<p>The paraspeckle is a disease-relevant biomolecular condensate assembled from long non-coding RNA (lncRNA) NEAT1_2 ribonucleoprotein particles. Paraspeckle biogenesis is suppressed in normal tissues, yet it can be rapidly upregulated under stress. Here we demonstrate that a neurodegeneration-linked RNA-binding protein TDP-43 inhibits NEAT1_2 ribonucleoprotein particle condensation into the paraspeckle, in a concentration-dependent manner, which requires its intact polymerization and RNA binding. This effect is counterbalanced by core paraspeckle proteins such as FUS. Below disruptive concentrations, TDP-43 can be recruited into paraspeckles, forming non-liquid clusters. Under stress, TDP-43 sequestration into de novo nuclear condensates alleviates paraspeckle suppression and increases their dynamism. NEAT1_2 middle-part and 3′-end UG repeats mediate paraspeckle regulation by TDP-43 cotranscriptionally and post assembly, respectively. The deletion of the 3′-end UG repeat increases paraspeckle stability and cytoprotection in stressed human neurons. Consistently, longer 3′-end UG repeats are linked to shorter survival in the neurodegenerative disease amyotrophic lateral sclerosis. Thus, TDP-43 is a critical regulator of paraspeckle condensates linked to cytoprotection.</p>

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Paraspeckle condensation is controlled via TDP-43 polymerization and linked to neuroprotection

  • Rachel E. Hodgson,
  • Wan-Ping Huang,
  • Ruaridh Lang,
  • Vedanth Kumar,
  • Haiyan An,
  • Emil G. P. Stender,
  • Zhaklin P. Chalakova,
  • Mark D. Driver,
  • Anna Sanchez Avila,
  • Brittany C. S. Ellis,
  • Emily Day,
  • Jessica A. Rayment,
  • Kyungmin Baeg,
  • Andrew Strange,
  • Tobias Moll,
  • Gareth S. A. Wright,
  • Joke J. F. A. van Vugt,
  • Philip van Damme,
  • Philippe Corcia,
  • Philippe Couratier,
  • Patrick Vourc’h,
  • Orla Hardiman,
  • Russell McLaughin,
  • Marc Gotkine,
  • Yossef Lerner,
  • Shovman Yehuda,
  • Vivian Drory,
  • Nicola Ticozzi,
  • Vincenzo Silani,
  • Jan H. Veldink,
  • Leonard H. van den Berg,
  • Mamede de Carvalho,
  • Teresa Salas,
  • Jesus S. Mora Pardina,
  • Monica Povedano,
  • Peter Andersen,
  • Markus Weber,
  • Nazli A. Başak,
  • Ammar Al-Chalabi,
  • Chris Shaw,
  • Pamela J. Shaw,
  • Karen E. Morrison,
  • John E. Landers,
  • Jonathan D. Glass,
  • Clifton L. Dalgard,
  • Joke J. F. A. van Vugt,
  • Johnathan Cooper-Knock,
  • Scott P. Allen,
  • Nicolas Locker,
  • Ianthe Pitout,
  • Susan Fletcher,
  • Patrick R. Onck,
  • Olivier Duss,
  • Johnathan Cooper-Knock,
  • Tatyana A. Shelkovnikova

摘要

The paraspeckle is a disease-relevant biomolecular condensate assembled from long non-coding RNA (lncRNA) NEAT1_2 ribonucleoprotein particles. Paraspeckle biogenesis is suppressed in normal tissues, yet it can be rapidly upregulated under stress. Here we demonstrate that a neurodegeneration-linked RNA-binding protein TDP-43 inhibits NEAT1_2 ribonucleoprotein particle condensation into the paraspeckle, in a concentration-dependent manner, which requires its intact polymerization and RNA binding. This effect is counterbalanced by core paraspeckle proteins such as FUS. Below disruptive concentrations, TDP-43 can be recruited into paraspeckles, forming non-liquid clusters. Under stress, TDP-43 sequestration into de novo nuclear condensates alleviates paraspeckle suppression and increases their dynamism. NEAT1_2 middle-part and 3′-end UG repeats mediate paraspeckle regulation by TDP-43 cotranscriptionally and post assembly, respectively. The deletion of the 3′-end UG repeat increases paraspeckle stability and cytoprotection in stressed human neurons. Consistently, longer 3′-end UG repeats are linked to shorter survival in the neurodegenerative disease amyotrophic lateral sclerosis. Thus, TDP-43 is a critical regulator of paraspeckle condensates linked to cytoprotection.