Rational design and in vitro testing of new urease inhibitors to prevent urinary catheter blockage

Rachel Heylen, Nicola Cusick, Tom White, Emily Owen, Bethany Lee Patenall, Martin Alm, Peter Thomsen, Maisem Laabei, Andrew Jenkins

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Abstract

Catheter associated urinary tract infections (CAUTI) caused by urease-positive organisms can lead to catheter blockage: urease metabolizes urea in urine to ammonia causing an increase in pH and hence precipitation of struvite and apatite salts into the catheter lumen and bladder leading to blockage. Acetohydroxamic acid (AHA) is the only urease inhibitor currently approved for patient use, however, it is rarely used owing to its side effects. Here, we report the identification and development of new urease inhibitors discovered using a rational in silico drug design approach. A series of compounds were designed, the compounds were screened and filtered to identify three compounds which were tested in in vitro urease activity assays. N,N′-Bis(3-pyridinylmethyl)thiourea (Bis-TU) outperformed AHA in activity assays and was tested in an in vitro bladder model, where it significantly extended the lifetime of the catheter compared to AHA. Bis-TU was delivered via a diffusible balloon catheter directly to the site of activity, thus demonstrating localized drug delivery. This cost-effective drug design approach allowed the identification of a potent urease inhibitor, which could be improved through iterative repeats of the method, and the process of design could be utilized to target other diseases.
Original languageEnglish
JournalRSC Medicinal Chemistry
Early online date12 Sept 2024
DOIs
Publication statusPublished - 12 Sept 2024

Data Availability Statement

Data provided in the ESI† and on request to the corresponding author.

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