Immunogene therapy has emerged as strategy against cancer by introducing immune-stimulating components into gene therapy. However, there is still a need for an ideal platform to achieve both immune stimulation and efficient gene delivery. Lactobacillus reuteri has potential immunomodulatory activity owing to its unique antigenicity, which is potentially relevant to cancer progression. Here, we designed a novel non-viral siRNA vector (DMPLAC) by encapsulating Lactobacillus reuteri lysate in DMP. DMPLAC can promote maturation and activation of immune cells, increase infiltration of APC and cytotoxic T cells in tumor microenvironment, and exhibit tumor suppressive effects. Loading of siRNA targeting Stat3, DMPLAC/siStat3 further inhibits tumor in multiple models. We designed a strategy that combines immune activation with Stat3 silencing, triggering an immune response and tumor killing. This dual-functional design provides a new choice in development of effective immunogene therapy.
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