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SUMOylation of RepoMan during late telophase regulates dephosphorylation of lamin A

Takanobu Moriuchi, Fumiko Hirose

2021Journal of Cell Science15 citationsDOIOpen Access PDF

Abstract

Dephosphorylation of lamin A, which triggers nuclear lamina reconstitution, is crucial for the completion of mitosis. However, the specific phosphatase and regulatory mechanism that allow timely lamin A dephosphorylation remain unclear. Here, we report that RepoMan (also known as CDCA2), a regulatory subunit of protein phosphatase 1γ (PP1γ) is transiently modified with SUMO-2 at K762 during late telophase. SUMOylation of RepoMan markedly enhanced its binding affinity with lamin A. Moreover, SUMOylated RepoMan contributes to lamin A recruitment to telophase chromosomes and dephosphorylation of the mitotic lamin A phosphorylation. Expression of a SUMO-2 mutant that has a defective interaction with the SUMO-interacting motif (SIM) resulted in failure of the lamin A and RepoMan association, along with abrogation of lamin A dephosphorylation and subsequent nuclear lamina formation. These findings strongly suggest that RepoMan recruits lamin A through SUMO-SIM interaction. Thus, transient SUMOylation of RepoMan plays an important role in the spatiotemporal regulation of lamin A dephosphorylation and the subsequent nuclear lamina formation at the end of mitosis.

Topics & Concepts

LaminTelophaseSUMO proteinDephosphorylationBiologyNuclear laminaCell biologyMitosisPhosphorylationPhosphataseAnaphaseGeneticsCell cycleNuclear proteinCellGeneNucleusUbiquitinTranscription factorNuclear Structure and FunctionMicrotubule and mitosis dynamicsGenomics and Chromatin Dynamics