<p>Selectively eradicating target cells on the basis of their genetic or transcriptional identity remains important in basic research, medicine, biotechnology and agriculture<sup><CitationRef AdditionalCitationIDS="CR2" CitationID="CR1">1</CitationRef>–<CitationRef CitationID="CR3">3</CitationRef></sup>. For applications involving bacteria, CRISPR nucleases offer promising options due to their ability to enact RNA-guided counterselection<sup><CitationRef AdditionalCitationIDS="CR5 CR6" CitationID="CR4">4</CitationRef>–<CitationRef CitationID="CR7">7</CitationRef></sup>; however, using these same nucleases for counterselection in eukaryotes has proven much more restrictive<sup><CitationRef AdditionalCitationIDS="CR9 CR10 CR11 CR12 CR13" CitationID="CR8">8</CitationRef>–<CitationRef CitationID="CR14">14</CitationRef></sup>. Here we show that Cas12a2, a recently discovered type V CRISPR nuclease, exhibits RNA-triggered DNA shredding<sup><CitationRef CitationID="CR15">15</CitationRef>,<CitationRef CitationID="CR16">16</CitationRef></sup>, and enables programmable and sequence-specific elimination of yeast and human cells expressing a target transcript. Triggering Cas12a2 elicits rampant double-stranded DNA breaks <i>in trans</i>, leading to cell death. Cell killing can be activated by a wide range of target transcripts, with no observed off-target activation. Leveraging this approach, we selectively eliminate cells that harbour human papillomavirus, cells that failed to undergo gene editing, or cells that encode a prevalent oncogenic point mutation in <i>KRAS</i>. These findings expand the CRISPR toolbox to allow the selective elimination of eukaryotic cells on the basis of their transcriptional profile.</p>

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RNA-triggered cell killing with CRISPR–Cas12a2

  • Paul Scholz,
  • Jared Thompson,
  • Kadin T. Crosby,
  • Torsten Fauth,
  • Nathan M. Krah,
  • Grant Schlauderaff,
  • Robin Back,
  • Zachary A. Berkheimer,
  • Alivia Jolley,
  • Dirk Sombroek,
  • Rebekka Medert,
  • Christian Zurek,
  • Oleg Dmytrenko,
  • Emily Wilson,
  • Friso T. Schut,
  • Jared Rutter,
  • Xiaoyang Zhang,
  • Michael Krohn,
  • Ryan N. Jackson,
  • Chase L. Beisel,
  • Yang Liu

摘要

Selectively eradicating target cells on the basis of their genetic or transcriptional identity remains important in basic research, medicine, biotechnology and agriculture13. For applications involving bacteria, CRISPR nucleases offer promising options due to their ability to enact RNA-guided counterselection47; however, using these same nucleases for counterselection in eukaryotes has proven much more restrictive814. Here we show that Cas12a2, a recently discovered type V CRISPR nuclease, exhibits RNA-triggered DNA shredding15,16, and enables programmable and sequence-specific elimination of yeast and human cells expressing a target transcript. Triggering Cas12a2 elicits rampant double-stranded DNA breaks in trans, leading to cell death. Cell killing can be activated by a wide range of target transcripts, with no observed off-target activation. Leveraging this approach, we selectively eliminate cells that harbour human papillomavirus, cells that failed to undergo gene editing, or cells that encode a prevalent oncogenic point mutation in KRAS. These findings expand the CRISPR toolbox to allow the selective elimination of eukaryotic cells on the basis of their transcriptional profile.