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Nuclear speckle integrity and function require TAO2 kinase.

Shengyan GaoMatthew EsparzaIshmael DehghanVasilisa AksenovaKe ZhangKimberly BattenMax B FerrettiBridget E BeggTolga CagatayJerry W ShayAdolfo García-SastreElizabeth J GoldsmithZhijian J ChenMary DassoKristen W LynchMelanie H CobbBeatriz M A Fontoura
Published in: Proceedings of the National Academy of Sciences of the United States of America (2022)
Nuclear speckles are non-membrane-bound organelles known as storage sites for messenger RNA (mRNA) processing and splicing factors. More recently, nuclear speckles have also been implicated in splicing and export of a subset of mRNAs, including the influenza virus M mRNA that encodes proteins required for viral entry, trafficking, and budding. However, little is known about how nuclear speckles are assembled or regulated. Here, we uncovered a role for the cellular protein kinase TAO2 as a constituent of nuclear speckles and as a factor required for the integrity of these nuclear bodies and for their functions in pre-mRNA splicing and trafficking. We found that a nuclear pool of TAO2 is localized at nuclear speckles and interacts with nuclear speckle factors involved in RNA splicing and nuclear export, including SRSF1 and Aly/Ref. Depletion of TAO2 or inhibition of its kinase activity disrupts nuclear speckle structure, decreasing the levels of several proteins involved in nuclear speckle assembly and splicing, including SC35 and SON. Consequently, splicing and nuclear export of influenza virus M mRNA were severely compromised and caused a disruption in the virus life cycle. In fact, low levels of TAO2 led to a decrease in viral protein levels and inhibited viral replication. Additionally, depletion or inhibition of TAO2 resulted in abnormal expression of a subset of mRNAs with key roles in viral replication and immunity. Together, these findings uncovered a function of TAO2 in nuclear speckle formation and function and revealed host requirements and vulnerabilities for influenza infection.
Keyphrases
  • sars cov
  • binding protein
  • poor prognosis
  • transcription factor
  • small molecule
  • life cycle
  • long non coding rna
  • nucleic acid