Metabolic Regulation of Tumor Microenvironment with Biohybrid Bacterial Bioreactor for Enhanced Cancer Chemo-Immunotherapy

Immunogenic cell death (ICD) induced by specific chemotherapeutic agents is often hampered by the immunosuppressive tumor microenvironment (TME). Here, a bacterial bioreactor E@Fe-DOX, is developed, to enhance ICD-mediated antitumor immunity by in situ manipulation of tumor metabolism-immune interactions. The E@Fe-DOX bioreactor is constructed by depositing doxorubicin-loaded iron-polyphenol nanoparticles on Eubacterium hallii, which can specifically target hypoxic tumor regions and release doxorubicin and Fe3+ to induce ICD. In addition, Eubacterium hallii can continuously convert intratumoral lactate to butyrate, which inhibits the polarization of pro-tumoral M2-like macrophages and improves the function of tumor-infiltrating cytotoxic T cells. Furthermore, E@Fe-DOX promotes the formation of immune cell-aggregated tertiary lymph structures (TLS) to augment ICD-induced antitumor immunity. In murine tumor models, E@Fe-DOX significantly inhibits tumor growth and enhances immune checkpoint blockade (ICB) therapy. Overall, the developed living biomaterial offers a promising strategy to potentiate cancer chemo-immunotherapy by continuously regulating the intratumoral immuno-metabolic microenvironment.