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LLPS of FXR proteins drives replication organelle clustering for β-coronaviral proliferation.

Meng LiYali HouYuzheng ZhouZhenni YangHongyu ZhaoTao JianQianxi YuFuxing ZengXiaotian LiuZheng ZhangYan G Zhao
Published in: The Journal of cell biology (2024)
β-Coronaviruses remodel host endomembranes to form double-membrane vesicles (DMVs) as replication organelles (ROs) that provide a shielded microenvironment for viral RNA synthesis in infected cells. DMVs are clustered, but the molecular underpinnings and pathophysiological functions remain unknown. Here, we reveal that host fragile X-related (FXR) family proteins (FXR1/FXR2/FMR1) are required for DMV clustering induced by expression of viral non-structural proteins (Nsps) Nsp3 and Nsp4. Depleting FXRs results in DMV dispersion in the cytoplasm. FXR1/2 and FMR1 are recruited to DMV sites via specific interaction with Nsp3. FXRs form condensates driven by liquid-liquid phase separation, which is required for DMV clustering. FXR1 liquid droplets concentrate Nsp3 and Nsp3-decorated liposomes in vitro. FXR droplets facilitate recruitment of translation machinery for efficient translation surrounding DMVs. In cells depleted of FXRs, SARS-CoV-2 replication is significantly attenuated. Thus, SARS-CoV-2 exploits host FXR proteins to cluster viral DMVs via phase separation for efficient viral replication.
Keyphrases
  • sars cov
  • respiratory syndrome coronavirus
  • induced apoptosis
  • single cell
  • cell cycle arrest
  • rna seq
  • stem cells
  • drug delivery
  • cell death
  • poor prognosis
  • genome wide
  • reactive oxygen species