kraft JC, McConnachie LA, Koehn J, Kinman L, Sun J, Collier AC, Collins C, Shen DD, Ho RJY. “Mechanism-based pharmacokinetic (MBPK) models describe the complex plasma kinetics of three antiretrovirals delivered by a long-acting anti-HIV drug combination nanoparticle formulation.” J Control Release. 2018 Apr 10;275:229-241. PMID: 29432823.

Kraft JC, McConnachie LA, Koehn J, Kinman L, Collins C, Shen DD, Collier AC, Ho RJY. “Long-acting combination anti-HIV drug suspension enhances and sustains higher drug levels in lymph node cells than in blood cells and plasma.” AIDS. 2017 Mar 27;31(6):765-770. PMID: 28099191.

Mu Q, Yu J, Griffin JI, Wu Y, Zhu L, McConnachie LA, Ho RJY. “Novel drug combination nanoparticles exhibit enhanced plasma exposure and dose-responsive effects on eliminating breast cancer lung metastasis.” PLoS One. 2020 Mar 6;15(3):e0228557. PMID: 32142553

Selen A, Müllertz A, Kesisoglou F, Ho RJY, Cook JA, Dickinson PA, Flanagan T.“Integrated Multi-stakeholder Systems Thinking Strategy: Decision-making with Biopharmaceutics Risk Assessment Roadmap (BioRAM) to Optimize Clinical Performance of Drug Products.” AAPS J. 2020 Jul 27;22(5):97. PMID: 32719954

Ho RJY. “Midyear Commentary on Trends in Drug Delivery and Clinical Translational Medicine: Growth in Biosimilar (Complex Injectable Drug Formulation) Products Within Evolving Collaborative Regulatory Interagency (FDA, FTC, and DOJ) Practices and Enforcement.” J Pharm Sci. 2017 Feb;106(2):471-476.

Kraft JC, Treuting PM, Ho RJY. “Indocyanine green nanoparticles undergo selective lymphatic uptake, distribution and retention and enable detailed mapping of lymph vessels, nodes and abnormalities.” J Drug Targeting. 2018 Jun-Jul;26(5-6):494-504. PMID: 29388438.

Perazzolo S, Shireman LM, Koehn J, McConnachie LA, Kraft JC, Shen DD, Ho RJY. “Three HIV Drugs, Atazanavir, Ritonavir, and Tenofovir, Coformulated in Drug-Combination Nanoparticles Exhibit Long-Acting and Lymphocyte-Targeting Properties in Nonhuman Primates.” J Pharm Sci. 2018 Dec;107(12):3153-3162. PMID: 30121315.

Koehn J, Iwamoto JF, Kraft JC, McConnachie LA, Collier AC, Ho RJY. “Extended cell and plasma drug levels after one dose of a three-in-one nanosuspension containing lopinavir, efavirenz, and tenofovir in nonhuman primates.” AIDS. 2018 Nov 13;32(17):2463-2467. PMID:30102655.

McConnachie LA, Kinman LM, Koehn J, Kraft JC, Lane S, Lee W, Collier AC, Ho RJY. “Long-Acting Profile of 4 Drugs in 1 Anti-HIV Nanosuspension in Nonhuman Primates for 5 Weeks After a Single Subcutaneous Injection.” J Pharm Sci. 2018 Jul;107(7):1787-1790. PMID: 29548975.

Kraft JC, McConnachie LA, Koehn J, Kinman L, Collins C, Shen DD, Collier AC, Ho RJY. “Long-acting combination anti-HIV drug suspension enhances and sustains higher drug levels in lymph node cells than in blood cells and plasma”. AIDS. 2017 Mar 27;31(6):765-770.

Kraft JC, Freeling JP, Wang Z, Ho RJY. “Emerging research and clinical development trends of liposome and lipid nanoparticle drug delivery systems.” J Pharm Sci 103:29-52. 2014.

