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One-step generation of tumor models by base editor multiplexing in adult stem cell-derived organoids. | LitMetric
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One-step generation of tumor models by base editor multiplexing in adult stem cell-derived organoids.

Maarten H Geurts Shashank Gandhi Matteo G Boretto Ninouk Akkerman Lucca L M Derks Gijs van Son Martina Celotti Sarina Harshuk-Shabso Flavia Peci Harry Begthel Delilah Hendriks Paul Schürmann Amanda Andersson-Rolf Susana M Chuva de Sousa Lopes Johan H van Es Ruben van Boxtel Hans Clevers

Nat Commun

Hubrecht Institute, Royal Netherlands Academy of Arts and Sciences (KNAW) and University Medical Center Utrecht, 3584 CT, Utrecht, the Netherlands.

Published: August 2023

AI Article Synopsis

  • - The study explores the use of advanced CRISPR/Cas9-based base editors for creating intricate tumor models using human organoids derived from adult stem cells (ASC), specifically focusing on liver (hepatocyte) and endometrial organoids.
  • - Results demonstrate the effectiveness of cytosine and adenine base editors in inducing specific mutations, such as CTNNB1 mutations in liver organoids and PTEN nonsense mutations in endometrial organoids, which lead to tumor development even with one mutated copy.
  • - Additionally, the researchers enhanced base editing capabilities by employing multiple Cas9 variants for targeted mutations and established a method to model colorectal cancer by editing five cancer genes simultaneously in one experiment.

Article Abstract

Optimization of CRISPR/Cas9-mediated genome engineering has resulted in base editors that hold promise for mutation repair and disease modeling. Here, we demonstrate the application of base editors for the generation of complex tumor models in human ASC-derived organoids. First we show efficacy of cytosine and adenine base editors in modeling CTNNB1 hot-spot mutations in hepatocyte organoids. Next, we use C > T base editors to insert nonsense mutations in PTEN in endometrial organoids and demonstrate tumorigenicity even in the heterozygous state. Moreover, drug sensitivity assays on organoids harboring either PTEN or PTEN and PIK3CA mutations reveal the mechanism underlying the initial stages of endometrial tumorigenesis. To further increase the scope of base editing we combine SpCas9 and SaCas9 for simultaneous C > T and A > G editing at individual target sites. Finally, we show that base editor multiplexing allow modeling of colorectal tumorigenesis in a single step by simultaneously transfecting sgRNAs targeting five cancer genes.

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 Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10435570PMC
http://dx.doi.org/10.1038/s41467-023-40701-3DOI Listing

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