<p>The innate immune system requires the activity of interferon-stimulated genes (ISGs) to mount its protective response against viruses. However, the activity of ISGs against viruses varies widely and is orchestrated by the interplay of hundreds of ISGs. Utilizing a time-resolved, arrayed loss-of-function screen, we systematically investigate 285 ISGs for their virus-modulating activity against eight viruses. The quantitated data from the screen results do not necessarily result in similar quantitative biological effects of gene function but indicates virus specificity of many ISGs and pan-proviral activity of some ISGs, such as RNA 2’,3’-cyclic phosphate and 5’-OH ligase (RTCB). Co-depletions of selected candidates identify ISGs with synergistic functions, highlighting particularly strong synergies between ISGs inhibiting entry pathways and ISGs involved in IFN signaling. Among unexplored ISGs, we identify BORCS8, which has a particularly prominent role in modulating SARS-CoV-2 infection. Mechanistically, BORCS8 mediates the acidification of early endosomes during viral entry, a process known to facilitate the degradation of virus particles. Collectively, this extensive resource reveals specificities of ISGs identified in this screening system and suggests potential strategies for antiviral treatment options.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

The ISG Atlas: a loss-of-function analysis characterizes antiviral properties of interferon stimulated genes

  • Karsten Krey,
  • Jennifer Risso-Ballester,
  • Sabri Hamad,
  • Susanne Maidl,
  • Sara Bilekova,
  • Quirin Emslander,
  • Melissa Verin,
  • Sarah Mundigl,
  • Alexandrina Cernat,
  • Antonio Piras,
  • Valter Bergant,
  • Vincent Grass,
  • Andreas Pichlmair

摘要

The innate immune system requires the activity of interferon-stimulated genes (ISGs) to mount its protective response against viruses. However, the activity of ISGs against viruses varies widely and is orchestrated by the interplay of hundreds of ISGs. Utilizing a time-resolved, arrayed loss-of-function screen, we systematically investigate 285 ISGs for their virus-modulating activity against eight viruses. The quantitated data from the screen results do not necessarily result in similar quantitative biological effects of gene function but indicates virus specificity of many ISGs and pan-proviral activity of some ISGs, such as RNA 2’,3’-cyclic phosphate and 5’-OH ligase (RTCB). Co-depletions of selected candidates identify ISGs with synergistic functions, highlighting particularly strong synergies between ISGs inhibiting entry pathways and ISGs involved in IFN signaling. Among unexplored ISGs, we identify BORCS8, which has a particularly prominent role in modulating SARS-CoV-2 infection. Mechanistically, BORCS8 mediates the acidification of early endosomes during viral entry, a process known to facilitate the degradation of virus particles. Collectively, this extensive resource reveals specificities of ISGs identified in this screening system and suggests potential strategies for antiviral treatment options.