A Structural Biology Approach Enables the Development of Antimicrobials Targeting Bacterial Immunophilins

Begley, Darren W.; Fox, David; Jenner, Dominic C.; Juli, Christina; Pierce, Phillip G.; Abendroth, Jan; Muruthi, Muigai; Safford, Kris; Anderson, Vanessa; Atkins, Kateri; Barnes, Steve; Moen, Spencer O.; Raymond, Amy; Stacy, Robin; Myler, Peter J.; Staker, Bart L.; Harmer, Nicholas J.; Norville, Isobel H.; Holzgrabe, Ulrike; Sarkar‐Tyson, Mitali; Edwards, Thomas E.; Lorimer, Donald D.

doi:10.1128/aac.01875-13

Cited by 19 publications

(32 citation statements)

References 58 publications

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“…However, the compounds inhibited the prototypic human FKBP12 30-fold more efficiently than Mip, indicating low specificity for bacterial FKBPs (Juli et al, 2011 ). In a follow-up study, the inhibitory activities of these derivatives were also confirmed for BpML1 and Mip-like proteins of the pathogens Yersinia pestis and Francisella tularensis (Begley et al, 2014 ).…”

Section: Discussionmentioning

confidence: 83%

Novel Cycloheximide Derivatives Targeting the Moonlighting Protein Mip Exhibit Specific Antimicrobial Activity Against Legionella pneumophila

Rasch

Theuerkorn

Ünal

et al. 2015

Front. Bioeng. Biotechnol.

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Macrophage infectivity potentiator (Mip) and Mip-like proteins are virulence factors in a wide range of pathogens including Legionella pneumophila. These proteins belong to the FK506 binding protein (FKBP) family of peptidyl-prolyl-cis/trans-isomerases (PPIases). In L. pneumophila, the PPIase activity of Mip is required for invasion of macrophages, transmigration through an in vitro lung–epithelial barrier, and full virulence in the guinea pig infection model. Additionally, Mip is a moonlighting protein that binds to collagen IV in the extracellular matrix. Here, we describe the development and synthesis of cycloheximide derivatives with adamantyl moieties as novel FKBP ligands, and analyze their effect on the viability of L. pneumophila and other bacteria. All compounds efficiently inhibited PPIase activity of the prototypic human FKBP12 as well as Mip with IC50-values as low as 180 nM and 1.7 μM, respectively. Five of these derivatives inhibited the growth of L. pneumophila at concentrations of 30–40 μM, but exhibited no effect on other tested bacterial species indicating a specific spectrum of antibacterial activity. The derivatives carrying a 3,5-dimethyladamantan-1-[yl]acetamide substitution (MT_30.32), and a 3-ethyladamantan-1-[yl]acetamide substitution (MT_30.51) had the strongest effects in PPIase- and liquid growth assays. MT_30.32 and MT_30.51 were also inhibitory in macrophage infection studies without being cytotoxic. Accordingly, by applying a combinatorial approach, we were able to generate novel, hybrid inhibitors consisting of cycloheximide and adamantane, two known FKBP inhibitors that interact with different parts of the PPIase domain, respectively. Interestingly, despite the proven Mip-inhibitory activity, the viability of a Mip-deficient strain was affected to the same degree as its wild type. Hence, we also propose that cycloheximide derivatives with adamantyl moieties are potent PPIase inhibitors with multiple targets in L. pneumophila.

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Section: Discussionmentioning

confidence: 83%

Novel Cycloheximide Derivatives Targeting the Moonlighting Protein Mip Exhibit Specific Antimicrobial Activity Against Legionella pneumophila

Rasch

Theuerkorn

Ünal

et al. 2015

Front. Bioeng. Biotechnol.

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“…All but one of the tested substances were also able to prevent B. mallei-induced cytotoxicity in J744A.1 macrophage cells. However, here again no strict correlation to the PPIase inhibitory activity could be drawn (Begley et al, 2014).…”

Section: Pipecolinic Acid Derivativesmentioning

confidence: 58%

“…Recently, small molecule inhibitors based on this core inhibitory structure were tested on Mip and BpML1 (Begley et al, 2014;Juli et al, 2011). In order to find novel inhibitors of Mip, two previously reported pipecoline ring containing inhibitors A and B with K i (app) of 10 nM and 0.23 µM, respectively, were used as lead structures.…”

Section: Pipecolinic Acid Derivativesmentioning

confidence: 99%

FKBPs in bacterial infections

Ünal

Steinert

2015

Biochimica et Biophysica Acta (BBA) - General Subjects

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“…Numerous NMR experiments, based on differences in the NMR properties between big (target) and small (fragment) molecules, have been designed to identify and validate lead compounds [24]. These experiments, some of which can be used in high-throughput mode, include WaterLOGSY [26], SLAPSTIC [27], TINS [28], transferred NOEs [29] DOSY-NMR [30] and saturation transfer difference (STD)-NMR [31, 32] For example, STD-NMR was used to identify a series of compounds with low-micromolar affinity for the macrophage infectivity potentiator BpML1 from Burkholderia pseudomallei , the etiological agent for melioidosis [33]. In terms of lead optimization, the use of NMR to determine structures for protein less than ~25 kDa in size is well established[21, 34].…”

Section: Nuclear Magnetic Resonance (Nmr) Spectroscopy In Antibacterimentioning

confidence: 99%

Recent contributions of structure-based drug design to the development of antibacterial compounds

Staker

Buchko

Myler

2015

Current Opinion in Microbiology

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According to a Pew Research study published in February 2015, there are 37 antibacterial programs currently in clinical trials in the United States. Protein structure-based methods for guiding small molecule design were used in at least 34 of these programs. Typically, this occurred at an early stage (drug discovery and/or lead optimization) prior to an Investigational New Drug (IND) application, although sometimes in retrospective studies to rationalize biological activity. Recognizing that structure-based methods are resource-intensive and often require specialized equipment and training, the NIAID has funded two Structural Genomics Centers to determine structures of infectious disease species proteins with the aim of supporting individual investigators’ research programs with structural biology methods.

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A Structural Biology Approach Enables the Development of Antimicrobials Targeting Bacterial Immunophilins

Cited by 19 publications

References 58 publications

Novel Cycloheximide Derivatives Targeting the Moonlighting Protein Mip Exhibit Specific Antimicrobial Activity Against Legionella pneumophila

Novel Cycloheximide Derivatives Targeting the Moonlighting Protein Mip Exhibit Specific Antimicrobial Activity Against Legionella pneumophila

FKBPs in bacterial infections

Recent contributions of structure-based drug design to the development of antibacterial compounds

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