Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis

We report a new class of thiophene (TP) compounds that kill Mycobacterium tuberculosis (Mtb) by the novel mechanism of Pks13 inhibition. An F79S mutation near the catalytic Ser-55 site in Pks13 conferred TP-resistance in Mtb. Over-expression of wild-type pks13 resulted in TP-resistance and over-expr...

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Autores principales: Wilson, Regina, Kumar, Pradeep, Parashar, Vijay, Vilchèze, Catherine, Veyron-Churlet, Romain, Freundlich, Joel S., Barnes, S. Whitney, Walker, John R., Szymonifka, Michael J., Marchiano, Emily, Shenai, Shubhada, Colangeli, Roberto, Jacobs, William R., Neiditch, Matthew B., Kremer, Laurent, Alland, David
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2013
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3720791/
https://www.ncbi.nlm.nih.gov/pubmed/23770708
http://dx.doi.org/10.1038/nchembio.1277
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author Wilson, Regina
Kumar, Pradeep
Parashar, Vijay
Vilchèze, Catherine
Veyron-Churlet, Romain
Freundlich, Joel S.
Barnes, S. Whitney
Walker, John R.
Szymonifka, Michael J.
Marchiano, Emily
Shenai, Shubhada
Colangeli, Roberto
Jacobs, William R.
Neiditch, Matthew B.
Kremer, Laurent
Alland, David
author_facet Wilson, Regina
Kumar, Pradeep
Parashar, Vijay
Vilchèze, Catherine
Veyron-Churlet, Romain
Freundlich, Joel S.
Barnes, S. Whitney
Walker, John R.
Szymonifka, Michael J.
Marchiano, Emily
Shenai, Shubhada
Colangeli, Roberto
Jacobs, William R.
Neiditch, Matthew B.
Kremer, Laurent
Alland, David
author_sort Wilson, Regina
collection PubMed
description We report a new class of thiophene (TP) compounds that kill Mycobacterium tuberculosis (Mtb) by the novel mechanism of Pks13 inhibition. An F79S mutation near the catalytic Ser-55 site in Pks13 conferred TP-resistance in Mtb. Over-expression of wild-type pks13 resulted in TP-resistance and over-expression of the F79S pks13 mutant conferred high-level resistance. In vitro, TP inhibited fatty acyl-AMP loading onto Pks13. TP inhibited mycolic acid biosynthesis in wild-type Mtb, but to a much lesser extent in TP-resistant Mtb. TP treatment was bactericidal and equivalent to the first-line drug isoniazid, but it was less likely to permit emergent resistance. Combined isoniazid and TP treatment exhibited sterilizing activity. Computational-docking identified a possible TP-binding groove within the Pks13 ACP domain. This study confirms that Mtb Pks13 is required for mycolic acid biosynthesis, validates it as a druggable target and demonstrates the therapeutic potential of simultaneously inhibiting multiple targets in the same biosynthetic pathway.
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spelling pubmed-37207912014-02-01 Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis Wilson, Regina Kumar, Pradeep Parashar, Vijay Vilchèze, Catherine Veyron-Churlet, Romain Freundlich, Joel S. Barnes, S. Whitney Walker, John R. Szymonifka, Michael J. Marchiano, Emily Shenai, Shubhada Colangeli, Roberto Jacobs, William R. Neiditch, Matthew B. Kremer, Laurent Alland, David Nat Chem Biol Article We report a new class of thiophene (TP) compounds that kill Mycobacterium tuberculosis (Mtb) by the novel mechanism of Pks13 inhibition. An F79S mutation near the catalytic Ser-55 site in Pks13 conferred TP-resistance in Mtb. Over-expression of wild-type pks13 resulted in TP-resistance and over-expression of the F79S pks13 mutant conferred high-level resistance. In vitro, TP inhibited fatty acyl-AMP loading onto Pks13. TP inhibited mycolic acid biosynthesis in wild-type Mtb, but to a much lesser extent in TP-resistant Mtb. TP treatment was bactericidal and equivalent to the first-line drug isoniazid, but it was less likely to permit emergent resistance. Combined isoniazid and TP treatment exhibited sterilizing activity. Computational-docking identified a possible TP-binding groove within the Pks13 ACP domain. This study confirms that Mtb Pks13 is required for mycolic acid biosynthesis, validates it as a druggable target and demonstrates the therapeutic potential of simultaneously inhibiting multiple targets in the same biosynthetic pathway. 2013-06-16 2013-08 /pmc/articles/PMC3720791/ /pubmed/23770708 http://dx.doi.org/10.1038/nchembio.1277 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Wilson, Regina
Kumar, Pradeep
Parashar, Vijay
Vilchèze, Catherine
Veyron-Churlet, Romain
Freundlich, Joel S.
Barnes, S. Whitney
Walker, John R.
Szymonifka, Michael J.
Marchiano, Emily
Shenai, Shubhada
Colangeli, Roberto
Jacobs, William R.
Neiditch, Matthew B.
Kremer, Laurent
Alland, David
Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis
title Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis
title_full Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis
title_fullStr Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis
title_full_unstemmed Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis
title_short Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis
title_sort antituberculosis thiophenes define a requirement for pks13 in mycolic acid biosynthesis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3720791/
https://www.ncbi.nlm.nih.gov/pubmed/23770708
http://dx.doi.org/10.1038/nchembio.1277
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