Opi1-mediated transcriptional modulation orchestrates genotoxic stress response in budding yeast


giovana et al 2022Autores: 
Giovanna Marques Panessa, Eduardo Tassoni-Tsuchida, Marina Rodrigues Pires, Rodrigo Rodrigues Felix, Rafaella Jekabson, Nadja Cristhina de Souza-Pinto, Fernanda Marques da Cunha, Onn Brandman, José Renato Rosa Cussiol.

Abstract: In budding yeast, the transcriptional repressor Opi1 regulates phospholipid biosynthesis by repressing expression of genes containing inositol-sensitive upstream activation sequences. Upon genotoxic stress, cells activate the DNA damage response to coordinate a complex network of signaling pathways aimed at preserving genomic integrity. Here, we reveal that Opi1 is important to modulate transcription in response to genotoxic stress. We find that cells lacking Opi1 exhibit hypersensitivity to genotoxins, along with a delayed G1-to-S-phase transition and decreased gamma-H2A levels. Transcriptome analysis using RNA sequencing reveals that Opi1 plays a central role in modulating essential biological processes during methyl methanesulfonate (MMS)–associated stress, including repression of phospholipid biosynthesis and transduction of mating signaling. Moreover, Opi1 induces sulfate assimilation and amino acid metabolic processes, such as arginine and histidine biosynthesis and glycine catabolism. Furthermore, we observe increased mitochondrial DNA instability in opi1Δ cells upon MMS treatment. Notably, we show that constitutive activation of the transcription factor Ino2-Ino4 is responsible for genotoxin sensitivity in Opi1-deficient cells, and the production of inositol pyrophosphates by Kcs1 counteracts Opi1 function specifically during MMS-induced stress. Overall, our findings highlight Opi1 as a critical sensor of genotoxic stress in budding yeast, orchestrating gene expression to facilitate appropriate stress responses.

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23 Nov 2023 14:05


Autores: 
Giovanna Marques Panessa, Eduardo Tassoni-Tsuchida, Marina Rodrigues Pires, Rodrigo Rodrigues [ ... ]

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