The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation

In a previous phylogenetic study of the family of pyruvate kinase EC (2.7.1.40), a cluster with Glu117 and another with Lys117 were found (numbered according to the rabbit muscle enzyme). The sequences with Glu117 have been found to be K(+)-dependent, whereas those with Lys117 were K(+)-independent....

Descripción completa

Detalles Bibliográficos
Autores principales: Guerrero-Mendiola, Carlos, García-Trejo, José J., Encalada, Rusely, Saavedra, Emma, Ramírez-Silva, Leticia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5501398/
https://www.ncbi.nlm.nih.gov/pubmed/28686591
http://dx.doi.org/10.1371/journal.pone.0178673
_version_ 1783248776693022720
author Guerrero-Mendiola, Carlos
García-Trejo, José J.
Encalada, Rusely
Saavedra, Emma
Ramírez-Silva, Leticia
author_facet Guerrero-Mendiola, Carlos
García-Trejo, José J.
Encalada, Rusely
Saavedra, Emma
Ramírez-Silva, Leticia
author_sort Guerrero-Mendiola, Carlos
collection PubMed
description In a previous phylogenetic study of the family of pyruvate kinase EC (2.7.1.40), a cluster with Glu117 and another with Lys117 were found (numbered according to the rabbit muscle enzyme). The sequences with Glu117 have been found to be K(+)-dependent, whereas those with Lys117 were K(+)-independent. Interestingly, only γ-proteobacteria exhibit sequences in both branches of the tree. In this context, it was explored whether these phylogenetically distinct pyruvate kinases were both expressed and contribute to the pyruvate kinase activity in Vibrio cholerae. The main findings of this work showed that the isozyme with Glu117 is an active K(+)-dependent enzyme. At the same substrate concentration, its V(max) in the absence of fructose 1,6 bisphosphate was 80% of that with its effector. This result is in accordance with the non-essential activation described by allosteric ligands for most pyruvate kinases. In contrast, the pyruvate kinase with Lys117 was a K(+)-independent enzyme displaying an allosteric activation by ribose 5-phosphate. At the same substrate concentration, its activity without the effector was 0.5% of the one obtained in the presence of ribose 5-phosphate, indicating that this sugar monophosphate is a strong activator of this enzyme. This absolute allosteric dependence is a novel feature of pyruvate kinase activity. Interestingly, in the K(+)-independent enzyme, Mn(2+) may “mimic” the allosteric effect of Rib 5-P. Despite their different allosteric behavior, both isozymes display a rapid equilibrium random order kinetic mechanism. The intracellular concentrations of fructose 1,6-bisphosphate and ribose 5-phosphate in Vibrio cholerae have been experimentally verified to be sufficient to induce maximal activation of both enzymes. In addition, Western blot analysis indicated that both enzymes were co-expressed. Therefore, it is concluded that VcIPK and VcIIPK contribute to the activity of pyruvate kinase in this γ-proteobacterium.
format Online
Article
Text
id pubmed-5501398
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-55013982017-07-25 The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation Guerrero-Mendiola, Carlos García-Trejo, José J. Encalada, Rusely Saavedra, Emma Ramírez-Silva, Leticia PLoS One Research Article In a previous phylogenetic study of the family of pyruvate kinase EC (2.7.1.40), a cluster with Glu117 and another with Lys117 were found (numbered according to the rabbit muscle enzyme). The sequences with Glu117 have been found to be K(+)-dependent, whereas those with Lys117 were K(+)-independent. Interestingly, only γ-proteobacteria exhibit sequences in both branches of the tree. In this context, it was explored whether these phylogenetically distinct pyruvate kinases were both expressed and contribute to the pyruvate kinase activity in Vibrio cholerae. The main findings of this work showed that the isozyme with Glu117 is an active K(+)-dependent enzyme. At the same substrate concentration, its V(max) in the absence of fructose 1,6 bisphosphate was 80% of that with its effector. This result is in accordance with the non-essential activation described by allosteric ligands for most pyruvate kinases. In contrast, the pyruvate kinase with Lys117 was a K(+)-independent enzyme displaying an allosteric activation by ribose 5-phosphate. At the same substrate concentration, its activity without the effector was 0.5% of the one obtained in the presence of ribose 5-phosphate, indicating that this sugar monophosphate is a strong activator of this enzyme. This absolute allosteric dependence is a novel feature of pyruvate kinase activity. Interestingly, in the K(+)-independent enzyme, Mn(2+) may “mimic” the allosteric effect of Rib 5-P. Despite their different allosteric behavior, both isozymes display a rapid equilibrium random order kinetic mechanism. The intracellular concentrations of fructose 1,6-bisphosphate and ribose 5-phosphate in Vibrio cholerae have been experimentally verified to be sufficient to induce maximal activation of both enzymes. In addition, Western blot analysis indicated that both enzymes were co-expressed. Therefore, it is concluded that VcIPK and VcIIPK contribute to the activity of pyruvate kinase in this γ-proteobacterium. Public Library of Science 2017-07-07 /pmc/articles/PMC5501398/ /pubmed/28686591 http://dx.doi.org/10.1371/journal.pone.0178673 Text en © 2017 Guerrero-Mendiola et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Guerrero-Mendiola, Carlos
García-Trejo, José J.
Encalada, Rusely
Saavedra, Emma
Ramírez-Silva, Leticia
The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation
title The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation
title_full The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation
title_fullStr The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation
title_full_unstemmed The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation
title_short The contribution of two isozymes to the pyruvate kinase activity of Vibrio cholerae: One K(+)-dependent constitutively active and another K(+)-independent with essential allosteric activation
title_sort contribution of two isozymes to the pyruvate kinase activity of vibrio cholerae: one k(+)-dependent constitutively active and another k(+)-independent with essential allosteric activation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5501398/
https://www.ncbi.nlm.nih.gov/pubmed/28686591
http://dx.doi.org/10.1371/journal.pone.0178673
work_keys_str_mv AT guerreromendiolacarlos thecontributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT garciatrejojosej thecontributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT encaladarusely thecontributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT saavedraemma thecontributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT ramirezsilvaleticia thecontributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT guerreromendiolacarlos contributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT garciatrejojosej contributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT encaladarusely contributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT saavedraemma contributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation
AT ramirezsilvaleticia contributionoftwoisozymestothepyruvatekinaseactivityofvibriocholeraeonekdependentconstitutivelyactiveandanotherkindependentwithessentialallostericactivation

Ejemplares similares