Abstract
The utilization of bacteria as a drug delivery system represents a promising strategy for tumor therapy, owing to their inherent ability to selectively colonize and induce apoptosis of tumor cells at the solid tumor. However, the occurrence of dose-dependent toxicity has led to the failure of clinical trials. Unfortunately, the implementation of a singular bacterial treatment strategy for tumor therapy is inherently limited. In this study, we developed a living drug delivery material named DOX@TA@ECN (D@T@E) by utilizing Fe3+ and tannin acid (TA) as a cross-linking network to encapsulate doxorubicin (DOX) and form a protective coating on the surface of Escherichia coli Nissle 1917 (ECN). In an acidic tumor microenvironment, D@T@E disintegrated the coating to release DOX through the highly expressed H2O2. To enhance biosafety, the D@T@E was equipped with a hypoxic lytic circuit (Pvhb-Lysis) to regulate the number of ECN in vivo (D@T@E-PL). The hypoxic promotor of Vitreoscilla hemoglobin protein (Pvhb) were activied to induce expression of lysis protein (PhiX174E) in the tumor hypoxic microenvironment (3 %), resulting in ECN lysis and subsequent elimination by the immune system. Additionally, D@T@E-PL pass lysis to release relevant antigens (DNA and flagellin). This antigen promotes the polarization of M2-type tumor-promoting macrophages towards M1-type anti-tumor macrophages at the tumor microenvironment by activating Toll-like receptor 4 (TLR4), eliciting immune-mediated anti-tumor responses. The in vivo findings demonstrated that D@T@E-PL intelligent material demonstrated enhanced biosecurity through the lytic circuit and effectively suppressed tumor growth, thereby achieving a dual therapeutic approach combining chemotherapy and immunotherapy for tumor inhibition.
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