The overall goal of this research is to improve methadone maintenance treatment, the cornerstone of opiate abuse therapy and a vitally effective strategy for HIV/AIDS risk reduction. Methadone disposition is characterized by extreme, unexplained and unpredictable inter- and intra- individual variability, causing opiate withdrawal, side effects, and treatment failures. Methadone intestinal first-pass metabolism and systemic clearance are catalyzed predominantly by cytochrome P4503A4. CYP3A4 variability and most importantly, CYP3A4 drug interactions, profoundly affect methadone first-pass metabolism and systemic clearance. Methadone is a newly recognized substrate for intestinal and CNS P-glycoprotein (P-gp), which determines methadone absorption and CNS pharmacodynamics in animals (a human role is unknown). The HIV/AIDS protease inhibitors (HIV-PI) and non-nucleoside reverse transcriptase inhibitors (NNRTI) are exquisitely potent CYP3A4 modulators, causing significant and complex (short- vs long-duration effects) yet poorly understood drug interactions. HIV-PI are P-gp modulators in vitro, yet their clinical effects are unknown. Unfortunate anecdote, the current way of detecting methadone drug interactions, has recently identified clinically significant HIV-PI and NNRTI-methadone interactions, with adverse outcomes. Nevertheless, such interactions are poorly understood. The overall research objective is to identify the mechanism(s) of HIV-PI and NNRTI-methadone interactions, and more generally validate a novel in vivo CYP3A4 probe for drug interactions involving HIV-PI, NNRTI, and methadone, and generalizable to other HIV/AIDS drugs, drug abuse therapies, and CYP3A4 drugs.
The specific aims are to: 1) validate the pharmacodynamics of alfentanil (a highly specific in vivo CYP3A4 probe) as a rapid, noninvasive, inexpensive pharmacokinetic surrogate and probe for hepatic and intestinal CYP3A activity and drug interactions;2) determine the role of P-gp in methadone intestinal absorption and CNS pharmacodynamics in humans;3) determine HIV-PI (ritonavir, indinavir, saquinavir, nelfinavir)and NNRTI (nevirapine, efavirenz) effects on intestinal P-gp activity, first-pass CYP3A metabolism, and hepatic CYP3A activity;4) identify mechanisms of HIV-PI and NNRTI alterations in methadone disposition and clinical effect, potentially caused by modulation of P-gp-mediated intestinal absorption, CYP3A4-catalyzed first-pass metabolism, CYP3A-dependent systemic clearance, and/or P-gp- mediated CNS accessibility;5) establish the ability of noninvasive in vivo probe of CYP3A activity to predict methadone disposition, and to rapidly and noninvasively detect and predict drug interactions with HIV-PI, NNRTI, and methadone. Successful completion will provide fundamental new information on methadone disposition, improve the treatments and outcomes of opiate addiction and HIV/AIDS, and provide a novel technology for assessing CYP3A, the most important drug metabolism enzyme in humans.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
7R01DA014211-06
Application #
7152712
Study Section
AIDS and Related Research 8 (AARR)
Program Officer
Khalsa, Jagjitsingh H
Project Start
2001-07-17
Project End
2008-06-30
Budget Start
2005-12-01
Budget End
2008-06-30
Support Year
6
Fiscal Year
2005
Total Cost
$362,468
Indirect Cost
Name
Washington University
Department
Anesthesiology
Type
Schools of Medicine
DUNS #
068552207
City
Saint Louis
State
MO
Country
United States
Zip Code
63130
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Teitelbaum, Aaron M; Flaker, Alicia M; Kharasch, Evan D (2016) Development and validation of a high-throughput stereoselective LC-MS/MS assay for bupropion, hydroxybupropion, erythrohydrobupropion, and threohydrobupropion in human plasma. J Chromatogr B Analyt Technol Biomed Life Sci 1017-1018:101-113

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