Tumour-targeting bacteria engineered to fight cancer

免疫疗法 医学 细菌 临床试验 靶向治疗 生物 癌症 癌症治疗 免疫系统 免疫学 生物信息学 内科学 遗传学
作者
Shibin Zhou,Claudia Gravekamp,David Bermudes,Ke Liu
出处
期刊:Nature Reviews Cancer [Nature Portfolio]
卷期号:18 (12): 727-743 被引量:784
标识
DOI:10.1038/s41568-018-0070-z
摘要

Recent advances in targeted therapy and immunotherapy have once again raised the hope that a cure might be within reach for many cancer types. Yet, most late-stage cancers are either insensitive to the therapies to begin with or develop resistance later. Therapy with live tumour-targeting bacteria provides a unique option to meet these challenges. Compared with most other therapeutics, the effectiveness of tumour-targeting bacteria is not directly affected by the ‘genetic makeup’ of a tumour. Bacteria initiate their direct antitumour effects from deep within the tumour, followed by innate and adaptive antitumour immune responses. As microscopic ‘robotic factories’, bacterial vectors can be reprogrammed following simple genetic rules or sophisticated synthetic bioengineering principles to produce and deliver anticancer agents on the basis of clinical needs. Therapeutic approaches using live tumour-targeting bacteria can either be applied as a monotherapy or complement other anticancer therapies to achieve better clinical outcomes. In this Review, we summarize the potential benefits and challenges of this approach. We discuss how live bacteria selectively induce tumour regression and provide examples to illustrate different ways to engineer bacteria for improved safety and efficacy. Finally, we share our experience and insights on oncology clinical trials with tumour-targeting bacteria, including a discussion of the regulatory issues. Therapy with live tumour-targeting bacteria represents a unique opportunity to address the limitations associated with molecularly targeted therapies and immunotherapies. In this Review, Zhou et al. discuss the benefits and challenges of this approach and outline advances in the engineering of bacteria, which have the potential to improve safety and efficacy.
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