HIV Clinical Trial
Official title:
Effects of CYP2B6 Genetic Polymorphisms on Efavirenz Pharmacokinetics, Autoinduction and Drug Interactions in Healthy Volunteers.
1. To see how the liver breaks down efavirenz by an enzyme called CYP2B6. It is suggested
that when Efavirenz is taken repeatedly it may increase the amount of CYP2B6 in your
liver and thus speed up your liver's ability to get rid of efavirenz from your body.
This may render efavirenz and other medications ineffective.
2. To see how efavirenz interact with other drugs taken at the same time with it.
3. To see if genetic differences can change the way how the liver breaks down efavirenz
and its interactions with other co-administered drugs.
The human hepatic cytochrome P450 2B6 (CYP2B6) is a key enzyme in the metabolism of a growing list of clinically important drugs, environmental chemicals (e.g. toxicants and carcinogens) and endogenous substances. The expression and activity of this enzyme varies widely among individuals, probably due to genetic polymorphisms in the CYP2B6 gene and drug interactions. This variability, in turn, likely contributes to variable response to those drugs primarily metabolized by CYP2B6. In deed, several drugs that are substrates of CYP2B6 exhibit large pharmacokinetic differences among individuals and their use is associated with unpredictable drug interactions. Therefore, identifying mechanisms and factors that might influence CYP2B6 activity is important to the safe and effective use of its substrates. An important characteristic of several clinically important CYP2B6 substrate drugs that include efavirenz, nevirapine, cyclophosphamide, artemisinin and ifosfamide is their ability to enhance their own clearance upon repeated dosing, a process known as autoinduction of metabolism. Drugs that autoinduce metabolism also exhibit multiple interactions with drug metabolizing enzymes other than CYP2B6 (e.g. CYP3A, CYP2C9 and CYP2C19), and drug transporters (e.g. p-glycoprotein). As most of these medications are used in combination with other drugs, their potential to alter the pharmacokinetics of co-administered drugs is very high. We hypothesize that CYP2B6 genetic variants that influence constitutive CYP2B6 expression and activity contribute to interindividual variability in steady-state exposure of the autoinducer drugs and in the drug interactions that ensue. We will determine the impact of CYP2B6 genetic variants, typically the CYP2B6*6 allele, on the time-course and extent of autoinduction of metabolism and the consequences of differential autoinduction on drug interactions, using efavirenz (a known CYP2B6 substrate and an autoinducer) as a model drug. Thus, single (600 mg oral dose) and steady-state (600 mg/day) pharmacokinetics of efavirenz will be assessed in healthy subjects genotyped for the CYP2B6*6 allele. Trough concentrations of efavirenz and its metabolites will be collected during the course of efavirenz treatment. Efavirenz exposure will be compared between the genotypes after autoinduction. An autoinduction pharmacokinetic model will be developed to characterize the dynamics and time courses of autoinduction in the different genotypes. The potential impact of differences in efavirenz exposure on drug interactions will be determined by measuring the in vivo activity of selected CYP enzymes, using isoform specific substrate probes [omeprazole (CYP2C19), tolbutamide (CYP2C9), caffeine (CYP1A2) and midazolam (CYP3A)] at single and after multiple (steady-state) dosing with efavirenz. ;
Allocation: Non-Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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