Robust miniature Cas-based transcriptional modulation by engineering Un1Cas12f1 and tethering Sso7d

Abstract

The miniature V-F CRISPR-Cas12f system has been repurposed for gene editing and transcription modulation. The small size of Cas12f satisfies the packaging capacity of adeno-associated virus (AAV) for gene therapy. However, the efficiency of Cas12f-mediated transcriptional activation varies among different target sites. Here, we developed a robust miniature Cas-based transcriptional activation or silencing system using Un1Cas12f1. We engineered Un1Cas12f1 and the cognate guide RNA and generated miniCRa, which led to a 1319-fold increase in activation of the ASCL1 gene. The activity can be further increased by tethering DNA binding protein Sso7d to miniCRa and generating SminiCRa, which reached 5628-fold activation of the ASCL1 gene and at least hundreds-fold activation at other genes examined. We adopted these mutations of Un1Cas12f1 for transcriptional repression and generated miniCRi or SminiCRi, which led to the repression ∼80% on average of eight genes. We generated an all-in-one AAV vector AIOminiCRi utilized to silence the disease-related gene SERPINA1. AIOminiCRi AAVs led to the 70% repression of the SERPINA1 gene in the Huh-7 cells. In sum, miniCRa, SminiCRa, miniCRi and SminiCRi are robust miniature transcriptional modulators with high specificity, that expand the toolbox for biomedical research and therapeutic applications.