Freeling JP, Koehn J, Shu J, Sun J, Ho RJY. “Long-Acting Three-Drug Combination Anti-HIV Nanoparticles Enhance Drug Exposure in Primate Plasma and Cells within Lymph Nodes and Blood.” AIDS 28: 2625-2631, 2015 (highlighted by an accompanying editorial commentary in AIDS).

 

William Atkins

Accepting Students to Lab: No

Education

  • BS in Chemistry, The College of William and Mary
  • MA in Pharmacology, Harvard University
  • PhD in Biochemistry, The University of Illinois

Research Interests

  • Drug Metabolizing Enzymes
  • Therapeutic Antibodies
  • Protein structure and Function

Courses Taught

  • MEDCH 531
  • MEDCH 501
  • MEDCH 528
  • MEDCH 327
  • MEDCH 527
  • MEDCH 529

Biography

Dr. William M. Atkins earned a Masters Degree in Pharmacology from Harvard University in 1983 and a Ph.D. in Biochemistry from the University of Illinois at Urbana-Champaign in 1988. From 1988-1991 Dr. Atkins performed postdoctoral research in the Department of Chemistry at The Pennsylvania State University, as an NIH Kirschstein Postdoctoral Fellow.

Dr. Akins was the Sidney D. Nelson Professor and Chair of Medicinal Chemistry at The University of Washington from 2016-2025, having been on the faculty there since 1991. He was Graduate Program Director for the Department of Medicinal Chemistry and co-Director of the Analytical Biopharmacy Core. His research  focuses on the enzymology of detoxification enzymes and drug metabolism, with particular emphasis on biophysical mechanisms. Professor Atkins has been awarded NIH grants for research on several enzyme systems including Cytochrome P450s, Glutathione S-transferases, and the P-glycoprotein efflux transporter. Recent research efforts also include characterization of nanoparticles for drug delivery and therapeutic antibody drug conjugates.

Professor Atkins serves on the International Organizing Committee for The Biennial International Conferences on Cytochrome P450’s and the International Microsomes and Drug Oxidations Conference. Dr. Atkins has served on several NIH and NSF Review Panels. He is also a member of the Editorial Boards of Archives in Biochemistry and Biophysics and Environmental Toxicology.

 

Selected Publications

The origins of nonideality exhibited by monoclonal antibodies and Fab fragments in human serum. Larsen HA, Atkins WM, Nath A. Protein Sci. 2023 Dec;32(12):e4812. doi: 10.1002/pro.4812.

Nanodisc-embedded cytochrome P450 P3A4 binds diverse ligands by distributing conformational dynamics to its flexible elements. Paço L, Hackett JC, Atkins WM. J Inorg Biochem. 2023 Jul;244:112211. doi: 10.1016/j.jinorgbio.2023.112211. Epub 2023 Apr 5.

Low molecular weight ligands bind to CYP3A4 via a branched induced fit mechanism: Implications for O2 binding. Redhair M, Nath A, Hackett JC, Atkins WM. Arch Biochem Biophys. 2023 May 1;739:109582. doi: 10.1016/j.abb.2023.109582. Epub 2023 Mar 21.

Reversibility and Low Commitment to Forward Catalysis in the Conjugation of Lipid Alkenals by Glutathione Transferase A4-4. Scian M, Paço L, Murphree TA, Shireman LM, Atkins WM. Biomolecules. 2023 Feb 9;13(2):329. doi: 10.3390/biom13020329.

Long Range Communication between the Drug-Binding Sites and Nucleotide Binding Domains of the Efflux Transporter ABCB1. Clouser AF, Atkins WM. Biochemistry. 2022 Apr 19;61(8):730-740. doi: 10.1021/acs.biochem.2c00056. Epub 2022 Apr 6.

