用于哺乳动物合成生物学中生物医学应用的光遗传学装置工程。

Engineering of optogenetic devices for biomedical applications in mammalian synthetic biology.

作者信息

Guan Ningzi, Gao Xianyun, Ye Haifeng

机构信息

Synthetic Biology and Biomedical Engineering Laboratory Biomedical Synthetic Biology Research Center Shanghai Key Laboratory of Regulatory Biology Institute of Biomedical Sciences and School of Life Sciences East China Normal University Shanghai China.

出版信息

Eng Biol. 2022 Jul 7;6(2-3):35-49. doi: 10.1049/enb2.12022. eCollection 2022 Jun-Sep.

DOI:10.1049/enb2.12022

PMID:36969102

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9996731/

Abstract

Gene- and cell-based therapies are the next frontiers in the field of medicine. Both are transformative and innovative therapies; however, a lack of safety data limits the translation of such promising technologies to the clinic. Improving the safety and promoting the clinical translation of these therapies can be achieved by tightly regulating the release and delivery of therapeutic outputs. In recent years, the rapid development of optogenetic technology has provided opportunities to develop precision-controlled gene- and cell-based therapies, in which light is introduced to precisely and spatiotemporally manipulate the behaviour of genes and cells. This review focuses on the development of optogenetic tools and their applications in biomedicine, including photoactivated genome engineering and phototherapy for diabetes and tumours. The prospects and challenges of optogenetic tools for future clinical applications are also discussed.

摘要

基于基因和细胞的疗法是医学领域的下一个前沿领域。这两种都是变革性和创新性的疗法；然而，缺乏安全数据限制了这些有前景的技术向临床的转化。通过严格调控治疗产物的释放和递送，可以提高这些疗法的安全性并促进其临床转化。近年来，光遗传学技术的快速发展为开发精确控制的基于基因和细胞的疗法提供了机会，其中引入光以精确地在时空上操纵基因和细胞的行为。本综述重点介绍光遗传学工具的发展及其在生物医学中的应用，包括光激活基因组工程以及糖尿病和肿瘤的光疗。还讨论了光遗传学工具在未来临床应用中的前景和挑战。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/af14/9996731/ef0d09dd325a/ENB2-6-35-g005.jpg

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用于哺乳动物合成生物学中生物医学应用的光遗传学装置工程。

Engineering of optogenetic devices for biomedical applications in mammalian synthetic biology.

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