Discovery of BI-9787, a potent zwitterionic ketohexokinase inhibitor with oral bioavailability

[Display omitted] •Potent zwitterionic KHK inhibitor BI-9787 is a novel in vitro/in vivo tool compound.•Introduction of a carboxylic acid moiety leads to high target selectivity.•Chameleonic properties enable high permeability and favorable oral rat PK.•BI-9787 and structurally close negative contro...

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Published inBioorganic & medicinal chemistry letters Vol. 112; pp. 129930 - 129938
Main Authors Heine, Niklas, Weber, Alexander, Pautsch, Alexander, Gottschling, Dirk, Uphues, Ingo, Bauer, Margit, Ebenhoch, Rebecca, Magarkar, Aniket, Nosse, Bernd, Kley, Jörg Thomas
Format Journal Article
LanguageEnglish
Published OXFORD Elsevier Ltd 01.11.2024
Elsevier
Subjects
Chemistry
Chemistry, Medicinal
Chemistry, Organic
Life Sciences & Biomedicine
Pharmacology & Pharmacy
Physical Sciences
Science & Technology
NAFLD
PPB
SAR
FaSSIF
FeS SIF
PAMPA
NASH
KHK
SFC
BICLAIM
Caco-2
Qh
PK
FRUCTOSE
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Summary:[Display omitted] •Potent zwitterionic KHK inhibitor BI-9787 is a novel in vitro/in vivo tool compound.•Introduction of a carboxylic acid moiety leads to high target selectivity.•Chameleonic properties enable high permeability and favorable oral rat PK.•BI-9787 and structurally close negative control BI-2817 are available on opnMe.com. Fructose metabolism by ketohexokinase (KHK) is implicated in a variety of metabolic disorders. KHK inhibition is a potential therapeutic strategy for the treatment of diseases including diabetes, non-alcoholic fatty liver disease, and non-alcoholic steatohepatitis. The first small-molecule KHK-inhibitors have entered clinical trials, but it remains unclear if systemic inhibition of KHK by small-molecules will eventually benefit patients. Here we report the discovery of BI-9787, a potent, zwitterionic KHK inhibitor characterized by high permeability and favorable oral rat pharmacokinetics. BI-9787 was identified by optimizing chemical starting points generated via a ligand-based virtual screening of Boehringer’s virtual library of synthetically accessible compounds (BICLAIM). It serves as a high-quality in vitro and in vivo tool compound for investigating the role of fructose metabolism in disease.
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ISSN:0960-894X
1464-3405
1464-3405
DOI:10.1016/j.bmcl.2024.129930