交易激励
细胞生物学
内生
基因表达调控
基因
生物
HEK 293细胞
化学
功能基因组学
基因组编辑
体内
转录调控
基因表达
计算生物学
转录因子
DNA
基因沉默
转基因
信号转导
适体
转导(生物物理学)
基因靶向
体外
分子生物学
亚基因组mRNA
转录组
生物素化
作者
Hang Wan,D. J. Kong,Tao Yan,Yu Zhou,Mengyao Liu,Xiaoding Ma,Tianjie Zhao,Wei Zhou,Xingwan Liu,Jianli Yin,Ningzi Guan,Haifeng Ye
标识
DOI:10.1038/s41467-025-68183-5
摘要
Precise activation of endogenous genes is a powerful strategy for functional genomics and therapeutic development, but current CRISPR-based transcriptional activation (CRISPRa) systems are limited by the large size of Cas proteins for adeno-associated virus (AAV) delivery. Here, we present a high-efficiency dCas12f-based transcriptional activation system (HEAL), which recruits transactivators through MS2 coat protein binding to MS2 aptamers embedded within the sgRNA scaffold. Engineered to enhance DNA binding, nuclear localization, and transactivator recruitment, HEAL induces over 100,000-fold activation of endogenous genes and outperforms existing CRISPRa systems in vitro and in vivo. We further develop red-light-inducible OptoHEAL and small-molecule-inducible ChemHEAL for remote and precise transcriptional control. AAV-delivered HEAL targeting interleukin 10 alleviates acute kidney injury in mice, while ChemHEAL-mediated activation of thymic stromal lymphopoietin reduces body weight in obese mice. HEAL provides a modular, compact, and controllable platform for endogenous gene activation with strong potential for fundamental research and gene therapy.
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