PURPOSE: To evaluate the PK and safety of siponimod, a substrate of CYP2C9/3A4, in the presence or absence of a CYP3A4 inhibitor, itraconazole. METHODS: This was an open-label study in healthy subjects (aged 18-50 years; genotype: CYP2C9 *1*2 [cohort 1; n = 17] or *1*3 [cohort 2; n = 13]). Subjects received siponimod 0.25-mg single dose in treatment period 1 (days 1-14), itraconazole 100 mg twice daily in treatment period 2 (days 15-18), and siponimod 0.25-mg single dose (day 19) with itraconazole until day 31 (cohort 1) or day 35 (cohort 2) in treatment period 3. PK of siponimod alone and with itraconazole and safety were assessed. RESULTS: Overall, 29/30 subjects completed the study. In treatment period 1, geometric mean AUCinf, T1/2, and median Tmax were higher while systemic clearance was lower in cohort 2 than cohort 1. In treatment period 3, siponimod AUC decreased by 10% (geo-mean ratio [90% confidence intervals]: 0.90 [0.84; 0.96]) and 24% (0.76 [0.69; 0.82]) in cohorts 1 and 2, respectively. Siponimod Cmax was similar between treatment periods 1 and 3. In both cohorts, the Cmax and AUC of the metabolites (M17, M3, and M5) decreased in the presence of itraconazole. All adverse events were mild. CONCLUSIONS: The minor albeit significant reduction in plasma exposure of siponimod and its metabolites by itraconazole was unexpected. While the reason is unclear, the results suggest that coadministration of the two drugs would not cause a considerable increase of siponimod exposure independent of CYP2C9 genotype.
PURPOSE: To evaluate the PK and safety of siponimod, a substrate of CYP2C9/3A4, in the presence or absence of a CYP3A4 inhibitor, itraconazole. METHODS: This was an open-label study in healthy subjects (aged 18-50 years; genotype: CYP2C9 *1*2 [cohort 1; n = 17] or *1*3 [cohort 2; n = 13]). Subjects received siponimod 0.25-mg single dose in treatment period 1 (days 1-14), itraconazole 100 mg twice daily in treatment period 2 (days 15-18), and siponimod 0.25-mg single dose (day 19) with itraconazole until day 31 (cohort 1) or day 35 (cohort 2) in treatment period 3. PK of siponimod alone and with itraconazole and safety were assessed. RESULTS: Overall, 29/30 subjects completed the study. In treatment period 1, geometric mean AUCinf, T1/2, and median Tmax were higher while systemic clearance was lower in cohort 2 than cohort 1. In treatment period 3, siponimod AUC decreased by 10% (geo-mean ratio [90% confidence intervals]: 0.90 [0.84; 0.96]) and 24% (0.76 [0.69; 0.82]) in cohorts 1 and 2, respectively. Siponimod Cmax was similar between treatment periods 1 and 3. In both cohorts, the Cmax and AUC of the metabolites (M17, M3, and M5) decreased in the presence of itraconazole. All adverse events were mild. CONCLUSIONS: The minor albeit significant reduction in plasma exposure of siponimod and its metabolites by itraconazole was unexpected. While the reason is unclear, the results suggest that coadministration of the two drugs would not cause a considerable increase of siponimod exposure independent of CYP2C9 genotype.
Authors: Ulrike Glaenzel; Yi Jin; Robert Nufer; Wenkui Li; Kirsten Schroer; Sylvie Adam-Stitah; Sjoerd Peter van Marle; Eric Legangneux; Hubert Borell; Alexander D James; Axel Meissner; Gian Camenisch; Anne Gardin Journal: Drug Metab Dispos Date: 2018-05-07 Impact factor: 3.922
Authors: Ludwig Kappos; Amit Bar-Or; Bruce A C Cree; Robert J Fox; Gavin Giovannoni; Ralf Gold; Patrick Vermersch; Douglas L Arnold; Sophie Arnould; Tatiana Scherz; Christian Wolf; Erik Wallström; Frank Dahlke Journal: Lancet Date: 2018-03-23 Impact factor: 79.321
Authors: C Jaillard; S Harrison; B Stankoff; M S Aigrot; A R Calver; G Duddy; F S Walsh; M N Pangalos; N Arimura; K Kaibuchi; B Zalc; C Lubetzki Journal: J Neurosci Date: 2005-02-09 Impact factor: 6.167
Authors: Nina Isoherranen; Kent L Kunze; Kyle E Allen; Wendel L Nelson; Kenneth E Thummel Journal: Drug Metab Dispos Date: 2004-07-08 Impact factor: 3.922