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Insights into histone deacetylase inhibitors-induced cell death in cancer cell lines.

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dc.contributor.author Fuentes-Baile, María
dc.contributor.author García-Morales, Pilar
dc.contributor.author Pérez-Valenciano, Elizabeth
dc.contributor.author Mata-Balaguer, Trinidad
dc.contributor.author Menéndez-Gutiérrez, María-P
dc.contributor.author de-Juan-Romero, Camino
dc.contributor.author Rodríguez-Lescure, Álvaro
dc.contributor.author Martín-Orozco, Elena
dc.contributor.author Mallavia, Ricardo
dc.contributor.author Barbera, Víctor-M
dc.contributor.author Saceda, Miguel
dc.date.accessioned 2026-03-10T11:51:54Z
dc.date.available 2026-03-10T11:51:54Z
dc.date.issued 2025-10
dc.identifier.citation Fuentes-Baile M, García-Morales P, Pérez-Valenciano E, Mata-Balaguer T, Menéndez-Gutiérrez MP, De Juan Romero C, et al. Insights into histone deacetylase inhibitors-induced cell death in cancer cell lines. Biomedicine & Pharmacotherapy. octubre de 2025;191:118541. doi:10.1016/j.biopha.2025.118541
dc.identifier.uri https://sms.carm.es/ricsmur/handle/123456789/25285
dc.description.abstract Histone deacetylase inhibitors (HDACis) induce cell death in many chemoresistant cancer models, suggesting their potential as alternative treatments for these malignancies. However, their efficacy in solid tumors remains limited. Therefore, understanding the molecular mechanisms underlying HDACi-induced cell death is essential for developing targeted activators of these pathways, enabling the selective elimination of chemoresistant cancer cells while minimizing the widespread transcriptional effects of HDACis. In this study, we investigated HDACi-induced cell death across models of different cellular origins to determine whether a universal molecular mechanism triggers this process. Our findings demonstrate that HDACi-induced cell death is TP53-independent, resistant to caspase inhibitors, and sensitive to serine protease inhibitors. This form of cell death requires intracellular calcium mobilization to induce mitochondrial depolarization. Using DNA arrays, apoptosis protein arrays, and ELISA assays, combined with siRNA-mediated gene silencing, we identified genes with a causal relationship to TSA-induced cell death. These include dual-specificity phosphatases such as DUSP3 and DUSP10; endoplasmic reticulum stress-related genes such as XBP1, MBTPS1, MBTPS2, and RPS6KA5; and other genes like BAX, AIF, EAF2, NANOS1, and CCNYL1. Our findings reveal novel potential targets for developing antineoplastic agents designed to exploit HDACi-induced cell death pathways, providing a strategy to overcome chemoresistance in cancer therapy.
dc.language.iso eng
dc.publisher ELSEVIER
dc.rights Atribución/Reconocimiento-NoComercial 4.0 Internacional
dc.rights.uri https://creativecommons.org/licenses/by-nc/4.0/deed.es
dc.subject.mesh Humans
dc.subject.mesh Histone Deacetylase Inhibitors/pharmacology
dc.subject.mesh Cell Line, Tumor
dc.subject.mesh Cell Death/drug effects
dc.subject.mesh Neoplasms/pathology/drug therapy/genetics
dc.subject.mesh Apoptosis/drug effects
dc.subject.mesh Endoplasmic Reticulum Stress/drug effects
dc.subject.mesh Antineoplastic Agents/pharmacology
dc.title Insights into histone deacetylase inhibitors-induced cell death in cancer cell lines.
dc.type info:eu-repo/semantics/article
dc.identifier.pmid 40945274
dc.relation.publisherversion https://linkinghub.elsevier.com/retrieve/pii/S0753332225007358
dc.type.version info:eu-repo/semantics/publishedVersion
dc.identifier.doi 10.1016/j.biopha.2025.118541
dc.journal.title Biomedicine & Pharmacotherapy = Biomedecine & Pharmacotherapie
dc.identifier.essn 1950-6007


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