Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection

Extracellular signal-regulated kinases 1 and 2 (ERK1/2) are dysregulated in many pervasive diseases. Recently, we discovered that ERK1/2 is oxidized by signal-generated hydrogen peroxide in various cell types. Since the putative sites of oxidation lie within or near ERK1/2’s ligand-binding surfaces,...

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Autores principales: Postiglione, Anthony E., Adams, Laquaundra L., Ekhator, Ese S., Odelade, Anuoluwapo E., Patwardhan, Supriya, Chaudhari, Meenal, Pardue, Avery S., Kumari, Anjali, LeFever, William A., Tornow, Olivia P., Kaoud, Tamer S., Neiswinger, Johnathan, Jeong, Jun Seop, Parsonage, Derek, Nelson, Kimberly J., Kc, Dukka B., Furdui, Cristina M., Zhu, Heng, Wommack, Andrew J., Dalby, Kevin N., Dong, Ming, Poole, Leslie B., Keyes, Jeremiah D., Newman, Robert H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10514464/
https://www.ncbi.nlm.nih.gov/pubmed/37744034
http://dx.doi.org/10.1016/j.isci.2023.107817
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author Postiglione, Anthony E.
Adams, Laquaundra L.
Ekhator, Ese S.
Odelade, Anuoluwapo E.
Patwardhan, Supriya
Chaudhari, Meenal
Pardue, Avery S.
Kumari, Anjali
LeFever, William A.
Tornow, Olivia P.
Kaoud, Tamer S.
Neiswinger, Johnathan
Jeong, Jun Seop
Parsonage, Derek
Nelson, Kimberly J.
Kc, Dukka B.
Furdui, Cristina M.
Zhu, Heng
Wommack, Andrew J.
Dalby, Kevin N.
Dong, Ming
Poole, Leslie B.
Keyes, Jeremiah D.
Newman, Robert H.
author_facet Postiglione, Anthony E.
Adams, Laquaundra L.
Ekhator, Ese S.
Odelade, Anuoluwapo E.
Patwardhan, Supriya
Chaudhari, Meenal
Pardue, Avery S.
Kumari, Anjali
LeFever, William A.
Tornow, Olivia P.
Kaoud, Tamer S.
Neiswinger, Johnathan
Jeong, Jun Seop
Parsonage, Derek
Nelson, Kimberly J.
Kc, Dukka B.
Furdui, Cristina M.
Zhu, Heng
Wommack, Andrew J.
Dalby, Kevin N.
Dong, Ming
Poole, Leslie B.
Keyes, Jeremiah D.
Newman, Robert H.
author_sort Postiglione, Anthony E.
collection PubMed
description Extracellular signal-regulated kinases 1 and 2 (ERK1/2) are dysregulated in many pervasive diseases. Recently, we discovered that ERK1/2 is oxidized by signal-generated hydrogen peroxide in various cell types. Since the putative sites of oxidation lie within or near ERK1/2’s ligand-binding surfaces, we investigated how oxidation of ERK2 regulates interactions with the model substrates Sub-D and Sub-F. These studies revealed that ERK2 undergoes sulfenylation at C159 on its D-recruitment site surface and that this modification modulates ERK2 activity differentially between substrates. Integrated biochemical, computational, and mutational analyses suggest a plausible mechanism for peroxide-dependent changes in ERK2-substrate interactions. Interestingly, oxidation decreased ERK2’s affinity for some D-site ligands while increasing its affinity for others. Finally, oxidation by signal-generated peroxide enhanced ERK1/2’s ability to phosphorylate ribosomal S6 kinase A1 (RSK1) in HeLa cells. Together, these studies lay the foundation for examining crosstalk between redox- and phosphorylation-dependent signaling at the level of kinase-substrate selection.
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spelling pubmed-105144642023-09-23 Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection Postiglione, Anthony E. Adams, Laquaundra L. Ekhator, Ese S. Odelade, Anuoluwapo E. Patwardhan, Supriya Chaudhari, Meenal Pardue, Avery S. Kumari, Anjali LeFever, William A. Tornow, Olivia P. Kaoud, Tamer S. Neiswinger, Johnathan Jeong, Jun Seop Parsonage, Derek Nelson, Kimberly J. Kc, Dukka B. Furdui, Cristina M. Zhu, Heng Wommack, Andrew J. Dalby, Kevin N. Dong, Ming Poole, Leslie B. Keyes, Jeremiah D. Newman, Robert H. iScience Article Extracellular signal-regulated kinases 1 and 2 (ERK1/2) are dysregulated in many pervasive diseases. Recently, we discovered that ERK1/2 is oxidized by signal-generated hydrogen peroxide in various cell types. Since the putative sites of oxidation lie within or near ERK1/2’s ligand-binding surfaces, we investigated how oxidation of ERK2 regulates interactions with the model substrates Sub-D and Sub-F. These studies revealed that ERK2 undergoes sulfenylation at C159 on its D-recruitment site surface and that this modification modulates ERK2 activity differentially between substrates. Integrated biochemical, computational, and mutational analyses suggest a plausible mechanism for peroxide-dependent changes in ERK2-substrate interactions. Interestingly, oxidation decreased ERK2’s affinity for some D-site ligands while increasing its affinity for others. Finally, oxidation by signal-generated peroxide enhanced ERK1/2’s ability to phosphorylate ribosomal S6 kinase A1 (RSK1) in HeLa cells. Together, these studies lay the foundation for examining crosstalk between redox- and phosphorylation-dependent signaling at the level of kinase-substrate selection. Elsevier 2023-09-02 /pmc/articles/PMC10514464/ /pubmed/37744034 http://dx.doi.org/10.1016/j.isci.2023.107817 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Postiglione, Anthony E.
Adams, Laquaundra L.
Ekhator, Ese S.
Odelade, Anuoluwapo E.
Patwardhan, Supriya
Chaudhari, Meenal
Pardue, Avery S.
Kumari, Anjali
LeFever, William A.
Tornow, Olivia P.
Kaoud, Tamer S.
Neiswinger, Johnathan
Jeong, Jun Seop
Parsonage, Derek
Nelson, Kimberly J.
Kc, Dukka B.
Furdui, Cristina M.
Zhu, Heng
Wommack, Andrew J.
Dalby, Kevin N.
Dong, Ming
Poole, Leslie B.
Keyes, Jeremiah D.
Newman, Robert H.
Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection
title Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection
title_full Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection
title_fullStr Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection
title_full_unstemmed Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection
title_short Hydrogen peroxide-dependent oxidation of ERK2 within its D-recruitment site alters its substrate selection
title_sort hydrogen peroxide-dependent oxidation of erk2 within its d-recruitment site alters its substrate selection
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10514464/
https://www.ncbi.nlm.nih.gov/pubmed/37744034
http://dx.doi.org/10.1016/j.isci.2023.107817
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