Cellular senescence represents a permanent state of cell cycle arrest, also observed in neurodegenerative disorders. As p300 has been identified as an epigenetic driver of replicative senescence, we aimed to investigate whether in vitro p300 inhibition could rescue the stress-induced premature senescence (SIPS) phenotype. We exploited 2D and 3D (brain organoids) in vitro models of SIPS using two different stressor agents. In addition, we combined the treatment with a p300 inhibitor and validated p300 role in SIPS by analyzing different senescence markers and the transcriptome in our models. Interestingly, p300 inhibition can counteract the DNA damage and SIPS phenotype, detecting a dysregulation of gene expression and protein translation associated with the senescence program. These findings highlight both the molecular mechanisms underlying senescence and p300 as a possible pharmacological target. Thus, targeting p300 and, by extension, senescent cells could represent a promising therapeutic strategy for age-related diseases such as neurodegenerative disorders.
p300 inhibition delays premature cellular senescence / E. Di Fede, E. Taci, S. Castiglioni, S. Rebellato, S. Ancona, P. Grazioli, C. Parodi, E.A. Colombo, C. Bernardelli, E. Lesma, I. Daniel Krantz, S. Corti, A. Priori, G. Fazio, C. Gervasini, V. Massa, A. Lettieri. - In: NPJ AGING. - ISSN 2731-6068. - 11:(2025 Jul 10), pp. 62.1-62.14. [10.1038/s41514-025-00251-y]
p300 inhibition delays premature cellular senescence
E. Di FedePrimo
;E. TaciSecondo
;S. Castiglioni;S. Ancona;P. Grazioli;C. Parodi;E.A. Colombo;C. Bernardelli;E. Lesma;S. Corti;A. Priori;C. GervasiniCo-ultimo
;V. Massa
Co-ultimo
;A. LettieriCo-ultimo
2025
Abstract
Cellular senescence represents a permanent state of cell cycle arrest, also observed in neurodegenerative disorders. As p300 has been identified as an epigenetic driver of replicative senescence, we aimed to investigate whether in vitro p300 inhibition could rescue the stress-induced premature senescence (SIPS) phenotype. We exploited 2D and 3D (brain organoids) in vitro models of SIPS using two different stressor agents. In addition, we combined the treatment with a p300 inhibitor and validated p300 role in SIPS by analyzing different senescence markers and the transcriptome in our models. Interestingly, p300 inhibition can counteract the DNA damage and SIPS phenotype, detecting a dysregulation of gene expression and protein translation associated with the senescence program. These findings highlight both the molecular mechanisms underlying senescence and p300 as a possible pharmacological target. Thus, targeting p300 and, by extension, senescent cells could represent a promising therapeutic strategy for age-related diseases such as neurodegenerative disorders.
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