Allan Rettie

Accepting Students to Lab: No

Education

  • PhD in Pharmaceutical Sciences, University of Newcastle-upon-Tyne, England
  • BSc, Heriot-Watt University, Scotland
  • Postdoctoral Fellow, UW

Research Areas

  • Biochemistry of the human CYP2 and CYP4 families of P450s
  • Pharmacogenomics of cardiovascular drugs
  • P450-dependent bioactivation and associated adverse reactions

Biography

Dr. Rettie obtained a PhD in Pharmaceutical Sciences in 1983 from the University of Newcastle-upon-Tyne, England, before moving to Seattle to post-doc with Drs. Mont Juchau and Dr. Bill Trager at the UW in the areas of extra-hepatic drug metabolism and mechanisms of drug-drug interactions. He joined the faculty of the UW School of Pharmacy in 1987 and was Department Chair from 2000-2014.

Dr. Rettie’s research interests have focused mainly on the human P450 enzymes and attempts to understand mechanisms of catalysis, substrate specificity, pharmacogenetic variability and adverse drug reactions related to these monooxygenases. He has published over 190 peer-reviewed papers and held research grants from the National Institutes of Health (NIH) in these topic areas for the last 25 years.

Dr. Rettie has served on the editorial boards of Drug Metabolism and Disposition, Drug Metabolism Reviews, Journal of Pharmacology and Therapeutics, Current Drug Metabolism, Chemico-Biological Interactions and Chemical Research in Toxicology, as well as numerous NIH grant review panels. He has chaired the Scientific Affairs Committee of the International Society for Study of Xenobiotics (ISSX) and is Past Chair of the International Union of Basic and Applied Pharmacology’s Section of Drug Metabolism and Transport. In 2005, Dr. Rettie received the North American Scientific Achievement Award from ISSX for his work on elucidating metabolic and pharmacogenetic mechanisms of adverse reactions to the anticoagulant drug, warfarin, and in 2016 was appointed a Fellow of the Japanese Society for the Study of Xenobiotics.

Research Overview

Metabolism by the cytochrome P450s is the principal means whereby lipid-soluble drugs and compounds foreign to the body are converted to water-soluble derivatives that can be readily excreted. This is a beneficial effect of the enzyme system. However, it is well recognized that P450-mediated bioactivation of drugs and other xenobiotics is an important mechanism of chemical toxicity (Baillie and Rettie, 2011). Moreover, unexpected interruptions in P450 activity, due to genetic variation (Danese et al., 2012) or administration of agents that inhibit P450 activity (McDonald et al., 2015), can cause serious adverse drug reactions and contribute to disease states.

Much of the research in the Rettie laboratory focuses on the biochemistry and pharmacogenetics of the vitamin K cycle with an emphasis on how P450 enzymes interact with components of the cycle to maintain homeostasis. Human CYP2C9, for example, is the primary catalyst of (S)-warfarin metabolism (Daly et al., 2018). This vitamin K antagonist is an anticoagulant drug that is very difficult to dose correctly, and there are many drug-drug and drug-gene interactions associated with its use (Rettie and Tai, 2006).

An important goal for the laboratory is to define sources of inter-individual variability in warfarin dosing that can span a 100-fold range (Cooper et al., 2008). We have shown that common genetic polymorphisms in CYP2C9 decrease warfarin dose requirements by reducing the metabolic clearance of (S)-warfarin, while common polymorphisms in the warfarin target enzyme, VKORC1, affect warfarin dose by changing hepatic concentrations of this critical recycling enzyme (Rieder et al., 2005). We found that CYP4F2 and CYP4F11 are key vitamin K catabolizing enzymes (Edson et al., 2013) and common variation in CYP4F2 at least, affects warfarin dose, likely by modulating hepatic vitamin K concentrations (McDonald et al., 2009). We are currently examining the role of novel genetic variation in determining warfarin response in underserved populations (Henderson et al., 2019).

Other research in the laboratory is concerned with CYP4 enzymes that are potential drug targets because of their critical roles in health and disease (Edson et al., 2013; Johnson et al., 2015). Efforts are ongoing to synthesize chemical inhibitors of specific CYP4-family members to better dissect their physiological roles. CYP4B1 metabolizes a host of pro-toxins, including furans, aromatic amines, and certain fatty acids to reactive intermediates that can damage the cell. In this regard, CYP4B1 is a curious member of the CYP4 family because these enzymes typically have
a restricted substrate specificity that does not extend much beyond endogenous fatty acids. To evaluate the role of CYP4B1 in chemical toxicity, we have also developed a knockout mouse model (Parkinson et al, 2013). Most recently, we identified structural determinants of human CYP4B1 that confer high activity towards 4-ipomeanol (Wiek et al., 2015), and evaluated the substrate specificity of the ‘optimized’ human enzyme (Roellecke et al., 2017).

