Preclinical metabolism and the disposition of vornorexant/TS‐142, a novel dual orexin 1/2 receptor antagonist for the treatment of insomnia

Preclinical metabolism and the disposition of vornorexant/TS‐142, a novel dual orexin 1/2 receptor antagonist for the treatment of insomnia

We investigated the metabolism and disposition of vornorexant, a novel dual orexin receptor antagonist, in rats and dogs, and clarified in vitro metabolite profiles in humans. Furthermore, we investigated the pharmacokinetics of active metabolites in rats and dogs and their CNS distribution in rats...

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Bibliographic Details
Published in:Pharmacology research & perspectives Vol. 12; no. 2; pp. e1183 - n/a
Main Authors: Konno, Yoshihiro, Kamigaso, Shunsuke, Toki, Hidetoh, Terasaka, Shuichi, Hikichi, Hirohiko, Endo, Hiromi, Yamaguchi, Jun‐Ichi, Mizuno‐Yasuhira, Akiko
Format: Journal Article
Language:English
Published: United States John Wiley & Sons, Inc 01-04-2024
Wiley
Subjects:
Animal cognition
Animals
Benzodiazepines
Chromatography
disposition
Dogs
Drug dosages
FDA approval
half‐life
Humans
Insomnia
Investigations
Mass spectrometry
Metabolism
Metabolites
Oral administration
orexin
Orexin Receptor Antagonists
Orexins
Organic Chemicals
pharmacokinetic
Pharmacokinetics
Plasma
Prescription drugs
Rats
Rats, Sprague-Dawley
Scientific imaging
Sleep
Sleep Initiation and Maintenance Disorders
TS‐142
Urine
vornorexant
United States > US
Japan
disposition
metabolism
orexin
TS-142
pharmacokinetic
vornorexant
half-life
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Summary:We investigated the metabolism and disposition of vornorexant, a novel dual orexin receptor antagonist, in rats and dogs, and clarified in vitro metabolite profiles in humans. Furthermore, we investigated the pharmacokinetics of active metabolites in rats and dogs and their CNS distribution in rats to elucidate its contribution to drug efficacy. [14C]vornorexant was rapidly and mostly absorbed after the oral administration in rats and dogs. The drug‐derived radioactivity, including metabolites, was distributed to major organs such as the liver, kidneys in rats, and was almost eliminated within 24 h post‐dose in both species. Metabolite profiling revealed that main clearance mechanism of vornorexant was metabolism via multiple pathways by oxidation. The major circulating components were the cleaved metabolites (M10, M12) in rats, and the unchanged form in dogs, followed by M1, and then M3. Incubation with human hepatocytes resulted in formation of metabolites, including M1, M3, M10, and M12. The metabolic pathways were similar in all tested species. Resulting from the PK and CNS distribution of active metabolites (M1 and M3) with weaker pharmacological activity, the concentration of the unchanged form was higher than that of active metabolites in rat CSF and dog plasma, suggesting that the unchanged form mainly contributed to the drug efficacy. These findings demonstrate that vornorexant is absorbed immediately after administration, and vornorexant and its metabolites are rapidly and completely eliminated in rats and dogs. Thus, vornorexant may have favorable pharmacokinetic profiles as a hypnotic drug to provide rapid onset of action and minimal next‐day residual effects in humans. Proposed metabolic pathways of vornorexant are presented. Vornorexant is rapidly absorbed and undergoes extensive metabolism. Vornorexant and its metabolites are rapidly eliminated without tissue residue. The unchanged form mainly contributes to the drug efficacy.
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ISSN:2052-1707
2052-1707
DOI:10.1002/prp2.1183