A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype

We present a potential mechanism for emergence of catalytic activity that is essential for survival, from a non-catalytic protein fold. The type B dihydrofolate reductase (DfrB) family of enzymes were first identified in pathogenic bacteria because their dihydrofolate reductase activity is sufficien...

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Autores principales: Lemay-St-Denis, Claudèle, Alejaldre, Lorea, Jemouai, Zakaria, Lafontaine, Kiana, St-Aubin, Maxime, Hitache, Katia, Valikhani, Donya, Weerasinghe, Nuwani W., Létourneau, Myriam, Thibodeaux, Christopher J., Doucet, Nicolas, Baron, Christian, Copp, Janine N., Pelletier, Joelle N.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society 2023
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9835603/
https://www.ncbi.nlm.nih.gov/pubmed/36633286
http://dx.doi.org/10.1098/rstb.2022.0040
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author Lemay-St-Denis, Claudèle
Alejaldre, Lorea
Jemouai, Zakaria
Lafontaine, Kiana
St-Aubin, Maxime
Hitache, Katia
Valikhani, Donya
Weerasinghe, Nuwani W.
Létourneau, Myriam
Thibodeaux, Christopher J.
Doucet, Nicolas
Baron, Christian
Copp, Janine N.
Pelletier, Joelle N.
author_facet Lemay-St-Denis, Claudèle
Alejaldre, Lorea
Jemouai, Zakaria
Lafontaine, Kiana
St-Aubin, Maxime
Hitache, Katia
Valikhani, Donya
Weerasinghe, Nuwani W.
Létourneau, Myriam
Thibodeaux, Christopher J.
Doucet, Nicolas
Baron, Christian
Copp, Janine N.
Pelletier, Joelle N.
author_sort Lemay-St-Denis, Claudèle
collection PubMed
description We present a potential mechanism for emergence of catalytic activity that is essential for survival, from a non-catalytic protein fold. The type B dihydrofolate reductase (DfrB) family of enzymes were first identified in pathogenic bacteria because their dihydrofolate reductase activity is sufficient to provide trimethoprim (TMP) resistance. DfrB enzymes are described as poorly evolved as a result of their unusual structural and kinetic features. No characterized protein shares sequence homology with DfrB enzymes; how they evolved to emerge in the modern resistome is unknown. In this work, we identify DfrB homologues from a database of putative and uncharacterized proteins. These proteins include an SH3-like fold homologous to the DfrB enzymes, embedded in a variety of additional structural domains. By means of functional, structural and biophysical characterization, we demonstrate that these distant homologues and their extracted SH3-like fold can display dihydrofolate reductase activity and confer TMP resistance. We provide evidence of tetrameric assembly and catalytic mechanism analogous to that of DfrB enzymes. These results contribute, to our knowledge, the first insights into a potential evolutionary path taken by this SH3-like fold to emerge in the modern resistome following introduction of TMP. This article is part of the theme issue ‘Reactivity and mechanism in chemical and synthetic biology’.
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spelling pubmed-98356032023-01-20 A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype Lemay-St-Denis, Claudèle Alejaldre, Lorea Jemouai, Zakaria Lafontaine, Kiana St-Aubin, Maxime Hitache, Katia Valikhani, Donya Weerasinghe, Nuwani W. Létourneau, Myriam Thibodeaux, Christopher J. Doucet, Nicolas Baron, Christian Copp, Janine N. Pelletier, Joelle N. Philos Trans R Soc Lond B Biol Sci Articles We present a potential mechanism for emergence of catalytic activity that is essential for survival, from a non-catalytic protein fold. The type B dihydrofolate reductase (DfrB) family of enzymes were first identified in pathogenic bacteria because their dihydrofolate reductase activity is sufficient to provide trimethoprim (TMP) resistance. DfrB enzymes are described as poorly evolved as a result of their unusual structural and kinetic features. No characterized protein shares sequence homology with DfrB enzymes; how they evolved to emerge in the modern resistome is unknown. In this work, we identify DfrB homologues from a database of putative and uncharacterized proteins. These proteins include an SH3-like fold homologous to the DfrB enzymes, embedded in a variety of additional structural domains. By means of functional, structural and biophysical characterization, we demonstrate that these distant homologues and their extracted SH3-like fold can display dihydrofolate reductase activity and confer TMP resistance. We provide evidence of tetrameric assembly and catalytic mechanism analogous to that of DfrB enzymes. These results contribute, to our knowledge, the first insights into a potential evolutionary path taken by this SH3-like fold to emerge in the modern resistome following introduction of TMP. This article is part of the theme issue ‘Reactivity and mechanism in chemical and synthetic biology’. The Royal Society 2023-02-27 2023-01-11 /pmc/articles/PMC9835603/ /pubmed/36633286 http://dx.doi.org/10.1098/rstb.2022.0040 Text en © 2023 The Authors. https://creativecommons.org/licenses/by/4.0/Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, provided the original author and source are credited.
spellingShingle Articles
Lemay-St-Denis, Claudèle
Alejaldre, Lorea
Jemouai, Zakaria
Lafontaine, Kiana
St-Aubin, Maxime
Hitache, Katia
Valikhani, Donya
Weerasinghe, Nuwani W.
Létourneau, Myriam
Thibodeaux, Christopher J.
Doucet, Nicolas
Baron, Christian
Copp, Janine N.
Pelletier, Joelle N.
A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
title A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
title_full A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
title_fullStr A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
title_full_unstemmed A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
title_short A conserved SH3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
title_sort conserved sh3-like fold in diverse putative proteins tetramerizes into an oxidoreductase providing an antimicrobial resistance phenotype
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9835603/
https://www.ncbi.nlm.nih.gov/pubmed/36633286
http://dx.doi.org/10.1098/rstb.2022.0040
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