Enhancing Tumor-Specific immunity with SL: A attenuated Salmonella-mediated c-di-AMP delivery system targeting the STING pathway.

The STING agonist stimulates an anti-tumor immune response by activating T cells, but its limited tumor-targeting specificity poses risks of cytokine storms or autoimmune reactions. Conversely, attenuated Salmonella typhimurium △ppGpp (S.t△ppGpp) exhibits superior tumor-targeting specificity and potent anti-tumor immunogenicity. However, the anti-tumor effects of Salmonella carrying STING agonists remain underexplored. In this study, we engineered a strain called SL, utilizing S.t△ppGpp as a carrier, to produce c-di-AMP. This engineered strain effectively enhances dendritic cell maturation and M1-type macrophage polarization by inducing type I interferon production, thereby recruiting and activating effector T cells against tumor progression. This process is regulated by the STING/type I interferon pathway. Our findings indicate that utilizing S.t△ppGpp as a delivery vehicle for STING agonists holds promise as a strategy for synergistic bacterial-mediated immunotherapy.