The aim of the present study was to investigate the mechanism for the stereoselective presystemic clearance of carvedilol. We examined the oxidation and glucuronidation of carvedilol in human liver microsomes (HLM) and human intestinal microsomes (HIM). The oxidation of carvedilol in HLM and HIM was evaluated in the presence of NADPH, whereas glucuronidation was evaluated in the presence of UDP-glucuronic acid. Oxidation of S-carvedilol in HLM and HIM was greater than that of R-carvedilol. In addition, the oxidation of R-carvedilol in HLM was inhibited by quinidine, whereas that of S-carvedilol was inhibited by both quinidine and furafylline. On the other hand, R-and S-carvedilol oxidation in HIM was inhibited by ketoconazole. Glucuronidation of Scarvedilol in HLM and HIM was also higher than that of R-carvedilol. These results suggested that cytochrome P450 (CYP) 2D6 and CYP1A2 are involved in the stereoselective oxidation of carvedilol in the liver, that CYP3A4 is involved in intestinal oxidation, and that glucuronidation in the liver and intestine is at least partly responsible for stereoselective presystemic clearance.
Drug-drug interaction was suggested to have played a role in the recent death due to cardiac arrest of a patient taking pimozide, sertraline and aripiprazole antipsychotic/antidepressant combination therapy. Here, we investigated the possible involvement of P-glycoprotein (P-gp)-mediated interaction among these drugs, using in vitro methods. ATPase assay confirmed that pimozide is a P-gp substrate, and might act as a P-gp inhibitor at higher concentrations. The maximum transport rate (
J
max
) and half-saturation concentration (
K
t
) for the carrier-mediated transport estimated by means of pimozide efflux assay using P-gp-overexpressing LLC-GA5-CoL150 cells were 84.9 ± 8.9 pmol/min/mg protein, and 10.6 ± 4.7 μM, respectively. These results indicate that pimozide is a good P-gp substrate, and it appears to have the potential to cause drug-drug interactions in the digestive tract at clinically relevant gastrointestinal concentrations. Moreover, sertraline or aripiprazole significantly decreased the efflux ratio of pimozide in LLC-GA5-CoL150 cells. Transport studies using Caco-2 cell monolayers were consistent with the results in LLC-GA5-CoL150 cells, and indicate that P-gp-mediated drug-drug interaction may occur in the gastrointestinal tract. Thus, P-gp inhibition by sertraline and/or aripiprazole may increase the gastrointestinal permeability of co-administered pimozide, resulting in an increased blood concentration of pimozide, which is known to be associated with an increased risk of QT prolongation, a life-threatening side effect.
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