Synthesis and Antichlamydial Activity of Molecules Based on Dysregulators of Cylindrical Proteases.
Mohamed A SeleemNathalia Rodrigues de AlmeidaYashpal Singh ChhonkerDaryl J MurryZaira da Rosa GuterresAmanda M BlockerShiomi KuwabaraDerek J FisherEmilse S LealManuela R MartinefskiMariela BolliniMaría Eugenia MongeScot P OuelletteMartin Conda SheridanPublished in: Journal of medicinal chemistry (2020)
Chlamydia trachomatis is the most common sexually transmitted bacterial disease globally and the leading cause of infertility and preventable infectious blindness (trachoma) in the world. Unfortunately, there is no FDA-approved treatment specific for chlamydial infections. We recently reported two sulfonylpyridines that halt the growth of the pathogen. Herein, we present a SAR of the sulfonylpyridine molecule by introducing substituents on the aromatic regions. Biological evaluation studies showed that several analogues can impair the growth of C. trachomatis without affecting host cell viability. The compounds did not kill other bacteria, indicating selectivity for Chlamydia. The compounds presented mild toxicity toward mammalian cell lines. The compounds were found to be nonmutagenic in a Drosophila melanogaster assay and exhibited a promising stability in both plasma and gastric fluid. The presented results indicate this scaffold is a promising starting point for the development of selective antichlamydial drugs.