Synergistic Brilliance: Engineered Bacteria and Nanomedicine Unite in Cancer Therapy

Engineered bacteria are widely used in cancer treatment because live facultative/obligate anaerobes can selectively proliferate at tumor sites and reach hypoxic regions, thereby causing nutritional competition, enhancing immune responses, and producing anticancer microbial agents in situ to suppress...

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Veröffentlicht in:	Advanced materials (Weinheim) 2024-05, Vol.36 (21), p.e2313953-n/a
Hauptverfasser:	Zhou, Yaofeng, Li, Qianying, Wu, Yuhao, Zhang, Wan, Ding, Lu, Ji, Chenlin, Li, Ping, Chen, Tingtao, Feng, Lili, Tang, Ben Zhong, Huang, Xiaolin
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Sprache:	eng
Schlagworte:	Ablation Anaerobes Anticancer properties Bacteria Cancer therapies engineered bacteria Magnetic properties Microorganisms multimodal cancer therapy nanobiohybrid nanomedicine Optical properties Substrates Synergistic effect synergistic enhancement Therapy Tumors
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container_title	Advanced materials (Weinheim)
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creator	Zhou, Yaofeng Li, Qianying Wu, Yuhao Zhang, Wan Ding, Lu Ji, Chenlin Li, Ping Chen, Tingtao Feng, Lili Tang, Ben Zhong Huang, Xiaolin
description	Engineered bacteria are widely used in cancer treatment because live facultative/obligate anaerobes can selectively proliferate at tumor sites and reach hypoxic regions, thereby causing nutritional competition, enhancing immune responses, and producing anticancer microbial agents in situ to suppress tumor growth. Despite the unique advantages of bacteria‐based cancer biotherapy, the insufficient treatment efficiency limits its application in the complete ablation of malignant tumors. The combination of nanomedicine and engineered bacteria has attracted increasing attention owing to their striking synergistic effects in cancer treatment. Engineered bacteria that function as natural vehicles can effectively deliver nanomedicines to tumor sites. Moreover, bacteria provide an opportunity to enhance nanomedicines by modulating the TME and producing substrates to support nanomedicine‐mediated anticancer reactions. Nanomedicine exhibits excellent optical, magnetic, acoustic, and catalytic properties, and plays an important role in promoting bacteria‐mediated biotherapies. The synergistic anticancer effects of engineered bacteria and nanomedicines in cancer therapy are comprehensively summarized in this review. Attention is paid not only to the fabrication of nanobiohybrid composites, but also to the interpromotion mechanism between engineered bacteria and nanomedicine in cancer therapy. Additionally, recent advances in engineered bacteria‐synergized multimodal cancer therapies are highlighted. Herein, the first systematic and comprehensive review of the development of engineered bacteria in cancer, is provided; and the unique advantages of combining bacteria as anticancer agents with nanomedicines are discussed. This review focuses on the role of bacteria in cancer therapy, integration strategy of bacteria and nanotherapeutic drugs, synergistic mechanism of bacteria and nanomedicines, and bacteria‐synergized multimodal cancer therapy.
doi_str_mv	10.1002/adma.202313953
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Attention is paid not only to the fabrication of nanobiohybrid composites, but also to the interpromotion mechanism between engineered bacteria and nanomedicine in cancer therapy. Additionally, recent advances in engineered bacteria‐synergized multimodal cancer therapies are highlighted. Herein, the first systematic and comprehensive review of the development of engineered bacteria in cancer, is provided; and the unique advantages of combining bacteria as anticancer agents with nanomedicines are discussed. 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Attention is paid not only to the fabrication of nanobiohybrid composites, but also to the interpromotion mechanism between engineered bacteria and nanomedicine in cancer therapy. Additionally, recent advances in engineered bacteria‐synergized multimodal cancer therapies are highlighted. Herein, the first systematic and comprehensive review of the development of engineered bacteria in cancer, is provided; and the unique advantages of combining bacteria as anticancer agents with nanomedicines are discussed. 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subjects	Ablation Anaerobes Anticancer properties Bacteria Cancer therapies engineered bacteria Magnetic properties Microorganisms multimodal cancer therapy nanobiohybrid nanomedicine Optical properties Substrates Synergistic effect synergistic enhancement Therapy Tumors
title	Synergistic Brilliance: Engineered Bacteria and Nanomedicine Unite in Cancer Therapy
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