Our CYP4 research extends to the study of ‘orphan P450s’, like CYP4V2 and CYP4Z1, whose substrate specificity is unknown. We have reported on the fatty acid substrate specificity of CYP4V2 (Nakano et al., 2009) and the enzyme’s distribution in the eye (Nakano et al., 2012). Intriguingly, polymorphisms in CYP4V2 are found in patients suffering from the eye disease Bietti’s Crystalline Dystrophy (BCD). A knockout mouse model for CYP4V2 that recapitulates BCD has been developed in collaboration with the Kelly laboratory that should be of help in ‘deorphanizing’ the enzyme (Lockhart et al., 2014). Finally, the newest project in the Rettie lab concerns CYP4Z1, an unusual CYP that is localized to mammary tissue in humans and is up-regulated in breast cancer. We have expressed the enzyme in yeast and HepG2 cells and reported on the fatty acid metabolite profile of the enzyme (McDonald et al., 2017) and the development of novel, selective chemical inhibitors of CYP4Z1 (Kowalski et al., 2020).

In general, we use genetic re-engineering coupled with conventional protein biochemistry methods for the expression and isolation of CYP2 and CYP4 proteins and mutants of interest from heterologous hosts such as E.coli, insect cells and yeast (Mosher et al., 2008; Roberts et al., 2010). We also make extensive use of mass spectrometry for analyte quantification, including evaluation of structural changes in mutant proteins and lipidomic analysis to probe changes in endogenous metabolism due to CYP4V and CYP2C enzyme polymorphisms. Gene sequencing to discover novel polymorphisms in important pharmacogenes and disease-associated P450s is a continuing focus of the laboratory. Synthetic chemistry comes into play in the preparation of new substrates, inhibitors and metabolites for P450s of interest. Our long-term goals are to understand how structure and function are related for these important P450 enzyme families, and how their dysregulation affects drug response and disease.

Recent Publications

Deep mutational scanning of CYP2C19 in human cells reveals a substrate specificity-abundance tradeoff. Boyle GE, Sitko KA, Galloway JG, Haddox HK, Bianchi AH, Dixon A, Wheelock MK, Vandi AJ, Wang ZR, Thomson RES, Garge RK, Rettie AE, Rubin AF, Geck RC, Gillam EMJ, DeWitt WS, Matsen FA 4th, Fowler DM. Genetics. 2024 Nov 6;228(3):iyae156.

Sodium Dehydroacetate and Dehydroacetic Acid. Cherian P, Bergfeld WF, Belsito DV, Cohen DE, Klaassen CD, Rettie AE, Ross D, Slaga TJ, Snyder PW, Tilton S, Fiume M, Heldreth B. Int J Toxicol. 2024 Oct;43(4_suppl):130-134.

Isobutane, Isopentane, Butane, and Propane. Tucker R, Bergfeld WF, Belsito DV, Cohen DE, Klaassen CD, Rettie AE, Ross D, Slaga TJ, Snyder PW, Tilton S, Fiume M, Heldreth B. Int J Toxicol. 2025 Feb;44(1_suppl):17S-21S.

There and Back Again: A Perspective on 20 Years of CYP4Z1. Kowalski JP, Rettie AE. Drug Metab Dispos. 2024 Apr 11:DMD-MR-2024-001670.

Cytochrome P450 Family 4F2 and 4F11 Haplotype Mapping and Association with Hepatic Gene Expression and Vitamin K Hydroxylation Activity. Alade AN, Claw KG, McDonald MG, Prasad B, Rettie AE, Thummel KE. ACS Pharmacol Transl Sci. 2024 Feb 3;7(3):716-732.

