Litcius/Paper detail

Pharmacokinetics, metabolism, and excretion of licogliflozin, a dual inhibitor of SGLT1/2, in rats, dogs, and humans

Lydia Wang-Lakshman, Anisha E. Mendonza, Roland G. Huber, Markus Walles, Yanling He, Venkateswar Jarugula

2021Xenobiotica13 citationsDOIOpen Access PDF

Abstract

< 1 h) with absorption estimated at 87%, 100% and 77% in rats, dogs and humans, respectively.Excretion of licogliflozin-related radioactivity was rapid and nearly complete following oral administration with total radioactivity recovery ranging from 73% in dogs, 92.5% in humans, to 100% in rats. Dose-related radioactivity was excreted in both urine and faeces with urinary excretion playing a slightly more important role in humans (∼56%) than in animal species (∼19-41%).Elimination of licogliflozin was predominantly via metabolism with the majority of the radioactivity dose (∼54-74%) excreted as metabolites across species.The principal biotransformation pathways involved direct glucuronidation and oxidation across all species. In humans, direct glucuronidation to M17 and M27 was the major pathway observed, accounting for ∼38% of the dose in excreta while oxidative metabolism also contributed to >29% of the dose in excreta. Oxidative pathways were predominant in animal species.

Topics & Concepts

GlucuronidationExcretionMetabolismPharmacokineticsUrineOral administrationChemistryAbsorption (acoustics)PharmacologyInternal medicineEndocrinologyFecesBiologyBiochemistryMedicineMicrosomeEnzymePaleontologyPhysicsAcousticsDiabetes Treatment and ManagementDrug Transport and Resistance MechanismsMetabolism, Diabetes, and Cancer
Pharmacokinetics, metabolism, and excretion of licogliflozin, a dual inhibitor of SGLT1/2, in rats, dogs, and humans | Litcius