AIM: Gabapentin enacarbil, a transported prodrug of gabapentin, provides sustained, dose-proportional exposure to gabapentin. Unlike gabapentin, the prodrug is absorbed throughout the intestinal tract by high-capacity nutrient transporters, including mono-carboxylate transporter-1 (MCT-1). Once absorbed, gabapentin enacarbil is rapidly hydrolyzed to gabapentin, which is subsequently excreted by renal elimination via organic cation transporters (OCT2). To examine the potential for drug-drug interactions at these two transporters, the pharmacokinetics of gabapentin enacarbil were evaluated in healthy adults after administration alone or in combination with either naproxen (an MCT-1 substrate) or cimetidine (an OCT2 substrate). METHODS: Subjects (n= 12 in each study) received doses of study drug until steady state was achieved; 1200 mg gabapentin enacarbil each day, followed by either naproxen (500 mg twice daily) or cimetidine (400 mg four times daily) followed by the combination. RESULTS: When gabapentin enacarbil was co-administered with naproxen, gabapentin C(ss,max) increased by, on average, 8% and AUC by, on average, 13%. When gabapentin enacarbil was co-administered with cimetidine, gabapentin AUC(ss) increased by 24% and renal clearance of gabapentin decreased. Co-administration with gabapentin enacarbil did not affect naproxen or cimetidine exposure. Gabapentin enacarbil was generally well tolerated. CONCLUSIONS: No gabapentin enacarbil dose adjustment is needed with co-administration of naproxen or cimetidine.
AIM: Gabapentin enacarbil, a transported prodrug of gabapentin, provides sustained, dose-proportional exposure to gabapentin. Unlike gabapentin, the prodrug is absorbed throughout the intestinal tract by high-capacity nutrient transporters, including mono-carboxylate transporter-1 (MCT-1). Once absorbed, gabapentin enacarbil is rapidly hydrolyzed to gabapentin, which is subsequently excreted by renal elimination via organic cation transporters (OCT2). To examine the potential for drug-drug interactions at these two transporters, the pharmacokinetics of gabapentin enacarbil were evaluated in healthy adults after administration alone or in combination with either naproxen (an MCT-1 substrate) or cimetidine (an OCT2 substrate). METHODS: Subjects (n= 12 in each study) received doses of study drug until steady state was achieved; 1200 mg gabapentin enacarbil each day, followed by either naproxen (500 mg twice daily) or cimetidine (400 mg four times daily) followed by the combination. RESULTS: When gabapentin enacarbil was co-administered with naproxen, gabapentin C(ss,max) increased by, on average, 8% and AUC by, on average, 13%. When gabapentin enacarbil was co-administered with cimetidine, gabapentin AUC(ss) increased by 24% and renal clearance of gabapentin decreased. Co-administration with gabapentin enacarbil did not affect naproxen or cimetidine exposure. Gabapentin enacarbil was generally well tolerated. CONCLUSIONS: No gabapentin enacarbil dose adjustment is needed with co-administration of naproxen or cimetidine.
Authors: U Karbach; J Kricke; F Meyer-Wentrup; V Gorboulev; C Volk; D Loffing-Cueni; B Kaissling; S Bachmann; H Koepsell Journal: Am J Physiol Renal Physiol Date: 2000-10
Authors: Kenneth C Cundy; Thamil Annamalai; Lin Bu; Josephine De Vera; Jenny Estrela; Wendy Luo; Payal Shirsat; Allan Torneros; Fenmei Yao; Joan Zou; Ronald W Barrett; Mark A Gallop Journal: J Pharmacol Exp Ther Date: 2004-05-14 Impact factor: 4.030
Authors: Kenneth C Cundy; Russell Branch; Tania Chernov-Rogan; Tracy Dias; Toño Estrada; Karin Hold; Kerry Koller; Xiaoli Liu; Adam Mann; Matt Panuwat; Stephen P Raillard; Shubhra Upadhyay; Quincey Q Wu; Jia-Ning Xiang; Hui Yan; Noa Zerangue; Cindy X Zhou; Ronald W Barrett; Mark A Gallop Journal: J Pharmacol Exp Ther Date: 2004-05-14 Impact factor: 4.030
Authors: D Gründemann; S Köster; N Kiefer; T Breidert; M Engelhardt; F Spitzenberger; N Obermüller; E Schömig Journal: J Biol Chem Date: 1998-11-20 Impact factor: 5.157
Authors: I Tamai; H Takanaga; H Maeda; Y Sai; T Ogihara; H Higashida; A Tsuji Journal: Biochem Biophys Res Commun Date: 1995-09-14 Impact factor: 3.575