Cas9 activates the p53 pathway and selects for p53-inactivating mutations

Oana M. Enache; Veronica Rendo; Mai Abdusamad; Daniel Lam; Desiree Davison; Sangita Pal; Naomi Currimjee; Julian Hess; Sasha Pantel; Anwesha Nag; Aaron R. Thorner; John G. Doench; Francisca Vazquez; Rameen Beroukhim; Todd R. Golub; Uri Ben-David

doi:https://doi.org/10.1038/s41588-020-0623-4

Cas9 activates the p53 pathway and selects for p53-inactivating mutations

Oana M. Enache, Veronica Rendo, Mai Abdusamad, Daniel Lam, Desiree Davison, Sangita Pal, Naomi Currimjee, Julian Hess, Sasha Pantel, Anwesha Nag, Aaron R. Thorner, John G. Doench, Francisca Vazquez, Rameen Beroukhim, Todd R. Golub, Uri Ben-David

Human Molecular Genetics Biochemistry

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

Cas9 is commonly introduced into cell lines to enable CRISPR–Cas9-mediated genome editing. Here, we studied the genetic and transcriptional consequences of Cas9 expression itself. Gene expression profiling of 165 pairs of human cancer cell lines and their Cas9-expressing derivatives revealed upregulation of the p53 pathway upon introduction of Cas9, specifically in wild-type TP53 (TP53-WT) cell lines. This was confirmed at the messenger RNA and protein levels. Moreover, elevated levels of DNA repair were observed in Cas9-expressing cell lines. Genetic characterization of 42 cell line pairs showed that introduction of Cas9 can lead to the emergence and expansion of p53-inactivating mutations. This was confirmed by competition experiments in isogenic TP53-WT and TP53-null (TP53^−/−) cell lines. Lastly, Cas9 was less active in TP53-WT than in TP53-mutant cell lines, and Cas9-induced p53 pathway activation affected cellular sensitivity to both genetic and chemical perturbations. These findings may have broad implications for the proper use of CRISPR–Cas9-mediated genome editing.

Original language	English
Pages (from-to)	662-668
Number of pages	7
Journal	Nature Genetics
Volume	52
Issue number	7
DOIs	https://doi.org/10.1038/s41588-020-0623-4
State	Published - 1 Jul 2020

All Science Journal Classification (ASJC) codes

Genetics

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title = "Cas9 activates the p53 pathway and selects for p53-inactivating mutations",

abstract = "Cas9 is commonly introduced into cell lines to enable CRISPR–Cas9-mediated genome editing. Here, we studied the genetic and transcriptional consequences of Cas9 expression itself. Gene expression profiling of 165 pairs of human cancer cell lines and their Cas9-expressing derivatives revealed upregulation of the p53 pathway upon introduction of Cas9, specifically in wild-type TP53 (TP53-WT) cell lines. This was confirmed at the messenger RNA and protein levels. Moreover, elevated levels of DNA repair were observed in Cas9-expressing cell lines. Genetic characterization of 42 cell line pairs showed that introduction of Cas9 can lead to the emergence and expansion of p53-inactivating mutations. This was confirmed by competition experiments in isogenic TP53-WT and TP53-null (TP53−/−) cell lines. Lastly, Cas9 was less active in TP53-WT than in TP53-mutant cell lines, and Cas9-induced p53 pathway activation affected cellular sensitivity to both genetic and chemical perturbations. These findings may have broad implications for the proper use of CRISPR–Cas9-mediated genome editing.",

author = "Enache, {Oana M.} and Veronica Rendo and Mai Abdusamad and Daniel Lam and Desiree Davison and Sangita Pal and Naomi Currimjee and Julian Hess and Sasha Pantel and Anwesha Nag and Thorner, {Aaron R.} and Doench, {John G.} and Francisca Vazquez and Rameen Beroukhim and Golub, {Todd R.} and Uri Ben-David",

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AU - Enache, Oana M.

AU - Rendo, Veronica

AU - Abdusamad, Mai

AU - Lam, Daniel

AU - Davison, Desiree

AU - Pal, Sangita

AU - Currimjee, Naomi

AU - Hess, Julian

AU - Pantel, Sasha

AU - Nag, Anwesha

AU - Thorner, Aaron R.

AU - Doench, John G.

AU - Vazquez, Francisca

AU - Beroukhim, Rameen

AU - Golub, Todd R.

AU - Ben-David, Uri

PY - 2020/7/1

Y1 - 2020/7/1

N2 - Cas9 is commonly introduced into cell lines to enable CRISPR–Cas9-mediated genome editing. Here, we studied the genetic and transcriptional consequences of Cas9 expression itself. Gene expression profiling of 165 pairs of human cancer cell lines and their Cas9-expressing derivatives revealed upregulation of the p53 pathway upon introduction of Cas9, specifically in wild-type TP53 (TP53-WT) cell lines. This was confirmed at the messenger RNA and protein levels. Moreover, elevated levels of DNA repair were observed in Cas9-expressing cell lines. Genetic characterization of 42 cell line pairs showed that introduction of Cas9 can lead to the emergence and expansion of p53-inactivating mutations. This was confirmed by competition experiments in isogenic TP53-WT and TP53-null (TP53−/−) cell lines. Lastly, Cas9 was less active in TP53-WT than in TP53-mutant cell lines, and Cas9-induced p53 pathway activation affected cellular sensitivity to both genetic and chemical perturbations. These findings may have broad implications for the proper use of CRISPR–Cas9-mediated genome editing.

AB - Cas9 is commonly introduced into cell lines to enable CRISPR–Cas9-mediated genome editing. Here, we studied the genetic and transcriptional consequences of Cas9 expression itself. Gene expression profiling of 165 pairs of human cancer cell lines and their Cas9-expressing derivatives revealed upregulation of the p53 pathway upon introduction of Cas9, specifically in wild-type TP53 (TP53-WT) cell lines. This was confirmed at the messenger RNA and protein levels. Moreover, elevated levels of DNA repair were observed in Cas9-expressing cell lines. Genetic characterization of 42 cell line pairs showed that introduction of Cas9 can lead to the emergence and expansion of p53-inactivating mutations. This was confirmed by competition experiments in isogenic TP53-WT and TP53-null (TP53−/−) cell lines. Lastly, Cas9 was less active in TP53-WT than in TP53-mutant cell lines, and Cas9-induced p53 pathway activation affected cellular sensitivity to both genetic and chemical perturbations. These findings may have broad implications for the proper use of CRISPR–Cas9-mediated genome editing.

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Cas9 activates the p53 pathway and selects for p53-inactivating mutations

Abstract

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