Researchers have developed a selective CRISPR-Cas9 strategy to target somatic mutations in pancreatic cancer cells, which is showing promising results for precision cancer therapy.
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onto Genetic Engineering in the Press by GEG July 17, 2024 7:08 AM
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Researchers have adapted CRISPR-Cas9 technology to target somatic mutations that generate motifs adjacent to protospacers (PAMs) in pancreatic cancer genomes. The researchers developed a bioinformatics pipeline called PAMfinder to identify these mutations in the cancer genome. By designing sgRNAs to target these novel PAMs, CRISPR-Cas9 can selectively introduce DSBs into cancer cells, destroying them while sparing normal cells. This method exploits the high mutational load of cancer cells, particularly in non-coding regions, to create a wide range of specific targets for CRISPR-mediated cell killing. Functional assays in three pancreatic cancer cell lines demonstrated 69-99% selective cell death using 4-9 sgRNAs designed to target PAM sequences. In addition, the absence of off-target effects confirmed the strategy's efficacy, demonstrating high specificity and a substantial reduction in cancer cell viability.