scholarly journals High-Throughput Screening Identifies Novel Inhibitors of the Acetyltransferase Activity of Escherichia coli GlmU

2009 ◽  
Vol 53 (6) ◽  
pp. 2306-2311 ◽  
Author(s):  
Mark P. Pereira ◽  
Jan E. Blanchard ◽  
Cecilia Murphy ◽  
Steven L. Roderick ◽  
Eric D. Brown
Keyword(s):  
Escherichia Coli ◽  
High Throughput ◽  
High Throughput Screening ◽  
Coenzyme A ◽  
Teichoic Acid ◽  
Wall Teichoic Acid ◽  
Acetyl Coenzyme A ◽  
Acetyltransferase Activity ◽  
Acetyl Coenzyme ◽  
Cell Surface Carbohydrate

ABSTRACT The bifunctional GlmU protein catalyzes the formation of UDP-N-acetylglucosamine in a two-step reaction using the substrates glucosamine-1-phosphate, acetyl coenzyme A, and UTP. This metabolite is a common precursor to the synthesis of bacterial cell surface carbohydrate polymers, such as peptidoglycan, lipopolysaccharide, and wall teichoic acid that are involved in the maintenance of cell shape, permeability, and virulence. The C-terminal acetyltransferase domain of GlmU exhibits structural and mechanistic features unique to bacterial UDP-N-acetylglucosamine synthases, making it an excellent target for antibacterial design. In the work described here, we have developed an absorbance-based assay to screen diverse chemical libraries in high throughput for inhibitors to the acetyltransferase reaction of Escherichia coli GlmU. The primary screen of 50,000 drug-like small molecules identified 63 hits, 37 of which were specific to acetyltransferase activity of GlmU. Secondary screening and mode-of-inhibition studies identified potent inhibitors where compound binding within the acetyltransferase active site was requisite on the presence of glucosamine-1-phosphate and were competitive with the substrate acetyl coenzyme A. These molecules may represent novel chemical scaffolds for future antimicrobial drug discovery. In addition, this work outlines the utility of catalytic variants in targeting specific activities of bifunctional enzymes in high-throughput screens.

Escherichia coli acetyl-coenzyme A carboxylase: Characterization and development of a high-throughput assay

2006 ◽  
Vol 349 (2) ◽  
pp. 268-276 ◽  
Author(s):  
Aileen Soriano ◽  
Anthony D. Radice ◽  
Amy H. Herbitter ◽  
Erik F. Langsdorf ◽  
Jill M. Stafford ◽  
...  
Keyword(s):  
Escherichia Coli ◽  
High Throughput ◽  
Coenzyme A ◽  
Acetyl Coenzyme A ◽  
Acetyl Coenzyme ◽  
High Throughput Assay ◽  
Acetyl Coenzyme A Carboxylase

scholarly journals Antagonism screen for inhibitors of bacterial cell wall biogenesis uncovers an inhibitor of undecaprenyl diphosphate synthase

2015 ◽  
Vol 112 (35) ◽  
pp. 11048-11053 ◽  
Author(s):  
Maya A. Farha ◽  
Tomasz L. Czarny ◽  
Cullen L. Myers ◽  
Liam J. Worrall ◽  
Shawn French ◽  
...  
Keyword(s):  
Cell Wall ◽  
High Throughput ◽  
High Throughput Screening ◽  
Teichoic Acid ◽  
Antibacterial Drug ◽  
Wall Teichoic Acid ◽  
Chemical Screening ◽  
Cellular Processes ◽  
Cell Wall Biogenesis ◽  
Antagonistic Interactions

Drug combinations are valuable tools for studying biological systems. Although much attention has been given to synergistic interactions in revealing connections between cellular processes, antagonistic interactions can also have tremendous value in elucidating genetic networks and mechanisms of drug action. Here, we exploit the power of antagonism in a high-throughput screen for molecules that suppress the activity of targocil, an inhibitor of the wall teichoic acid (WTA) flippase in Staphylococcus aureus. Well-characterized antagonism within the WTA biosynthetic pathway indicated that early steps would be sensitive to this screen; however, broader interactions with cell wall biogenesis components suggested that it might capture additional targets. A chemical screening effort using this approach identified clomiphene, a widely used fertility drug, as one such compound. Mechanistic characterization revealed the target was the undecaprenyl diphosphate synthase, an enzyme that catalyzes the synthesis of a polyisoprenoid essential for both peptidoglycan and WTA synthesis. The work sheds light on mechanisms contributing to the observed suppressive interactions of clomiphene and in turn reveals aspects of the biology that underlie cell wall synthesis in S. aureus. Further, this effort highlights the utility of antagonistic interactions both in high-throughput screening and in compound mode of action studies. Importantly, clomiphene represents a lead for antibacterial drug discovery.

scholarly journals Repression of Escherichia coli PhoP-PhoQ Signaling by Acetate Reveals a Regulatory Role for Acetyl Coenzyme A

2003 ◽  
Vol 185 (8) ◽  
pp. 2563-2570 ◽  
Author(s):  
Joseph A. Lesley ◽  
Carey D. Waldburger
Keyword(s):  
Escherichia Coli ◽  
Coenzyme A ◽  
Inhibition Mechanism ◽  
Acetate Metabolism ◽  
Dependent Manner ◽  
Two Component System ◽  
Acetyl Coenzyme A ◽  
Component System ◽  
Acetyl Coenzyme ◽  
Two Component

ABSTRACT The PhoP-PhoQ two-component system regulates the transcription of numerous genes in response to changes in extracellular divalent cation concentration and pH. Here we demonstrate that the Escherichia coli PhoP-PhoQ two-component system also responds to acetate. Signaling by the E. coli PhoP-PhoQ system was repressed during growth in acetate (≥25 mM) in a PhoQ-dependent manner. The periplasmic sensor domain of PhoQ was not required for acetate to repress signaling. Acetate-mediated repression of the PhoP-PhoQ system was not related to changes in the intracellular concentration of acetate metabolites such as acetyl-phosphate or acetyladenylate. Genetic analysis of acetate metabolism pathways suggested that a perturbation of acetyl coenzyme A turnover was the cause of decreased PhoP-PhoQ signaling during growth in acetate. Consistent with this hypothesis, intracellular acetyl coenzyme A levels rose during growth in the presence of exogenous acetate. Acetyl coenzyme A inhibited the autokinase activity of PhoQ in vitro, suggesting that the in vivo repressing effect may be due to a direct inhibition mechanism.

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