Issue 7, 2015

Discovery, synthesis and structure–activity analysis of symmetrical 2,7-disubstituted fluorenones as urea transporter inhibitors

Abstract

Kidney urea transporters are targets for development of small-moleculeinhibitors with action as salt-sparing diuretics. A cell-based, functional high-throughput screen identified 2,7-bisacetamido fluorenone 3 as a novel inhibitor of urea transporters UT-A1 and UT-B. Here, we synthesized twenty-two 2,7-disubstituted fluorenone analogs by acylation. Structure–activity relationship analysis revealed: (a) the carbonyl moiety at C9 is required for UT inhibition; (b) steric limitation on C2, 7-substituents; and (c) the importance of a crescent-shape structure. The most potent fluorenones inhibited UT-A1 and UT-B urea transport with IC50 ~ 1 μM. Analysis of in vitro metabolic stability in hepatic microsomes indicated metabolism of 2,7-disubstituted fluorenones by reductase and subsequent elimination. Computational docking to a homology model of UT-A1 suggested UT inhibitor binding to the UT cytoplasmic domain at a site that does not overlap with the putative urea binding site.

Graphical abstract: Discovery, synthesis and structure–activity analysis of symmetrical 2,7-disubstituted fluorenones as urea transporter inhibitors

Associated articles

Supplementary files

Article information

Article type
Concise Article
Submitted
07 May 2015
Accepted
29 May 2015
First published
05 Jun 2015

Med. Chem. Commun., 2015,6, 1278-1284

Author version available

Discovery, synthesis and structure–activity analysis of symmetrical 2,7-disubstituted fluorenones as urea transporter inhibitors

S. Lee, C. Esteva-Font, P. Phuan, M. O. Anderson and A. S. Verkman, Med. Chem. Commun., 2015, 6, 1278 DOI: 10.1039/C5MD00198F

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