posted on 2015-02-12, 00:00authored byKatarzyna Macegoniuk, Anna Dziełak, Artur Mucha, Łukasz Berlicki
Inhibitors of bacterial ureases are
considered to be promising
compounds in the treatment of infections caused by Helicobacter
pylori in the gastric tract and/or by urealytic bacteria
(e.g., Proteus species) in the urinary tract. A new,
extended transition state scaffold, bis(aminomethyl)phosphinic acid,
was successfully explored for the construction of effective enzyme
inhibitors. A reliable methodology for the synthesis of phosphinate
analogues in a three-component Mannich-type reaction was elaborated.
The obtained molecules were assayed against ureases purified from Sporosarcina pasteurii and Proteus mirabilis, and aminomethyl(N-n-hexylaminomethyl)phosphinic
acid was found to be the most potent inhibitor, with a Ki = 108 nM against the S. pasteurii enzyme.