1 reference(s) found. Listing paper details in reverse chronological order. We are grateful to Keith Bradnam for improvment of this script
Title: Total Synthesis of Tetrahydrolipstatin, Its Derivatives, and Evaluation of Their Ability to Potentiate Multiple Antibiotic Classes against Mycobacterium Species Khan SS, Sudasinghe TD, Landgraf AD, Ronning DR, Sucheck SJ Ref: ACS Infect Dis, 7:2876, 2021 : PubMed
Tetrahydrolipstatin (THL, 1a) has been shown to inhibit both mammalian and bacterial alpha/beta hydrolases. In the case of bacterial systems, THL is a known inhibitor of several Mycobacterium tuberculosis hydrolases involved in mycomembrane biosynthesis. Herein we report a highly efficient eight-step asymmetric synthesis of THL using a route that allows modification of the THL alpha-chain substituent to afford compounds 1a through 1e. The key transformation in the synthesis was use of a (TPP)CrCl/Co(2)(CO)(8)-catalyzed regioselective and stereospecific carbonylation on an advanced epoxide intermediate to yield a trans-beta-lactone. These compounds are modest inhibitors of Ag85A and Ag85C, two alpha/beta hydrolases of M. tuberculosis involved in the biosynthesis of the mycomembrane. Among these compounds, 10d showed the highest inhibitory effect on Ag85A (34 +/- 22 microM) and Ag85C (66 +/- 8 microM), and its X-ray structure was solved in complex with Ag85C to 2.5 A resolution. In contrast, compound 1e exhibited the best-in-class MICs of 50 microM (25 microg/mL) and 16 microM (8.4 microg/mL) against M. smegmatis and M. tuberculosis H37Ra, respectively, using a microtiter assay plate. Combination of 1e with 13 well-established antibiotics synergistically enhanced the potency of few of these antibiotics in M. smegmatis and M. tuberculosis H37Ra. Compound 1e applied at concentrations 4-fold lower than its MIC enhanced the MIC of the synergistic antibiotic by 2-256-fold. In addition to observing synergy with first-line drugs, rifamycin and isoniazid, the MIC of vancomycin against M. tuberculosis H37Ra was 65 microg/mL; however, the MIC was lowered to 0.25 microg/mL in the presence of 2.1 microg/mL 1e demonstrating the potential of targeting mycobacterial hydrolases involved in mycomembrane and peptidoglycan biosynthesis.
