Gene/Protein
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Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:3.4.21.6 (
thromboplastin
)
13,278
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The metabolism and disposition of [(14)C]apixaban, a potent, reversible, and direct inhibitor of
coagulation factor Xa
, were investigated in mice, rats, rabbits, dogs, and humans after a single oral administration and in incubations with hepatocytes. In plasma, the parent compound was the major circulating component in mice, rats, dogs, and humans. O-Demethyl apixaban sulfate (M1) represented approximately 25% of the parent area under the time curve in human plasma. This sulfate metabolite was present, but in lower amounts relative to the parent, in plasma from mice, rats, and dogs. Rabbits showed a plasma metabolite profile distinct from that of other species with apixaban as a minor component and M2 (O-demethyl apixaban) and
M14
(O-demethyl apixaban glucuronide) as prominent components. The fecal route was a major elimination pathway, accounting for >54% of the dose in animals and >46% in humans. The urinary route accounted for <15% of the dose in animals and 25 to 28% in humans. Apixaban was the major component in feces of every species and in urine of all species except rabbit. M1 and M2 were common prominent metabolites in urine and feces of all species as well as in bile of rats and humans. In vivo metabolite profiles showed quantitative differences between species and from in vitro metabolite profiles, but all human metabolites were found in animal species. After intravenous administration of [(14)C]apixaban to bile duct-cannulated rats, the significant portion (approximately 22%) of the dose was recovered as parent drug in the feces, suggesting direct excretion of the drug from gastrointestinal tracts of rats. Overall, apixaban was effectively eliminated via multiple elimination pathways in animals and humans, including oxidative metabolism, and direct renal and intestinal excretion.
...
PMID:Comparative metabolism of 14C-labeled apixaban in mice, rats, rabbits, dogs, and humans. 1942 Jan 30
Apixaban has similar affinity for human and rabbit
factor Xa
(FXa). Rabbits are commonly used in development of thrombosis disease models; however, unlike in other species, apixaban demonstrated poor oral bioavailability (F = 3%) and a high clearance rate (2.55 l/h/kg) in rabbits. Oxidative metabolism of [14C] apixaban by liver microsomes was approximately 20 times faster in rabbits than in rats or humans. Following an intravenous (IV) dose of 5 mg/kg, circulating levels of [14C] apixaban decreased from the earliest sampling time (5 min) to undetectable at 4 h. After an oral dose of 30 mg/kg, levels of [14C] apixaban were only detected at 1 and 4 h. Radioactivity profiling showed that apixaban was a significant component in plasma only after IV administration; O-demethyl apixaban (M2), O-demethyl apixaban glucuronide (
M14
) and O-demethyl apixaban sulfate (M1) were prominent metabolites after both IV and oral administration. Studies of apixaban in rabbits showed a good correlation between apixaban concentrations and inhibition of FXa activity, prolongation of prothrombin time and modified prothrombin time, with no lag time between these ex vivo pharmacodynamic markers and plasma drug levels. The apixaban concentration required for 50% inhibition (IC50) of FXa activity ex vivo (0.22 +/- 0.02 microM) agreed with the IC50 from in vitro experiments in rabbit and human plasma. In summary, apixaban shows similar affinity for human and rabbit FXa. It produces a rapid onset of action, predictable concentration-dependent pharmacodynamic responses, and, unlike rats or humans, a rapid hepatic metabolism in rabbits.
...
PMID:Metabolism, pharmacokinetics and pharmacodynamics of the factor Xa inhibitor apixaban in rabbits. 1985 12
