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Living Bacteria‐Based Immuno‐Photodynamic Therapy: Metabolic Labeling of <i>Clostridium butyricum</i> for Eradicating Malignant Melanoma

Leilei Shi, Xiaoxiao Liu, Yuzhen Li, Sha Li, Wenbo Wu, Xihui Gao, Bin Liu

2022Advanced Science46 citationsDOIOpen Access PDF

Abstract

Due to the complexity, aggressiveness, and heterogeneity of malignant melanoma, it is difficult to eradicate the whole tumor through conventional treatment. Herein, a strategy of metabolic engineering labeled anaerobic oncolytic bacteria (Clostridium butyricum) is demonstrated to achieve the ablation of melanoma. In this system, the metabolic substrate of C. butyricum d-alanine (d-Ala) is first conjugated with a photosensitizer (TPApy) showing aggregation-induced emission (AIE). The yielded metabolic substrate of d-Ala-TPAPy can be metabolically incorporated into bacterial peptidoglycan to form engineered C. Butyricum. Once the engineered C. butyricum is injected into melanoma, the bacteria can only proliferate in an anaerobic zone, stimulate the tumor immune microenvironment, and ablate the tumor hypoxia region. Following that, the relatively rich oxygen content in the peripheral area can induce the death of C. butyricum. The photosensitizer (PS) on the bacteria can subsequently exert a photodynamic effect in the oxygen-rich region and further remove the melanoma residue under light irradiation. Prominent in vivo melanoma ablation results revealed that the engineering oncolytic bacteria can provide a promising regime for solid tumor eradication.

Topics & Concepts

Clostridium butyricumOncolytic virusPhotosensitizerMelanomaBacteriaAnaerobic bacteriaChemistryCancer researchClostridiaPhotodynamic therapyMicrobiologyBiologyPhotochemistryTumor cellsGeneticsOrganic chemistryCancer Research and TreatmentsNanoplatforms for cancer theranosticsVirus-based gene therapy research
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