Singapore Institute of Technology
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Prodrug-conjugated tumor-seeking commensals for targeted cancer therapy

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posted on 2024-09-10, 18:55 authored by Haosheng Shen, Changyu Zhang, Shengjie Li, Yuanmei Liang, Li Ting Lee, Nikhil Aggarwal, Kwok Soon Wun, Jing Liu, Saravanan Prabhu Nadarajan, Cheng Weng, Hua Ling, Joshua K. Tay, De Yun Wang, Shao Q. Yao, In Young HwangIn Young Hwang, Yung Seng Lee, Matthew Wook Chang

Prodrugs have been explored as an alternative to conventional chemotherapy; however, their target specificity remains limited. The tumor microenvironment harbors a range of microorganisms that potentially serve as tumor-targeting vectors for delivering prodrugs. In this study, we harness bacteria-cancer interactions native to the tumor microbiome to achieve high target specificity for prodrug delivery. We identify an oral commensal strain of Lactobacillus plantarum with an intrinsic cancer-binding mechanism and engineer the strain to enable the surface loading of anticancer prodrugs, with nasopharyngeal carcinoma (NPC) as a model cancer. The engineered commensals show specific binding to NPC via OppA-mediated recognition of surface heparan sulfate, and the loaded prodrugs are activated by tumor-associated biosignals to release SN-38, a chemotherapy compound, near NPC. In vitro experiments demonstrate that the prodrug-loaded microbes significantly increase the potency of SN-38 against NPC cell lines, up to 10-fold. In a mouse xenograft model, intravenous injection of the engineered L. plantarum leads to bacterial colonization in NPC tumors and a 67% inhibition in tumor growth, enhancing the efficacy of SN-38 by 54%.

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Journal/Conference/Book title

Nature Communications

Publication date

2024-05-21

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  • Published

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