Characterization of Gla proteoforms and non-Gla peptides of gamma carboxylated proteins: Application to quantification of prothrombin proteoforms in human plasma. Singh DK, Basit A, Rettie AE, Alade N, Thummel K, Prasad B. Anal Chim Acta. 2023 Dec 15;1284:341972.

Improved methods for the detection of heme and protoporphyrin IX adducts and quantification of heme B from cytochrome P450 containing systems. Pelletier RD, Rettie AE, Kowalski JP. J Chromatogr B Analyt Technol Biomed Life Sci. 2023 Dec 1;1231:123921.

Experimental pharmacology in precision medicine. Urbaniak A, Thummel KE, Alade AN, Rettie AE, Prasad B, De Nicolò A, Martin JH, Sheppard DN, Jarvis MF. Pharmacol Res Perspect. 2023 Dec;11(6):e01147.

An Integrative Approach to Elucidate Mechanisms Underlying the Pharmacokinetic Goldenseal-Midazolam Interaction: Application of In Vitro Assays and Physiologically Based Pharmacokinetic Models to Understand Clinical Observations. Nguyen JT, Tian DD, Tanna RS, Arian CM, Calamia JC, Rettie AE, Thummel KE, Paine MF. J Pharmacol Exp Ther. 2023 Dec;387(3):252-264.

Translating Kratom-Drug Interactions: From Bedside to Bench and Back.  Tanna RS, Cech NB, Oberlies NH, Rettie AE, Thummel KE, Paine MF. Drug Metab Dispos. 2023 Aug;51(8):923-935.

Clinical Assessment of the Drug Interaction Potential of the Psychotropic Natural Product Kratom. Tanna RS, Nguyen JT, Hadi DL, Layton ME, White JR, Cech NB, Oberlies NH, Rettie AE, Thummel KE, Paine MF. Clin Pharmacol Ther. 2023 Jun;113(6):1315-1325.

Spotlight on CYP4B1. Röder A, Hüsken S, Hutter MC, Rettie AE, Hanenberg H, Wiek C, Girhard M. Int J Mol Sci. 2023 Jan 20;24(3):2038.

A Physiological-Based Pharmacokinetic Model Embedded with a Target-Mediated Drug Disposition Mechanism Can Characterize Single-Dose Warfarin Pharmacokinetic Profiles in Subjects with Various CYP2C9 Genotypes under Different Cotreatments. Cheng S, Flora DR, Rettie AE, Brundage RC, Tracy TS. Drug Metab Dispos. 2023 Feb;51(2):257-267.

Pharmacokinetic Modeling of Warfarin І – Model-based Analysis of Warfarin Enantiomers with a Target Mediated Drug Disposition Model Reveals CYP2C9 Genotype-dependent Drug-drug Interactions of S-Warfarin. Cheng S, Flora DR, Rettie AE, Brundage RC, Tracy TS. Drug Metab Dispos. 2022 Jul 7;50(9):1287-301.

Pharmacokinetic Modeling of Warfarin ІI – Model-based Analysis of Warfarin Metabolites following Warfarin Administered either Alone or Together with Fluconazole or Rifampin. Cheng S, Flora DR, Rettie AE, Brundage RC, Tracy TS. Drug Metab Dispos. 2022 Jul 7;50(9):1302-11.

Clinical Pharmacokinetic Assessment of Kratom (Mitragyna speciosa), a Botanical Product with Opioid-like Effects, in Healthy Adult Participants. Tanna RS, Nguyen JT, Hadi DL, Manwill PK, Flores-Bocanegra L, Layton ME, White JR, Cech NB, Oberlies NH, Rettie AE, Thummel KE, Paine MF. Pharmaceutics. 2022 Mar 11;14(3):620.

Adapting regulatory drug-drug interaction guidance to design clinical pharmacokinetic natural product-drug interaction studies: A NaPDI Center recommended approach. Cox EJ, Rettie AE, Unadkat JD, Thummel KE, McCune JS, Paine MF. Clin Transl Sci. 2022 Feb;15(2):322-329.