C.D. Cukier scite author profile

The Far UpStream Element (FUSE) regulatory system promotes a peak in the concentration of c-Myc during cell cycle. First, the FBP transcriptional activator binds to the FUSE DNA element upstream of the c-myc promoter. Then, FBP recruits its specific repressor (FIR) which acts as an on/off transcriptional switch. Here we describe the molecular basis of FIR recruitment showing that the tandem RNA recognitions motifs of FIR provide a platform for independent FUSE DNA and FBP protein binding and explaining the structural basis of the reversibility of the FBP-FIR interaction. We also show that the physical coupling between FBP and FIR is modulated by a flexible linker positioned sequentially to the recruiting element. Our data explain how the FUSE system regulates precisely c-myc transcription and suggest that a small change in FBP–FIR affinity leads to a substantial effect on c-Myc concentration.

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Discovery of an Allosteric Inhibitor Binding Site in 3-Oxo-acyl-ACP Reductase from Pseudomonas aeruginosa

Cukier

Hope²,

Elamin

et al. 2013

ACS Chem. Biol.

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3-Oxo-acyl-acyl carrier protein (ACP) reductase (FabG) plays a key role in the bacterial fatty acid synthesis II system in pathogenic microorganisms, which has been recognized as a potential drug target. FabG catalyzes reduction of a 3-oxo-acyl-ACP intermediate during the elongation cycle of fatty acid biosynthesis. Here, we report gene deletion experiments that support the essentiality of this gene in P. aeruginosa and the identification of a number of small molecule FabG inhibitors with IC50 values in the nanomolar to low micromolar range and good physicochemical properties. Structural characterization of 16 FabG-inhibitor complexes by X-ray crystallography revealed that the compounds bind at a novel allosteric site located at the FabG subunit–subunit interface. Inhibitor binding relies primarily on hydrophobic interactions, but specific hydrogen bonds are also observed. Importantly, the binding cavity is formed upon complex formation and therefore would not be recognized by virtual screening approaches. The structure analysis further reveals that the inhibitors act by inducing conformational changes that propagate to the active site, resulting in a displacement of the catalytic triad and the inability to bind NADPH.

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Role of Fluorination in the Histone Deacetylase 6 (HDAC6) Selectivity of Benzohydroxamate-Based Inhibitors

Sandrone

Cukier²,

Źrubek³

et al. 2021

ACS Med. Chem. Lett.

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Nonselective histone deacetylase (HDAC) inhibitors show dose-limiting side effects due to the inhibition of multiple, essential HDAC subtypes that can be limited or prevented by restricting their selectivity. We herein report the crystal structures of zebrafish HDAC6 catalytic domain 2 (zHDAC6-CD2) in complex with the selective HDAC6 inhibitors ITF3756 and ITF3985 and shed light on the role of fluorination in the selectivity of benzohydroxamate-based structures over class I isoforms. The reason for the enhancement in the selectivity of the benzohydroxamate-based compounds is the presence of specific interactions between the fluorinated linker and the key residues Gly582, Ser531, and His614 of zHDAC6, which are hindered in class I HDAC isoforms by the presence of an Aspartate that replaces Ser531. These results can be used in the design and development of novel, highly selective HDAC6 inhibitors.

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The AEROPATH project targetingPseudomonas aeruginosa: crystallographic studies for assessment of potential targets in early-stage drug discovery

Moynié

Schnell

McMahon

et al. 2012

Acta Crystallogr F Struct Biol Cryst Commun

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C.D. Cukier

Difluoromethyl-1,3,4-oxadiazoles are slow-binding substrate analog inhibitors of histone deacetylase 6 with unprecedented isotype selectivity

Molecular basis of FIR-mediated c-myc transcriptional control

Discovery of an Allosteric Inhibitor Binding Site in 3-Oxo-acyl-ACP Reductase from Pseudomonas aeruginosa

Role of Fluorination in the Histone Deacetylase 6 (HDAC6) Selectivity of Benzohydroxamate-Based Inhibitors

The AEROPATH project targetingPseudomonas aeruginosa: crystallographic studies for assessment of potential targets in early-stage drug discovery

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