Design, Biological Evaluation, and Computer-Aided Analysis of Dihydrothiazepines as Selective Antichlamydial Agents.
Luana Janaína de CamposMohamed A SeleemJiachen FengKelly Mari Pires de OliveiraJoão Víctor de Andrade Dos SantosShivdeep HayerJonathan B ClaytonSharvath KathiDerek J FisherScot P OuelletteMartin Conda SheridanPublished in: Journal of medicinal chemistry (2023)
Chlamydia trachomatis (CT) causes the most prevalent sexually transmitted bacterial disease in the United States. The lack of drug selectivity is one of the main challenges of the current antichlamydial pharmacotherapy. The metabolic needs of CT are controlled, among others, by cylindrical proteases and their chaperones ( e.g. , ClpX). It has been shown that dihydrothiazepines can disrupt CT-ClpXP. Based on this precedent, we synthesized a dihydrothiazepine library and characterized its antichlamydial activity using a modified semi-high-throughput screening assay. Then, we demonstrated their ability to inhibit ClpX ATPase activity in vitro , supporting ClpX as a target. Further, our lead compound displayed a promising selectivity profile against CT, acceptable cytotoxicity, no mutagenic potential, and good in vitro stability. A two-dimensional quantitative structure-activity relationship (2D QSAR) model was generated as a support tool in the identification of more potent antichlamydial molecules. This study suggests dihydrothiazepines are a promising starting point for the development of new and selective antichlamydial drugs.
Keyphrases
- image quality
- dual energy
- computed tomography
- contrast enhanced
- structure activity relationship
- positron emission tomography
- magnetic resonance imaging
- high throughput
- magnetic resonance
- emergency department
- high resolution
- molecular dynamics
- climate change
- heat shock
- anti inflammatory
- heat shock protein
- pet ct
- single cell
- human health