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Nuclear actin regulates cell proliferation and migration via inhibition of SRF and TEAD

Madeleine C. McNeill, Jason Wray, Graciela B. Sala‐Newby, Charles C.T. Hindmarch, Sarah A. Smith, Reza Ebrahimighaei, Andrew C. Newby, Mark Bond

2020Biochimica et Biophysica Acta (BBA) - Molecular Cell Research30 citationsDOIOpen Access PDF

Abstract

Actin dynamics regulate cell behaviour in response to physiological signals. Here we demonstrate a novel role for nuclear actin in inhibiting cell proliferation and migration. We demonstrate that physiological signals that elevate cAMP, which is anti-mitogenic in vascular smooth muscle cells, increases nuclear actin monomer levels. Expression of a nuclear-targeted polymerisation-defective actin mutant (NLS-ActinR62D) inhibited proliferation and migration. Preventing nuclear actin monomer accumulation by enhancing its nuclear export or polymerisation reversed the anti-mitogenic and anti-migratory effects of cAMP. Transcriptomic analysis identified repression of proliferation and migration associated genes regulated by serum response factor (SRF) and TEA Domain (TEAD) transcription factors. Accordingly, NLS-ActinR62D inhibited SRF and TEAD activity and target gene expression, and these effects were reversed by constitutively-active mutants of the TEAD and SRF co-factors YAP, TAZ and MKL1. In summary, intranuclear actin inhibits proliferation and migration by inhibiting YAP-TEAD and MKL-SRF activity. This mechanism explains the anti-mitogenic and anti-migratory properties of physiological signals that elevate cAMP. McNeill et al show that increased levels of intranuclear actin monomer inhibit cell proliferation and migration by inhibiting MKL1-SRF and YAP/TAZ-TEAD-dependent gene expression. This mechanism mediates the anti-mitogenic and anti-migratory effects of physiological signals that elevate cyclic-AMP.

Topics & Concepts

Serum response factorCell biologyActinTranscription factorNuclear export signalNuclear localization sequenceCell migrationCell growthPsychological repressionMutantNuclear transportBiologyNuclear proteinCellCell nucleusGene expressionMolecular biologyGeneBiochemistryNucleusHippo pathway signaling and YAP/TAZCellular Mechanics and InteractionsRNA Research and Splicing