Metabolic Soft Spot and Pharmacokinetics: Functionalization of C-3 Position of an Eph–Ephrin Antagonist Featuring a Bile Acid Core as an Effective Strategy to Obtain Oral Bioavailability in Mice
Autor: | Francesca Ferlenghi, Carmine Giorgio, Matteo Incerti, Lorenzo Guidetti, Paola Chiodelli, Marco Rusnati, Massimiliano Tognolini, Federica Vacondio, Marco Mor, Alessio Lodola |
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Jazyk: | angličtina |
Rok vydání: | 2022 |
Předmět: |
Eph–ephrin system
High-resolution mass spectrometry (HR-MS) In vivo PK Metabolite ID UniPR129 UniPR500 Settore BIO/14 - FARMACOLOGIA Pharmaceutical Science Article RS1-441 Pharmacy and materia medica Drug Discovery Molecular Medicine Medicine metabolite ID in vivo PK high-resolution mass spectrometry (HR-MS) |
Zdroj: | Pharmaceuticals, Vol 15, Iss 41, p 41 (2022) Pharmaceuticals; Volume 15; Issue 1; Pages: 41 Pharmaceuticals |
Popis: | UniPR129, an L-β-homotryptophan conjugate of the secondary bile acid lithocholic acid (LCA), acts as an effective protein-protein interaction (PPI) inhibitor of the Eph–ephrin system but suffers from a poor oral bioavailability in mice. To improve UniPR129 bioavailability, a metabolic soft spot, i.e., the 3α-hydroxyl group on the LCA steroidal ring, was functionalized to 3-hydroxyimine. In vitro metabolism of UniPR129 and 3-hydroxyimine derivative UniPR500 was compared in mouse liver subcellular fractions, and main metabolites were profiled by high resolution (HR-MS) and tandem (MS/MS) mass spectrometry. In mouse liver microsomes (MLM), UniPR129 was converted into several metabolites: M1 derived from the oxidation of the 3-hydroxy group to 3-oxo, M2–M7, mono-hydroxylated metabolites, M8–M10, di-hydroxylated metabolites, and M11, a mono-hydroxylated metabolite of M1. Phase II reactions were only minor routes of in vitro biotransformation. UniPR500 shared several metabolic pathways with parent UniPR129, but it showed higher stability in MLM, with a half-life (t1/2) of 60.4 min, if compared to a t1/2 = 16.8 min for UniPR129. When orally administered to mice at the same dose, UniPR500 showed an increased systemic exposure, maintaining an in vitro valuable pharmacological profile as an EphA2 receptor antagonist and an overall improvement in its physico-chemical profile (solubility, lipophilicity), if compared to UniPR129. The present work highlights an effective strategy for the pharmacokinetic optimization of aminoacid conjugates of bile acids as small molecule Eph–ephrin antagonists. |
Databáze: | OpenAIRE |
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