化学方法有助于只进行 CRISPR 的人类 iPSC 生成，并最大限度地减少所需靶向基因座的数量

Future Science OA Pub Date : 2024-02-06 DOI:10.2144/fsoa-2023-0257

Ramzey Abujarour, Jason Dinella, Mochtar Pribadi, Lauren K Fong, Matthew Denholtz, Alma Gutierrez, Matt Haynes, Enaaya Mahmood, Tom T Lee, Sheng Ding, Bahram Valamehr

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摘要

目的：我们探索了仅通过 CRISPR 激活（CRISPRa）转录激活内源基因生成人类诱导多能干细胞（iPSC）的方法。方法：使用针对有限基因位点的极少量人类特异性引导 RNA 和独特的鸡尾酒小分子（CRISPRa-SM）。结果：CRISPRa-SM 能高效生成 iPSC 克隆，表达一般和幼稚 iPSC 标记，并与使用传统重编程方法生成的高质量 iPSC 聚类。结论CRISPRa-SM 通过直接和多重位点激活生成人类 iPSCs，促进了一种独特且潜在更安全的细胞重编程过程，有助于细胞疗法和再生医学的潜在应用。

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A chemical approach facilitates CRISPRa-only human iPSC generation and minimizes the number of targeted loci required

Aim: We explored the generation of human induced pluripotent stem cells (iPSCs) solely through the transcriptional activation of endogenous genes by CRISPR activation (CRISPRa). Methods: Minimal number of human-specific guide RNAs targeting a limited set of loci were used with a unique cocktail of small molecules (CRISPRa-SM). Results: iPSC clones were efficiently generated by CRISPRa-SM, expressed general and naive iPSC markers and clustered with high-quality iPSCs generated using conventional reprogramming methods. iPSCs showed genomic stability and robust pluripotent potential as assessed by in vitro and in vivo. Conclusion: CRISPRa-SM-generated human iPSCs by direct and multiplexed loci activation facilitating a unique and potentially safer cellular reprogramming process to aid potential applications in cellular therapy and regenerative medicine.

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Future Science OA

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