OBJECTIVES: To evaluate zolpidem as a mechanism-based inactivator of human CYP3A in vitro, and to assess its metabolic interaction potential with CYP3A drugs (in vitro-in vivo extrapolation; IV-IVE). METHODS: A co- vs. pre-incubation strategy was used to quantify time-dependent inhibition of human liver microsomal (HLM) and recombinant CYP3A4 (rCYP3A4) by zolpidem. Experiments involving a 10-fold dilution step were employed to determine the kinetic constants of inactivation (K (I) and k (inact)) and to assess the in vitro mechanism-based inactivation (MBI) criteria. Inactivation data were entered into the Simcyp population-based ADME simulator to predict the increase in the area under the plasma concentration-time curve (AUC) for orally administered midazolam. RESULTS: Consistent with MBI, the inhibitory potency of zolpidem toward CYP3A was increased following pre-incubation. In HLMs, the concentration required for half maximal inactivation (K (I)) was 122 microM and the maximal rate of inactivation (k (inact)) was 0.094 min(-1). In comparison, K (I) and k (inact) values with rCYP3A4 were 50 microM and 0.229 min(-1), respectively. Zolpidem fulfilled all other in vitro MBI criteria, including irreversible inhibition. The mean oral AUC for midazolam in healthy volunteers was predicted to increase 1.1- to 1.7-fold due to the inhibition of metabolic clearance by zolpidem. Elderly subjects were more sensitive to the interaction, with mean increases in midazolam AUC of 1.2- and 2.2-fold for HLM IV-IVE and rCYP3A4 IV-IVE, respectively. CONCLUSIONS: Zolpidem is a relatively weak mechanism-based inactivator of human CYP3A in vitro. Zolpidem is unlikely to act as a significant perpetrator of metabolic interactions involving CYP3A.
OBJECTIVES: To evaluate zolpidem as a mechanism-based inactivator of humanCYP3A in vitro, and to assess its metabolic interaction potential with CYP3A drugs (in vitro-in vivo extrapolation; IV-IVE). METHODS: A co- vs. pre-incubation strategy was used to quantify time-dependent inhibition of human liver microsomal (HLM) and recombinant CYP3A4 (rCYP3A4) by zolpidem. Experiments involving a 10-fold dilution step were employed to determine the kinetic constants of inactivation (K (I) and k (inact)) and to assess the in vitro mechanism-based inactivation (MBI) criteria. Inactivation data were entered into the Simcyp population-based ADME simulator to predict the increase in the area under the plasma concentration-time curve (AUC) for orally administered midazolam. RESULTS: Consistent with MBI, the inhibitory potency of zolpidem toward CYP3A was increased following pre-incubation. In HLMs, the concentration required for half maximal inactivation (K (I)) was 122 microM and the maximal rate of inactivation (k (inact)) was 0.094 min(-1). In comparison, K (I) and k (inact) values with rCYP3A4 were 50 microM and 0.229 min(-1), respectively. Zolpidem fulfilled all other in vitro MBI criteria, including irreversible inhibition. The mean oral AUC for midazolam in healthy volunteers was predicted to increase 1.1- to 1.7-fold due to the inhibition of metabolic clearance by zolpidem. Elderly subjects were more sensitive to the interaction, with mean increases in midazolam AUC of 1.2- and 2.2-fold for HLM IV-IVE and rCYP3A4 IV-IVE, respectively. CONCLUSIONS:Zolpidem is a relatively weak mechanism-based inactivator of humanCYP3A in vitro. Zolpidem is unlikely to act as a significant perpetrator of metabolic interactions involving CYP3A.
Authors: Thorir D Bjornsson; John T Callaghan; Heidi J Einolf; Volker Fischer; Lawrence Gan; Scott Grimm; John Kao; S Peter King; Gerald Miwa; Lan Ni; Gondi Kumar; James McLeod; R Scott Obach; Stanley Roberts; Amy Roe; Anita Shah; Fred Snikeris; John T Sullivan; Donald Tweedie; Jose M Vega; John Walsh; Steven A Wrighton Journal: Drug Metab Dispos Date: 2003-07 Impact factor: 3.922
Authors: F Ghanbari; K Rowland-Yeo; J C Bloomer; S E Clarke; M S Lennard; G T Tucker; A Rostami-Hodjegan Journal: Curr Drug Metab Date: 2006-04 Impact factor: 3.731
Authors: Cody J Peer; Jonathan D Strope; Shaunna Beedie; Ariel M Ley; Alesia Holly; Karim Calis; Ronald Farkas; Jagan Parepally; Angela Men; Emmanuel O Fadiran; Pamela Scott; Marjorie Jenkins; William H Theodore; Tristan M Sissung Journal: Front Pharmacol Date: 2016-08-15 Impact factor: 5.810