Recent advances in cellular optogenetics for photomedicine

[Display omitted] Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of profound brain function by selectively manipulating neural circuits. In an optogenetic system, optical stimulation can be prec...

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Published in:	Advanced drug delivery reviews Vol. 188; p. 114457
Main Authors:	Chen, Bing, Cui, Meihui, Wang, Yuan, Shi, Peng, Wang, Hanjie, Wang, Feng
Format:	Journal Article
Language:	English
Published:	Netherlands Elsevier B.V 01.09.2022
Subjects:	Animals Brain - physiology Channelrhodopsins - metabolism Humans Light delivery Mammals - physiology Microbiota - physiology Neuronal regulation Neurons - metabolism Optogenetic tools Optogenetics - methods Optogenetics - trends Phototherapy Phototherapy - trends Signal Transduction Signaling pathways Signaling pathways Neuronal regulation Optogenetic tools Light delivery Phototherapy
ISSN:	0169-409X, 1872-8294, 1872-8294
Online Access:	Get full text
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Abstract	[Display omitted] Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of profound brain function by selectively manipulating neural circuits. In an optogenetic system, optical stimulation can be precisely delivered to brain tissue to achieve regulation of cellular electrical activity with unprecedented spatio-temporal resolution in living organisms. In recent years, the development of various optical actuators and novel light-delivery techniques has greatly expanded the scope of optogenetics, enabling the control of other signal pathways in non-neuronal cells for different biomedical applications, such as phototherapy and immunotherapy. This review focuses on the recent advances in optogenetic regulation of cellular activities for photomedicine. We discuss emerging optogenetic tools and light-delivery platforms, along with a survey of optogenetic execution in mammalian and microbial cells.
AbstractList	[Display omitted] Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of profound brain function by selectively manipulating neural circuits. In an optogenetic system, optical stimulation can be precisely delivered to brain tissue to achieve regulation of cellular electrical activity with unprecedented spatio-temporal resolution in living organisms. In recent years, the development of various optical actuators and novel light-delivery techniques has greatly expanded the scope of optogenetics, enabling the control of other signal pathways in non-neuronal cells for different biomedical applications, such as phototherapy and immunotherapy. This review focuses on the recent advances in optogenetic regulation of cellular activities for photomedicine. We discuss emerging optogenetic tools and light-delivery platforms, along with a survey of optogenetic execution in mammalian and microbial cells. Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of profound brain function by selectively manipulating neural circuits. In an optogenetic system, optical stimulation can be precisely delivered to brain tissue to achieve regulation of cellular electrical activity with unprecedented spatio-temporal resolution in living organisms. In recent years, the development of various optical actuators and novel light-delivery techniques has greatly expanded the scope of optogenetics, enabling the control of other signal pathways in non-neuronal cells for different biomedical applications, such as phototherapy and immunotherapy. This review focuses on the recent advances in optogenetic regulation of cellular activities for photomedicine. We discuss emerging optogenetic tools and light-delivery platforms, along with a survey of optogenetic execution in mammalian and microbial cells.Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of profound brain function by selectively manipulating neural circuits. In an optogenetic system, optical stimulation can be precisely delivered to brain tissue to achieve regulation of cellular electrical activity with unprecedented spatio-temporal resolution in living organisms. In recent years, the development of various optical actuators and novel light-delivery techniques has greatly expanded the scope of optogenetics, enabling the control of other signal pathways in non-neuronal cells for different biomedical applications, such as phototherapy and immunotherapy. This review focuses on the recent advances in optogenetic regulation of cellular activities for photomedicine. We discuss emerging optogenetic tools and light-delivery platforms, along with a survey of optogenetic execution in mammalian and microbial cells. Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of profound brain function by selectively manipulating neural circuits. In an optogenetic system, optical stimulation can be precisely delivered to brain tissue to achieve regulation of cellular electrical activity with unprecedented spatio-temporal resolution in living organisms. In recent years, the development of various optical actuators and novel light-delivery techniques has greatly expanded the scope of optogenetics, enabling the control of other signal pathways in non-neuronal cells for different biomedical applications, such as phototherapy and immunotherapy. This review focuses on the recent advances in optogenetic regulation of cellular activities for photomedicine. We discuss emerging optogenetic tools and light-delivery platforms, along with a survey of optogenetic execution in mammalian and microbial cells.
ArticleNumber	114457
Author	Shi, Peng Wang, Hanjie Wang, Yuan Chen, Bing Cui, Meihui Wang, Feng
Author_xml	– sequence: 1 givenname: Bing surname: Chen fullname: Chen, Bing organization: Department of Materials Science and Engineering, City University of Hong Kong, 83 Tat Chee Avenue, Kowloon, Hong Kong SAR, China – sequence: 2 givenname: Meihui surname: Cui fullname: Cui, Meihui organization: School of Life Sciences, Tianjin University, Tianjin 300072, China – sequence: 3 givenname: Yuan surname: Wang fullname: Wang, Yuan organization: Department of Biomedical Engineering, City University of Hong Kong, 83 Tat Chee Avenue, Kowloon, Hong Kong SAR, China – sequence: 4 givenname: Peng surname: Shi fullname: Shi, Peng email: pengshi@cityu.edu.hk organization: Department of Biomedical Engineering, City University of Hong Kong, 83 Tat Chee Avenue, Kowloon, Hong Kong SAR, China – sequence: 5 givenname: Hanjie surname: Wang fullname: Wang, Hanjie email: wanghj@tju.edu.cn organization: School of Life Sciences, Tianjin University, Tianjin 300072, China – sequence: 6 givenname: Feng surname: Wang fullname: Wang, Feng email: fwang24@cityu.edu.hk organization: Department of Materials Science and Engineering, City University of Hong Kong, 83 Tat Chee Avenue, Kowloon, Hong Kong SAR, China
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Keywords	Signaling pathways Neuronal regulation Optogenetic tools Light delivery Phototherapy
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Snippet	[Display omitted] Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial... Since the successful introduction of exogenous photosensitive proteins, channelrhodopsin, to neurons, optogenetics has enabled substantial understanding of...
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SubjectTerms	Animals Brain - physiology Channelrhodopsins - metabolism Humans Light delivery Mammals - physiology Microbiota - physiology Neuronal regulation Neurons - metabolism Optogenetic tools Optogenetics - methods Optogenetics - trends Phototherapy Phototherapy - trends Signal Transduction Signaling pathways
Title	Recent advances in cellular optogenetics for photomedicine
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