C25-modified rifamycin derivatives with improved activity against Mycobacterium abscessus

Author:

Paulowski Laura,Beckham Katherine S. H.ORCID,Johansen Matt D.ORCID,Berneking LauraORCID,Van NhiORCID,Degefu Yonatan,Staack Sonja,Sotomayor Flor VasquezORCID,Asar Lucia,Rohde HolgerORCID,Aldridge Bree B.ORCID,Aepfelbacher MartinORCID,Parret Annabel,Wilmanns Matthias,Kremer LaurentORCID,Combrink KeithORCID,Maurer Florian P.ORCID

Abstract

AbstractInfections caused by Mycobacterium abscessus are difficult to treat due to its intrinsic resistance to most antibiotics. Formation of biofilms and the capacity of M. abscessus to survive inside host phagocytes further complicate eradication. Herein, we explored whether addition of a carbamate-linked group at the C25 position of rifamycin SV blocks enzymatic inactivation by ArrMab, an ADP-ribosyltransferase conferring resistance to rifampicin. Unlike rifampicin, 5j, a benzyl piperidine rifamycin derivative with a morpholino substituted C3 position, is not modified by purified ArrMab. Additionally, we show that the ArrMab D82 residue is essential for catalytic activity. Thermal profiling of ArrMab in the presence of 5j, rifampicin or rifabutin shows that 5j does not bind to ArrMab. We found that the activity of 5j is comparable to amikacin against M. abscessus planktonic cultures and pellicles. Critically, 5j also exerts potent antimicrobial activity against M. abscessus in human macrophages and shows synergistic activity with amikacin and azithromycin.

Publisher

Cold Spring Harbor Laboratory

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