Claire Blanger scite author profile

Claire Blanger

3Publications

7Citation Statements Received

68Citation Statements Given

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102

Affiliations

University of Ottawa, Molécules d'Intérêt Biologique, Université de Toulouse

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Phosphopantetheinyl transferase binding and inhibition by amidino-urea and hydroxypyrimidinethione compounds

Carivenc

Maveyraud

Blanger

et al. 2021

Sci Rep

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Owing to their role in activating enzymes essential for bacterial viability and pathogenicity, phosphopantetheinyl transferases represent novel and attractive drug targets. In this work, we examined the inhibitory effect of the aminido-urea 8918 compound against the phosphopantetheinyl transferases PptAb from Mycobacterium abscessus and PcpS from Pseudomonas aeruginosa, two pathogenic bacteria associated with cystic fibrosis and bronchiectasis, respectively. Compound 8918 exhibits inhibitory activity against PptAb but displays no activity against PcpS in vitro, while no antimicrobial activity against Mycobacterium abscessus or Pseudomonas aeruginosa could be detected. X-ray crystallographic analysis of 8918 bound to PptAb-CoA alone and in complex with an acyl carrier protein domain in addition to the crystal structure of PcpS in complex with CoA revealed the structural basis for the inhibition mechanism of PptAb by 8918 and its ineffectiveness against PcpS. Finally, in crystallo screening of potent inhibitors from the National Cancer Institute library identified a hydroxypyrimidinethione derivative that binds PptAb. Both compounds could serve as scaffolds for the future development of phosphopantetheinyl transferases inhibitors.

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Investigation of Masked N‐Acyl‐N‐isocyanates: Support for Oxadiazolones as Blocked N‐Isocyanate Precursors

Gagné-Monfette

Vincent-Rocan

Lutes

et al. 2021

Chemistry A European J

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In contrast to carbon-substituted isocyanates that are common building blocks, N-substituted isocyanates remain underdeveloped and reports on their N-acyl derivatives (i. e. amido-isocyanates) are exceedingly rare. Herein, amido-isocyanates were investigated in the context of syntheses of aza-tripeptide and hydantoins subunits starting from simple bench-stable precursors. A key finding is that the amido-isocyanate formed in situ cyclized to yield an oxadiazo-lone, and that under suitable reaction conditions this heterocycle is a traceless blocked (masked) N-isocyanate. Using organic bases as catalysts and upon heating, oxadiazolone formation is observed, and various nucleophiles to provide the desired aza-dipeptides or hydantoins in moderate to high yields. Further support for an amido-isocyanate intermediate was obtained using carboxylic acids as nucleophiles, affording N-acylhydrazide products.

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Structure of the 4'-phosphopantetheinyl transferase PptAb from Mycobacterium abscessus in complex with Coenzyme A and N-(2,6-diethylphenyl)-N'-(N-ethylcarbamimidoyl)urea

Maveyraud¹,

Carivenc²,

Blanger³

et al. 2021

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Claire Blanger

Phosphopantetheinyl transferase binding and inhibition by amidino-urea and hydroxypyrimidinethione compounds

Investigation of Masked N‐Acyl‐N‐isocyanates: Support for Oxadiazolones as Blocked N‐Isocyanate Precursors

Structure of the 4'-phosphopantetheinyl transferase PptAb from Mycobacterium abscessus in complex with Coenzyme A and N-(2,6-diethylphenyl)-N'-(N-ethylcarbamimidoyl)urea

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