The tuberous sclerosis complex (TSC)2 gene regulates the mammalian target of rapamycin (mTOR) pathway, impacting cell proliferation and growth. The loss-of-function mutations, especially in mesenchymal progenitors, drive the development multiple benign and malignant tumors. TSC2 mutations in certain cancer types, e.g., breast cancer, are also associated with poorer prognosis. The databases of TSC2-mutations report point mutations as the most prevalent. We aimed to test the feasibility of inducing point mutations in mesenchymal stem cells (MSCs), targeting the most frequent point mutations of the TSC2 gene, TSC2. c.1864 C>T (p.Arg622Trp), TSC2. c.1832 G>A (p.Arg611Glu), and TSC2. c.5024 C>T (p.Pro1675Leu) using two delivery methods for CRISPR-Cas9. We report a high editing efficiency of up to 85% inducing TSC2 point mutations in hMSCs using lipofectamine-based transfection. Overall, the high editing efficiency of some TSC2 mutations enables the induction and reversal of mutations in primary hMSCs without needing resource-consuming derivation of cell lines frequently distinct from their primary counterparts.
Salemdawod et al. (Thu,) studied this question.
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