Gold Nanocluster-Mediated Efficient Delivery of Cas9 Protein through pH-Induced Assembly-Disassembly for Inactivation of Virus Oncogenes

Abstract

The CRISPR/Cas gene editing system has been successfully applied to combating bacteria, cancer, virus, and genetic disorders. While viral vectors have been used for the delivery of the CRISPR/Cas9 system, the time required for insert cloning, and virus packaging and standardization, hinders its efficient use. Additionally, the high molecular weight of the Cas9 endonuclease makes it not easy for packing into the vehicles. Herein we report the self-assembly of gold nanoclusters (AuNCs) with SpCas9 protein (SpCas9-AuNCs) under physiological conditions and the efficient delivery of SpCas9 into the cell nucleus. This assembly process is highly dependent on pH. SpCas9-AuNCs are stable at a higher pH but are disassembled at a lower pH. Significantly, this assembly-disassembly process facilitates the delivery of SpCas9 into cells and the cell nucleus, where the SpCas9 exerts its cleavage function. As a proof-of-concept, the assembled SpCas9-AuNCs nanoparticles are successfully used for efficient knockout of the E6 oncogene, restoring the function of tumor-suppressive protein p53 and inducing apoptosis in cervical cancer cells with little effect on normal human cells. The SpCas9-AuNCs are useful for sgRNA functional validation, sgRNA library screening, and genomic manipulation.