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The proteomic landscape of genotoxic stress-induced micronuclei

Kate MacDonald, Shahbaz Khan, Brian Lin, Rose Hurren, Aaron D. Schimmer, Thomas Kislinger, Shane M. Harding

2024Molecular Cell23 citationsDOIOpen Access PDF

Abstract

Micronuclei (MN) are induced by various genotoxic stressors and amass nuclear- and cytoplasmic-resident proteins, priming the cell for MN-driven signaling cascades. Here, we measured the proteome of micronuclear, cytoplasmic, and nuclear fractions from human cells exposed to a panel of six genotoxins, comprehensively profiling their MN protein landscape. We find that MN assemble a proteome distinct from both surrounding cytoplasm and parental nuclei, depleted of spliceosome and DNA damage repair components while enriched for a subset of the replisome. We show that the depletion of splicing machinery within transcriptionally active MN contributes to intra-MN DNA damage, a known precursor to chromothripsis. The presence of transcription machinery in MN is stress-dependent, causing a contextual induction of MN DNA damage through spliceosome deficiency. This dataset represents a unique resource detailing the global proteome of MN, guiding mechanistic studies of MN generation and MN-associated outcomes of genotoxic stress.

Topics & Concepts

BiologySpliceosomeDNA damageMicronucleus testProteomeCell biologyNucleoplasmCytoplasmGeneticsReplisomeDNA repairRNA splicingNuclear proteinDNAComputational biologyTranscription factorGeneNucleolusEukaryotic DNA replicationRNAToxicityOrganic chemistryChemistryDNA Repair MechanismsRNA Research and SplicingGenomics and Chromatin Dynamics
The proteomic landscape of genotoxic stress-induced micronuclei | Litcius