Abstract
Pyroptosis induced by the N-terminal gasdermin domain (GSDMNT) holds great potential for anti-tumor therapy. However, due to the extreme cytoxicity of GSDMNT, it is challenging to efficiently produce and deliver GSDMNT into tumor cells. Here, we report the development of two strategies to package recombinant adeno-associated virus (rAAV) expressing GSDMNT: 1) drive the expression of GSDMNT by a mammal specific promoter and package the virus in Sf9 insect cells to avoid its expression; 2) co-infect rAAV-Cre to revert and express the double-floxed inverted GSDMNT. We demonstrate that these rAAVs can induce pyroptosis and prolong survival in preclinical cancer models. The oncolytic-viruses induce pyroptosis and evoke a robust immune-response. In a glioblastoma model, rAAVs temporarily open the blood-brain barrier and recruit tumor infiltrating lymphocytes into the brain. The oncolytic effect is further improved in combination with anti-PD-L1. Together, our strategies efficiently produce and deliver GSDMNT into tumor cells and successfully induce pyroptosis, which can be exploited for anti-tumor therapy.
Highlights
Pyroptosis induced by the N-terminal gasdermin domain (GSDMNT) holds great potential for anti-tumor therapy
Recent studies have demonstrated that pyroptosis can directly kill tumor cells, and more importantly, trigger a strong antitumor immune response, which recruits a large number of lymphocytes and destroys the TME4–6
Considering the low immunogenicity, high gene delivery efficacy, and replication deficiency characteristics[11], it may be ideal to use recombinant adeno-associated viruses to deliver and express GSDMNT gene in the tumor cells. rAAV has been widely used in clinical gene therapy for many diseases, such as hemophilia B12 and Leber congenital amaurosis[13,14]
Summary
Pyroptosis induced by the N-terminal gasdermin domain (GSDMNT) holds great potential for anti-tumor therapy. We report the development of two strategies to package recombinant adeno-associated virus (rAAV) expressing GSDMNT: 1) drive the expression of GSDMNT by a mammal specific promoter and package the virus in Sf9 insect cells to avoid its expression; 2) co-infect rAAV-Cre to revert and express the double-floxed inverted GSDMNT We demonstrate that these rAAVs can induce pyroptosis and prolong survival in preclinical cancer models. Our strategies efficiently produce and deliver GSDMNT into tumor cells and successfully induce pyroptosis, which can be exploited for anti-tumor therapy. The rAAVs can induce pyroptosis that subsequently stimulate immune responses and temporarily open the blood–brain barrier (BBB). These strategies are likely to have an impact on central and peripheral antitumor therapies in the future
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