Synthesis and Evaluation of Novel Analogues of Ripostatins.

Tang, W, Liu S, Degen D, Ebright RH, Prusov EV.  2014.  

Journal:

Chemistry

Volume Number:

20

Pages:

12310-9

Abstract:

Ripostatins are polyene macrolactones isolated from the myxobacterium Sorangium cellulosum. They exhibit antibiotic activity by inhibiting bacterial RNA polymerase (RNAP) through a binding site and mechanism that are different from those of current antibacterial drugs. Thus, the ripostatins serve as starting points for the development of new anti-infective agents with a novel mode of action. In this work, several derivatives of ripostatins were produced. 15-Desoxyripostatin A was synthesized by using a one-pot carboalumination/cross-coupling. 5,6-Dihydroripostatin A was constructed by utilizing an intramolecular Suzuki cross-coupling macrolactonization approach. 14,14'-Difluororipostatin A and both epimeric 14,14'-difluororipostatins B were synthesized by using a Reformatsky type aldol addition of a haloketone, Stille cross-coupling, and ring-closing metathesis. The RNAP-inhibitory and antibacterial activities are presented. Structure-activity relationships indicate that the monocyclic keto-ol form of ripostatin A is the active form of ripostatin A, that the ripostatin C5-C6 unsaturation is important for activity, and that C14 geminal difluorination of ripostatin B results in no loss of activity.

Related External URL:

http://onlinelibrary.wiley.com/doi/10.1002/chem.201403176/abstract;jsessionid=4B5EFD48BE2D6F79D0711BFE6B793484.f04t02
Citation:
Tang, W, Liu S, Degen D, Ebright RH, Prusov EV.  2014.  Synthesis and Evaluation of Novel Analogues of Ripostatins.. Chemistry. 20:12310-9.