Sulforaphane as an Antagonist to Human PXR-mediated Drug-drug Interactions
|ClinicalTrials.gov Identifier: NCT00621309|
Recruitment Status : Unknown
Verified November 2009 by University of Washington.
Recruitment status was: Active, not recruiting
First Posted : February 22, 2008
Last Update Posted : November 16, 2009
Adverse drug-drug interactions (DDIs) are responsible for approximately 3% of all hospitalizations in the US, perhaps costing more than $1.3 billion per year. One of the most common causes of DDIs is the when one drug alters the metabolism of another. A key enzyme in the liver and intestine, called "cytochrome P450 3A4 (CYP3A4) is generally considered to be the most important drug metabolizing enzyme. The gene for CYP3A4 can be 'turned on' by the presence of certain other drugs, resulting in much higher levels of CYP3A4 in the liver and intestine. Thus, when a drug that induces CYP3A4 is given with or before another drug that is metabolized by 3A4, a 'drug-drug' interaction occurs because the first drug (the inducer) greatly changes the rate at which the second drug (CYP3A4 substrate) is removed from the body. Many drugs increase CYP3A4 activity by binding to a receptor called the Pregnane-X-Receptor (PXR), which is a major switch that controls the expression of the CYP3A4 gene. Using human liver cells we have demonstrated that sulforaphane (SFN), found in broccoli, can block drugs from activating the PXR receptor, thereby inhibiting the switch that causes CYP3A4 induction. The purpose of this project is to determine if SFN can be used to block adverse DDIs that occur when drugs bind to and activate the PXR receptor and subsequently induce CYP3A4 activity. We will recruit 24 human volunteers to participate in the study. This project will determine whether SFN can prevent the drug Rifampin from binding to PXR and increasing CYP3A4 activity in humans following oral administration of SFN (broccoli sprout extract). The rate of removal of a small dose of the drug midazolam will be used to determine the enzymatic activity of CYP3A4 before and following treatment with Rifampin, in the presence or absence of SFN, since midazolam is only eliminated from the bloodstream by CYP3A4. . We predict that SFN will prevent the increase in midazolam clearance (metabolism) that normally follows treatment with the antibiotic, rifampicin.
This research is important because it could potentially lead to a simple, cost-effective way of preventing one of the most common causes of adverse drug-drug interactions that occurs today. For example, rifampicin, which is a cheap and effective antibiotic used to treat TB, cannot be used in HIV/AIDS patients because it increases the metabolism of many of the antiretroviral drugs used to treat HIV/AIDS. TB is a major opportunistic infection in AIDS patients, so this is a serious clinical problem, especially in developing countries where more expensive alternative drug therapies are not available. We hypothesize that co-formulation of rifampicin with SFN could block this drug-drug interaction without altering its efficacy, thereby allowing its use in HIV/AIDS patients infected with TB. This is but one example of numerous drug-drug interactions that occur via this mechanism.
|Condition or disease||Intervention/treatment||Phase|
|Adverse Drug Interactions||Drug: Rifampicin Dietary Supplement: sulforaphane plus rifampicin Dietary Supplement: sulforaphane alone||Phase 1|
|Study Type :||Interventional (Clinical Trial)|
|Estimated Enrollment :||24 participants|
|Intervention Model:||Crossover Assignment|
|Masking:||None (Open Label)|
|Official Title:||Phase I Clinical Trial to Evaluate the Efficacy of Sulforaphane as an Antagonist to Human PXR-mediated Drug-drug Interactions|
|Study Start Date :||March 2008|
|Estimated Primary Completion Date :||June 2010|
|Estimated Study Completion Date :||September 2010|
Active Comparator: 1
Subjects are given 300 mg / 7 days of rifampicin to induce CYP3A4. Midazolam clearance is measured on the 8th day.
Rifampicin, an antibiotic used to treat TB, is administered at a dose of 300 mg day x 7 days to induce CYP3A5.
Active Comparator: 2
Sulforaphane (SFN), a natural product derived from broccoli sprouts, is utilized as a putative inhibitor of ligand (Rifampin) activation of the Pregnane X-receptor. In this arm, both SFN (putative inhibitor of ligand binding to PXR) and Rifampin (strong activating ligand of PXR) are given together.
Dietary Supplement: sulforaphane plus rifampicin
Sulforaphane (SFN) is an isothiocyanate derived from the plant phytochemical, glucoraphinin. It appears to inhibit ligand binding to the ligand activated nuclear transcription factor, Pregnane X-Receptor (PXR). This arm tests the hypothesis that SFN can block ligand binding to the PXR, thereby inhibiting transcriptional activation of PXR-regulated genes. Sulforaphane is administered daily for 7 days as a broccoli sprout extract, at a dose rate of 75 mg (~420 umoles)per day for 7 days. Rifampicin is also administered once per day at a dose rate of 300 mg/day for 7 days.
Active Comparator: 3
This arm involves the administration of Sulforaphane (SFN) alone, in the absence of the PXR ligand, rifampicin. The hypothesis is that SFN will have no effect on the expression of PXR-regulated genes. Alternatively, it is possible that SFN could inhibit as yet unidentified endogenous ligands to the PXR receptor, thereby causing down-regulations of genes regulated wholely or in part by PXR. SFN is administered as a broccoli sprout extract at a dose rate of 75 mg (~420 umoles) per day for 7 days.
Dietary Supplement: sulforaphane alone
Sulforaphane (SFN) is an isothiocyanate derived from the plant phytochemical, glucoraraphinin. It appears to inhibit ligand binding to the ligand activated nuclear transcription factor, Pregnane X-Receptor (PXR). This arm tests the hypothesis that SFN can block ligand binding to the PXR, thereby inhibiting transcriptional activation of PXR-regulated genes
Other Name: 1-isothiocyanato-4-(methylsulphinyl)butane
- Midazolam clearance (pharmacokinetic measure of Cytochrome P450 3A4 activity) [ Time Frame: 7 days ]
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT00621309
|United States, Washington|
|Fred Hutchinson Cancer Research Center|
|Seattle, Washington, United States, 98105|
|UW General Clinical Research Center|
|Seattle, Washington, United States, 98105|
|Principal Investigator:||David L Eaton, PhD||University of Washington|