期刊
ADVANCED SCIENCE
卷 10, 期 12, 页码 -出版社
WILEY
DOI: 10.1002/advs.202206399
关键词
adenoviral vector; CRISPR; Cas9; immunotherapy; PD-L1 gene editing; silk-gel
This study develops a genetically engineered adenovirus for delivering CRISPR/Cas9 to edit the PD-L1 gene with high efficiency in liver cancer cells. The adenovirus is loaded into a silk-gel carrier, which enables effective tumor growth inhibition and T cell-mediated antitumor immune response.
Immune checkpoint blockade based on antibodies has shown great clinical success in patients, but the transitory working manner leads to restricted therapeutic benefits. Herein, a genetically engineered adenovirus is developed as the vector to deliver CRISPR/Cas9 (sgCas9-AdV) to achieve permanent PD-L1 gene editing with efficiency up to 78.7% exemplified in Hepa 1-6 liver cancer cells. Furthermore, the sgCas9-AdV is loaded into hydrogel made by silk fiber (SgCas9-AdV/Gel) for in vivo application. The silk-gel not only promotes local retention of sgCas9-AdV in tumor tissue, but also masks them from host immune system, thus ensuring effectively gene transduction over 9 days. Bearing these advantages, the sgCas9-AdV/Gel inhibits Hepa 1-6 tumor growth with 100% response rate by single-dose injection, through efficient PD-L1 disruption to elicit a T cell-mediated antitumor response. In addition, the sgCas9-AdV/Gel is also successfully extended into other refractory tumors. In CT26 colon tumor characterized by poor response to anti-PD-L1, sgCas9-AdV/Gel is demonstrated to competent and superior anti-PD-L1 antibody to suppress tumor progression. In highly aggressive orthotopic 4T1 mouse breast tumor, such a therapeutic paradigm significantly inhibits primary tumor growth and induces a durable immune response against tumor relapse/metastasis. Thus, this study provides an attractive and universal strategy for immunotherapy.
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