1. The Enzymatic Activity of Inosine 5'-Monophosphate Dehydrogenase May Not Be a Vulnerable Target for
- Author
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Gyan, Modi, Gary M, Marqus, Mohana Rao, Vippila, Deviprasad R, Gollapalli, Youngchang, Kim, Adhar C, Manna, Shibin, Chacko, Natalia, Maltseva, Xingyou, Wang, Ryan T, Cullinane, Yubo, Zhang, Judy L M, Kotler, Petr, Kuzmic, Minjia, Zhang, Ann P, Lawson, Andrzej, Joachimiak, Ambrose, Cheung, Barry B, Snider, David M, Rothstein, Gregory D, Cuny, and Lizbeth, Hedstrom
- Subjects
Methicillin-Resistant Staphylococcus aureus ,Mice ,Staphylococcus aureus ,IMP Dehydrogenase ,Animals ,Staphylococcal Infections ,Inosine ,Article - Abstract
Many bacterial pathogens, including Staphylococcus aureus, require inosine 5’-monophosphate dehydrogenase (IMPDH) for infection, making this enzyme a promising new target for antibiotics. Although potent selective inhibitors of bacterial IMPDHs have been reported, relatively few have displayed antibacterial activity. Here we use structure-informed design to obtain inhibitors of S. aureus IMPDH (SaIMPDH) that have potent antibacterial activity (minimal inhibitory concentrations less than 2 μM) and low cytotoxicity in mammalian cells. The physicochemical properties of the most active compounds were within typical Lipinski/Veber space, suggesting that polarity is not a general requirement for achieving antibacterial activity. Five compounds failed to display activity in mouse models of septicemia and abscess infection. Inhibitor-resistant S. aureus strains readily emerged in vitro. Resistance resulted from substitutions in the cofactor/inhibitor binding site of SaIMPDH, confirming on-target antibacterial activity. These mutations decreased the binding of all inhibitors tested, but also decreased catalytic activity. Nonetheless, the resistant strains had comparable virulence to wild-type bacteria. Surprisingly, strains expressing catalytically inactive SaIMPDH displayed only a mild virulence defect. Collectively these observations question the vulnerability of the enzymatic activity of SaIMPDH as a target for the treatment of S. aureus infections, suggesting other functions of this protein may be responsible for its role in infection.
- Published
- 2021