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Cross-regulation of viral kinases with cyclin A secures shutoff of host DNA synthesis

Boris Bogdanow, Max Schmidt, Henry Weisbach, Iris Gruska, Barbara Vetter, Koshi Imami, Eléonore Ostermann, Wolfram Brune, Matthias Selbach, Christian Hagemeier, Lüder Wiebusch

2020Nature Communications24 citationsDOIOpen Access PDF

Abstract

Herpesviruses encode conserved protein kinases (CHPKs) to stimulate phosphorylation-sensitive processes during infection. How CHPKs bind to cellular factors and how this impacts their regulatory functions is poorly understood. Here, we use quantitative proteomics to determine cellular interaction partners of human herpesvirus (HHV) CHPKs. We find that CHPKs can target key regulators of transcription and replication. The interaction with Cyclin A and associated factors is identified as a signature of β-herpesvirus kinases. Cyclin A is recruited via RXL motifs that overlap with nuclear localization signals (NLS) in the non-catalytic N termini. This architecture is conserved in HHV6, HHV7 and rodent cytomegaloviruses. Cyclin A binding competes with NLS function, enabling dynamic changes in CHPK localization and substrate phosphorylation. The cytomegalovirus kinase M97 sequesters Cyclin A in the cytosol, which is essential for viral inhibition of cellular replication. Our data highlight a fine-tuned and physiologically important interplay between a cellular cyclin and viral kinases.

Topics & Concepts

KinaseCell biologyBiologyCyclin-dependent kinaseCyclin ACyclin-dependent kinase complexPhosphorylationNuclear localization sequenceDNA replicationViral replicationCyclinCyclin A2Computational biologyCell cycleVirologyProtein kinase ACyclin-dependent kinase 2GeneticsDNACellVirusCytoplasmCytomegalovirus and herpesvirus researchHerpesvirus Infections and TreatmentsToxoplasma gondii Research Studies
Cross-regulation of viral kinases with cyclin A secures shutoff of host DNA synthesis | Litcius