Spencer O. Moen scite author profile

f Macrophage infectivity potentiators (Mips) are immunophilin proteins and essential virulence factors for a range of pathogenic organisms. We applied a structural biology approach to characterize a Mip from Burkholderia pseudomallei (BpML1), the causative agent of melioidosis. Crystal structure and nuclear magnetic resonance analyses of BpML1 in complex with known macrocyclics and other derivatives led to the identification of a key chemical scaffold. This scaffold possesses inhibitory potency for BpML1 without the immunosuppressive components of related macrocyclic agents. Biophysical characterization of a compound series with this scaffold allowed binding site specificity in solution and potency determinations for rank ordering the set. The best compounds in this series possessed a low-micromolar affinity for BpML1, bound at the site of enzymatic activity, and inhibited a panel of homologous Mip proteins from other pathogenic bacteria, without demonstrating toxicity in human macrophages. Importantly, the in vitro activity of BpML1 was reduced by these compounds, leading to decreased macrophage infectivity and intracellular growth of Burkholderia pseudomallei. These compounds offer the potential for activity against a new class of antimicrobial targets and present the utility of a structure-based approach for novel antimicrobial drug discovery.

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Saturation Transfer Difference NMR for Fragment Screening

Begley¹,

Moen²,

Pierce³

et al. 2013

CP Chemical Biology

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Fragment screening by saturation transfer difference nuclear magnetic resonance (STD‐NMR) is a robust method for identifying small molecule binders and is well suited to a broad set of biological targets. STD‐NMR is exquisitely sensitive for detecting weakly binding compounds (a common characteristic of fragments), which is a crucial step in finding promising compounds for a fragment‐based drug discovery campaign. This protocol describes the development of a library suitable for STD‐NMR fragment screening, as well as preparation of protein samples, optimization of experimental conditions, and procedures for data collection and analysis. Curr. Protoc. Chem. Biol. 5:251‐268 © 2013 by John Wiley & Sons, Inc.

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Structures of prostaglandin F synthase from the protozoaLeishmania majorandTrypanosoma cruziwith NADP

Moen

Fairman

Barnes

et al. 2015

Acta Crystallogr F Struct Biol Commun

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The crystal structures of prostaglandin F synthase (PGF) from both Leishmania major and Trypanosoma cruzi with and without their cofactor NADP have been determined to resolutions of 2.6 Å for T. cruzi PGF, 1.25 Å for T. cruzi PGF with NADP, 1.6 Å for L. major PGF and 1.8 Å for L. major PGF with NADP. These structures were determined by molecular replacement to a final R factor of less than 18.6% (R free of less than 22.9%). PGF in the infectious protozoa L. major and T. cruzi is a potential therapeutic target.

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Structure of theReston ebolavirusVP30 C-terminal domain

Clifton¹,

Kirchdoerfer

Atkins³

et al. 2014

Acta Cryst Sect F

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PDB reference: Reston ebolavirus VP30 C-terminal domain, 3v7oThe ebolaviruses can cause severe hemorrhagic fever. Essential to the ebolavirus life cycle is the protein VP30, which serves as a transcriptional cofactor. Here, the crystal structure of the C-terminal, NP-binding domain of VP30 from Reston ebolavirus is presented. Reston VP30 and Ebola VP30 both form homodimers, but the dimeric interfaces are rotated relative to each other, suggesting subtle inherent differences or flexibility in the dimeric interface.

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Spencer O. Moen

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

Saturation Transfer Difference NMR for Fragment Screening

Structures of prostaglandin F synthase from the protozoaLeishmania majorandTrypanosoma cruziwith NADP

Structure of theReston ebolavirusVP30 C-terminal domain

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