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BRD2 inhibition blocks SARS-CoV-2 infection in vitro by reducing transcription of the host cell receptor ACE2
Avi J Samelson; Quang Dinh Tran; Remy Robinot; Lucia Carrau; Veronica V Rezelj; Alice Mac Kain; Merissa Chen; Gokul N Ramadoss; Xiaoyan Guo; Shion A Lim; Irene Lui; James Nunez; Sarah J Rockwood; Jianhui Wang; Na Liu; Jared Carlson-Stevermer; Jennifer Oki; Travis Maures; Kevin Holden; Jonathan S Weissman; James A Wells; Bruce Conklin; Benjamin R TenOever; Lisa A Chakrabarti; Marco Vignuzzi; Ruilin Tian; Martin Kampmann.
Affiliation
  • Avi J Samelson; University of California, San Francisco
  • Quang Dinh Tran; Institut Pasteur
  • Remy Robinot; Institut Pasteur
  • Lucia Carrau; Icahn School of Medicine
  • Veronica V Rezelj; Institut Pasteur
  • Alice Mac Kain; Institut Pasteur
  • Merissa Chen; University of California, San Francisco
  • Gokul N Ramadoss; Gladstone Institutes
  • Xiaoyan Guo; University of California, San Francisco
  • Shion A Lim; University of California, San Francisco
  • Irene Lui; University of California, San Francisco
  • James Nunez; University of California, San Francisco
  • Sarah J Rockwood; Gladstone Institutes
  • Jianhui Wang; Southern University of Science and Technology
  • Na Liu; Southern University of Science and Technology
  • Jared Carlson-Stevermer; Synthego Corporation
  • Jennifer Oki; Synthego Corporation
  • Travis Maures; Synthego Corporation
  • Kevin Holden; Synthego Corporation
  • Jonathan S Weissman; University of California, San Francisco
  • James A Wells; University of California, San Francisco
  • Bruce Conklin; Gladstone Institutes
  • Benjamin R TenOever; Icahn School of Medicine
  • Lisa A Chakrabarti; Institut Pasteur
  • Marco Vignuzzi; Institut Pasteur
  • Ruilin Tian; University of California, San Francisco
  • Martin Kampmann; University of California, San Francisco
Preprint in En | PREPRINT-BIORXIV | ID: ppbiorxiv-427194
Journal article
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ABSTRACT
SARS-CoV-2 infection of human cells is initiated by the binding of the viral Spike protein to its cell-surface receptor ACE2. We conducted a targeted CRISPRi screen to uncover druggable pathways controlling Spike protein binding to human cells. We found that the protein BRD2 is required for ACE2 transcription in human lung epithelial cells and cardiomyocytes, and BRD2 inhibitors currently evaluated in clinical trials potently block endogenous ACE2 expression and SARS-CoV-2 infection of human cells, including those of human nasal epithelia. Moreover, pharmacological BRD2 inhibition with the drug ABBV-744 inhibited SARS-CoV-2 replication in Syrian hamsters. We also found that BRD2 controls transcription of several other genes induced upon SARS-CoV-2 infection, including the interferon response, which in turn regulates the antiviral response. Together, our results pinpoint BRD2 as a potent and essential regulator of the host response to SARS-CoV-2 infection and highlight the potential of BRD2 as a novel therapeutic target for COVID-19.
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Full text: 1 Collection: 09-preprints Database: PREPRINT-BIORXIV Type of study: Experimental_studies / Prognostic_studies Language: En Year: 2021 Document type: Preprint
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Add to My VHL
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Full text: 1 Collection: 09-preprints Database: PREPRINT-BIORXIV Type of study: Experimental_studies / Prognostic_studies Language: En Year: 2021 Document type: Preprint