Differential gene expression in cells with different p53 mutations identifies genome-wide p53 targets and shows distinct modulation of cellular pathways in response to DNA damage

Patricia Eror Barnes, Maria Jose de la Concha, Kioko Mwikali, Bee Ling Ng, Hannes Ponstingl, Alena Pance

Research output: Working paper

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Abstract

The fundamental transcription factor p53 regulates cellular processes and integrates signals of cellular stress, triggering a coordinated response to ensure survival of cells restored to healthy function and programmed death of those that couldn’t be repaired. Unsurprisingly, this is one of the most mutated genes in human cancers, with most changes occurring in the DNA-binding domain of the protein. In this work, we take a genome-wide approach and use available resources to identify high confidence p53-target genes, that we examine in three breast cancer cell lines with different p53 status, wild type (MCF-7) and different mutations in the DNA-binding domain (MDA-MB231, T47D). Comparison of p53-targets expression in response to DNA damage by RNAseq and cellular assays reveals that MDA-MB231 have a severely impaired p53-dependent pathway functionality while T47D are much less affected. MDA-MB231 are more resistant to DNA damage yet unable to repair and able to override cell cycle arrest leading to survival while T47D are sensitive only to high dose and exposure to genotoxic agents. This data shows the variability of effects of different p53 mutations and highlight the importance of understanding the mechanisms of p53 in the context of genotoxicity-based treatment.
Original languageEnglish
PublisherBioRxiv
Number of pages15
DOIs
Publication statusE-pub ahead of print - 6 Sept 2024

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