Structure-guided design of novel thiazolidine inhibitors of O-acetyl serine sulfhydrylase from Mycobacterium tuberculosis.
Author | |
---|---|
Abstract |
:
The cysteine biosynthetic pathway is absent in humans but essential in microbial pathogens, suggesting that it provides potential targets for the development of novel antibacterial compounds. CysK1 is a pyridoxalphosphate-dependent O-acetyl sulfhydrylase, which catalyzes the formation of l-cysteine from O-acetyl serine and hydrogen sulfide. Here we report nanomolar thiazolidine inhibitors of Mycobacterium tuberculosis CysK1 developed by rational inhibitor design. The thiazolidine compounds were discovered using the crystal structure of a CysK1-peptide inhibitor complex as template. Pharmacophore modeling and subsequent in vitro screening resulted in an initial hit compound 2 (IC50 of 103.8 nM), which was subsequently optimized by a combination of protein crystallography, modeling, and synthetic chemistry. Hit expansion of 2 by chemical synthesis led to improved thiazolidine inhibitors with an IC50 value of 19 nM for the best compound, a 150-fold higher potency than the natural peptide inhibitor (IC50 2.9 μM). |
Year of Publication |
:
2013
|
Journal |
:
Journal of medicinal chemistry
|
Volume |
:
56
|
Issue |
:
16
|
Number of Pages |
:
6457-66
|
Date Published |
:
2013
|
ISSN Number |
:
0022-2623
|
URL |
:
https://dx.doi.org/10.1021/jm400710k
|
DOI |
:
10.1021/jm400710k
|
Short Title |
:
J Med Chem
|
Download citation |