Imidazolone
as
an Amide Bioisostere in the Development
of β‑1,3‑N‑Acetylglucosaminyltransferase
2 (B3GNT2) Inhibitors

Jackson, Jeffrey J.; Siegmund, Aaron C.; Bai, Wen-Ju; Reed, Anthony B.; Birkholz, Adam B.; Campuzano, Iain D. G.; Créquer-Grandhomme, Amandine; Hu, Ruozhen; Modak, Rucha V.; Sudom, Athena; Javier, Noelle; Sanders, Christiana; Lo, Mei-Chu; Xie, Fang; Cee, Victor J.; Manzanillo, Paolo; Allen, John G.

doi:10.1021/acs.jmedchem.3c01517.s001

jm3c01517_si_001.pdf (1.42 MB)

Imidazolone as an Amide Bioisostere in the Development of β‑1,3‑N‑Acetylglucosaminyltransferase 2 (B3GNT2) Inhibitors

journal contribution

posted on 2023-11-21, 21:20 authored by Jeffrey J. Jackson, Aaron C. Siegmund, Wen-Ju Bai, Anthony B. Reed, Adam B. Birkholz, Iain D. G. Campuzano, Amandine Créquer-Grandhomme, Ruozhen Hu, Rucha V. Modak, Athena Sudom, Noelle Javier, Christiana Sanders, Mei-Chu Lo, Fang Xie, Victor J. Cee, Paolo Manzanillo, John G. Allen

B3GNT2 is responsible for elongation of cell surface long-chain polylactosamine, which influences the regulation of the immune response, making it an attractive target for immunomodulation. In the development of amide containing B3GNT2 inhibitors guided by structure-based drug design, imidazolones were found to successfully serve as amide bioisosteres. This novel imidazolone isosteric strategy alleviated torsional strain of the amide bond on binding to B3GNT2 and improved potency, isoform selectivity, as well as certain physicochemical and pharmacokinetic properties. Herein, we present the synthesis, SAR, X-ray cocrystal structures, and in vivo PK properties of imidazol-4-ones in the context of B3GNT2 inhibition.

Imidazolone as an Amide Bioisostere in the Development of β‑1,3‑N‑Acetylglucosaminyltransferase 2 (B3GNT2) Inhibitors

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