NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells

NEK6 is a central kinase in developing castration-resistant prostate cancer (CRPC). However, the pathways regulated by NEK6 in CRPC are still unclear. Cancer cells have high reactive oxygen species (ROS) levels and easily adapt to this circumstance and avoid cell death by increasing antioxidant defe...

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Autores principales: Pavan, Isadora Carolina Betim, Basei, Fernanda Luisa, Severino, Matheus Brandemarte, Rosa e Silva, Ivan, Issayama, Luidy Kazuo, Mancini, Mariana Camargo Silva, Góis, Mariana Marcela, da Silva, Luiz Guilherme Salvino, Bezerra, Rosangela Maria Neves, Simabuco, Fernando Moreira, Kobarg, Jörg
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9856815/
https://www.ncbi.nlm.nih.gov/pubmed/36672191
http://dx.doi.org/10.3390/cells12020256
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author Pavan, Isadora Carolina Betim
Basei, Fernanda Luisa
Severino, Matheus Brandemarte
Rosa e Silva, Ivan
Issayama, Luidy Kazuo
Mancini, Mariana Camargo Silva
Góis, Mariana Marcela
da Silva, Luiz Guilherme Salvino
Bezerra, Rosangela Maria Neves
Simabuco, Fernando Moreira
Kobarg, Jörg
author_facet Pavan, Isadora Carolina Betim
Basei, Fernanda Luisa
Severino, Matheus Brandemarte
Rosa e Silva, Ivan
Issayama, Luidy Kazuo
Mancini, Mariana Camargo Silva
Góis, Mariana Marcela
da Silva, Luiz Guilherme Salvino
Bezerra, Rosangela Maria Neves
Simabuco, Fernando Moreira
Kobarg, Jörg
author_sort Pavan, Isadora Carolina Betim
collection PubMed
description NEK6 is a central kinase in developing castration-resistant prostate cancer (CRPC). However, the pathways regulated by NEK6 in CRPC are still unclear. Cancer cells have high reactive oxygen species (ROS) levels and easily adapt to this circumstance and avoid cell death by increasing antioxidant defenses. We knocked out the NEK6 gene and evaluated the redox state and DNA damage response in DU-145 cells. The knockout of NEK6 decreases the clonogenic capacity, proliferation, cell viability, and mitochondrial activity. Targeting the NEK6 gene increases the level of intracellular ROS; decreases the expression of antioxidant defenses (SOD1, SOD2, and PRDX3); increases JNK phosphorylation, a stress-responsive kinase; and increases DNA damage markers (p-ATM and γH2AX). The exogenous overexpression of NEK6 also increases the expression of these same antioxidant defenses and decreases γH2AX. The depletion of NEK6 also induces cell death by apoptosis and reduces the antiapoptotic Bcl-2 protein. NEK6-lacking cells have more sensitivity to cisplatin. Additionally, NEK6 regulates the nuclear localization of NF-κB2, suggesting NEK6 may regulate NF-κB2 activity. Therefore, NEK6 alters the redox balance, regulates the expression of antioxidant proteins and DNA damage, and its absence induces the death of DU-145 cells. NEK6 inhibition may be a new strategy for CRPC therapy.
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spelling pubmed-98568152023-01-21 NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells Pavan, Isadora Carolina Betim Basei, Fernanda Luisa Severino, Matheus Brandemarte Rosa e Silva, Ivan Issayama, Luidy Kazuo Mancini, Mariana Camargo Silva Góis, Mariana Marcela da Silva, Luiz Guilherme Salvino Bezerra, Rosangela Maria Neves Simabuco, Fernando Moreira Kobarg, Jörg Cells Article NEK6 is a central kinase in developing castration-resistant prostate cancer (CRPC). However, the pathways regulated by NEK6 in CRPC are still unclear. Cancer cells have high reactive oxygen species (ROS) levels and easily adapt to this circumstance and avoid cell death by increasing antioxidant defenses. We knocked out the NEK6 gene and evaluated the redox state and DNA damage response in DU-145 cells. The knockout of NEK6 decreases the clonogenic capacity, proliferation, cell viability, and mitochondrial activity. Targeting the NEK6 gene increases the level of intracellular ROS; decreases the expression of antioxidant defenses (SOD1, SOD2, and PRDX3); increases JNK phosphorylation, a stress-responsive kinase; and increases DNA damage markers (p-ATM and γH2AX). The exogenous overexpression of NEK6 also increases the expression of these same antioxidant defenses and decreases γH2AX. The depletion of NEK6 also induces cell death by apoptosis and reduces the antiapoptotic Bcl-2 protein. NEK6-lacking cells have more sensitivity to cisplatin. Additionally, NEK6 regulates the nuclear localization of NF-κB2, suggesting NEK6 may regulate NF-κB2 activity. Therefore, NEK6 alters the redox balance, regulates the expression of antioxidant proteins and DNA damage, and its absence induces the death of DU-145 cells. NEK6 inhibition may be a new strategy for CRPC therapy. MDPI 2023-01-07 /pmc/articles/PMC9856815/ /pubmed/36672191 http://dx.doi.org/10.3390/cells12020256 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Pavan, Isadora Carolina Betim
Basei, Fernanda Luisa
Severino, Matheus Brandemarte
Rosa e Silva, Ivan
Issayama, Luidy Kazuo
Mancini, Mariana Camargo Silva
Góis, Mariana Marcela
da Silva, Luiz Guilherme Salvino
Bezerra, Rosangela Maria Neves
Simabuco, Fernando Moreira
Kobarg, Jörg
NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells
title NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells
title_full NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells
title_fullStr NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells
title_full_unstemmed NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells
title_short NEK6 Regulates Redox Balance and DNA Damage Response in DU-145 Prostate Cancer Cells
title_sort nek6 regulates redox balance and dna damage response in du-145 prostate cancer cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9856815/
https://www.ncbi.nlm.nih.gov/pubmed/36672191
http://dx.doi.org/10.3390/cells12020256
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