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An anaphase surveillance mechanism prevents micronuclei formation from frequent chromosome segregation errors

Bernardo Orr, Filipe De Sousa, Ana Margarida Gomes, Olga Afonso, Luísa T. Ferreira, Ana C. Figueiredo, Hélder Maiato

2021Cell Reports67 citationsDOIOpen Access PDF

Abstract

Micronuclei are a hallmark of cancer and several other human disorders. Recently, micronuclei were implicated in chromothripsis, a series of massive genomic rearrangements that may drive tumor evolution and progression. Here, we show that Aurora B kinase mediates a surveillance mechanism that integrates error correction during anaphase with spatial control of nuclear envelope reassembly to prevent micronuclei formation. Using high-resolution live-cell imaging of human cancer and non-cancer cells, we uncover that anaphase lagging chromosomes are more frequent than previously anticipated, yet they rarely form micronuclei. Micronuclei formation from anaphase lagging chromosomes is prevented by a midzone-based Aurora B phosphorylation gradient that stabilizes kinetochore-microtubule attachments and assists spindle forces required for anaphase error correction while delaying nuclear envelope reassembly on lagging chromosomes, independently of microtubule density. We propose that a midzone-based Aurora B phosphorylation gradient actively monitors and corrects frequent chromosome segregation errors to prevent micronuclei formation during human cell division.

Topics & Concepts

AnaphaseChromothripsisCell biologyMicronucleus testKinetochoreAurora B kinaseBiologyChromosome segregationGeneticsChromosomeChemistryDNA damageCancerGenome instabilityCell cycleDNAGeneOrganic chemistryToxicityMicrotubule and mitosis dynamicsGenomics and Chromatin DynamicsDNA Repair Mechanisms
An anaphase surveillance mechanism prevents micronuclei formation from frequent chromosome segregation errors | Litcius