Ion channel mediated mechanotransduction in immune cells

The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited to a host of mechanically active tissues throughout the body and, as a result, are exposed to varying types and degrees of mechanical stimul...

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Published in:	Current opinion in solid state & materials science Vol. 25; no. 6; p. 100951
Main Authors:	Atcha, Hamza, Jairaman, Amit, Evans, Elizabeth L., Pathak, Medha M., Cahalan, Michael D., Liu, Wendy F.
Format:	Journal Article
Language:	English
Published:	England Elsevier Ltd 01-12-2021
Subjects:	Adaptive immunity Innate immunity Macrophage Mechanotransduction Piezo1 T cell Innate immunity Adaptive immunity Mechanotransduction Piezo1 T cell Macrophage macrophage innate immunity mechanotransduction adaptive immunity
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Abstract	The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited to a host of mechanically active tissues throughout the body and, as a result, are exposed to varying types and degrees of mechanical stimuli. Despite their abundance in such tissues, the role of mechanical stimuli in influencing immune cell function and the molecular mechanisms responsible for mechanics-mediated changes are still poorly understood. The recent emergence of mechanically-gated ion channels, particularly Piezo1, has provided an exciting avenue of research within the fields of mechanobiology and immunology. Numerous studies have identified roles for mechanically-gated ion channels in mechanotransduction within various different cell types, with a few recent studies in immune cells. These initial studies provide strong evidence that mechanically-gated ion channels play pivotal roles in regulating the immune system. In this review, we discuss characteristics of ion channel mediated mechanotransduction, review the current techniques used to quantify and visualize ion channel activity in response to mechanical stimuli, and finally we provide an overview of recent studies examining the role of mechanically-gated ion channels in modulating immune cell function.
AbstractList	The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited to a host of mechanically active tissues throughout the body and, as a result, are exposed to varying types and degrees of mechanical stimuli. Despite their abundance in such tissues, the role of mechanical stimuli in influencing immune cell function and the molecular mechanisms responsible for mechanics-mediated changes are still poorly understood. The recent emergence of mechanically-gated ion channels, particularly Piezo1, has provided an exciting avenue of research within the fields of mechanobiology and immunology. Numerous studies have identified roles for mechanically-gated ion channels in mechanotransduction within various different cell types, with a few recent studies in immune cells. These initial studies provide strong evidence that mechanically-gated ion channels play pivotal roles in regulating the immune system. In this review, we discuss characteristics of ion channel mediated force transduction, review the current techniques used to quantify and visualize ion channel activity in response to mechanical stimuli, and finally we provide an overview of recent studies examining the role of mechanically-gated ion channels in modulating immune cell function.The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited to a host of mechanically active tissues throughout the body and, as a result, are exposed to varying types and degrees of mechanical stimuli. Despite their abundance in such tissues, the role of mechanical stimuli in influencing immune cell function and the molecular mechanisms responsible for mechanics-mediated changes are still poorly understood. The recent emergence of mechanically-gated ion channels, particularly Piezo1, has provided an exciting avenue of research within the fields of mechanobiology and immunology. Numerous studies have identified roles for mechanically-gated ion channels in mechanotransduction within various different cell types, with a few recent studies in immune cells. These initial studies provide strong evidence that mechanically-gated ion channels play pivotal roles in regulating the immune system. In this review, we discuss characteristics of ion channel mediated force transduction, review the current techniques used to quantify and visualize ion channel activity in response to mechanical stimuli, and finally we provide an overview of recent studies examining the role of mechanically-gated ion channels in modulating immune cell function. The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited to a host of mechanically active tissues throughout the body and, as a result, are exposed to varying types and degrees of mechanical stimuli. Despite their abundance in such tissues, the role of mechanical stimuli in influencing immune cell function and the molecular mechanisms responsible for mechanics-mediated changes are still poorly understood. The recent emergence of mechanically-gated ion channels, particularly Piezo1, has provided an exciting avenue of research within the fields of mechanobiology and immunology. Numerous studies have identified roles for mechanically-gated ion channels in mechanotransduction within various different cell types, with a few recent studies in immune cells. These initial studies provide strong evidence that mechanically-gated ion channels play pivotal roles in regulating the immune system. In this review, we discuss characteristics of ion channel mediated force transduction, review the current techniques used to quantify and visualize ion channel activity in response to mechanical stimuli, and finally we provide an overview of recent studies examining the role of mechanically-gated ion channels in modulating immune cell function. The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited to a host of mechanically active tissues throughout the body and, as a result, are exposed to varying types and degrees of mechanical stimuli. Despite their abundance in such tissues, the role of mechanical stimuli in influencing immune cell function and the molecular mechanisms responsible for mechanics-mediated changes are still poorly understood. The recent emergence of mechanically-gated ion channels, particularly Piezo1, has provided an exciting avenue of research within the fields of mechanobiology and immunology. Numerous studies have identified roles for mechanically-gated ion channels in mechanotransduction within various different cell types, with a few recent studies in immune cells. These initial studies provide strong evidence that mechanically-gated ion channels play pivotal roles in regulating the immune system. In this review, we discuss characteristics of ion channel mediated mechanotransduction, review the current techniques used to quantify and visualize ion channel activity in response to mechanical stimuli, and finally we provide an overview of recent studies examining the role of mechanically-gated ion channels in modulating immune cell function.
ArticleNumber	100951
Author	Jairaman, Amit Liu, Wendy F. Evans, Elizabeth L. Atcha, Hamza Cahalan, Michael D. Pathak, Medha M.
AuthorAffiliation	2 The Edwards Lifesciences Center for Advanced Cardiovascular Technology, University of California Irvine, Irvine, USA 5 Department of Chemical and Biomolecular Engineering, University of California Irvine, Irvine, USA 3 Department of Physiology and Biophysics, University of California Irvine, Irvine, USA 4 Sue and Bill Gross Stem Cell Research Center, University of California Irvine, Irvine, USA 1 Department of Biomedical Engineering, University of California Irvine, Irvine, USA
AuthorAffiliation_xml	– name: 2 The Edwards Lifesciences Center for Advanced Cardiovascular Technology, University of California Irvine, Irvine, USA – name: 5 Department of Chemical and Biomolecular Engineering, University of California Irvine, Irvine, USA – name: 3 Department of Physiology and Biophysics, University of California Irvine, Irvine, USA – name: 4 Sue and Bill Gross Stem Cell Research Center, University of California Irvine, Irvine, USA – name: 1 Department of Biomedical Engineering, University of California Irvine, Irvine, USA
Author_xml	– sequence: 1 givenname: Hamza surname: Atcha fullname: Atcha, Hamza organization: Department of Biomedical Engineering, University of California Irvine, Irvine, USA – sequence: 2 givenname: Amit surname: Jairaman fullname: Jairaman, Amit organization: Department of Physiology and Biophysics, University of California Irvine, Irvine, USA – sequence: 3 givenname: Elizabeth L. surname: Evans fullname: Evans, Elizabeth L. organization: Department of Physiology and Biophysics, University of California Irvine, Irvine, USA – sequence: 4 givenname: Medha M. surname: Pathak fullname: Pathak, Medha M. organization: Department of Biomedical Engineering, University of California Irvine, Irvine, USA – sequence: 5 givenname: Michael D. surname: Cahalan fullname: Cahalan, Michael D. organization: Department of Physiology and Biophysics, University of California Irvine, Irvine, USA – sequence: 6 givenname: Wendy F. surname: Liu fullname: Liu, Wendy F. email: wendy.liu@uci.edu organization: Department of Biomedical Engineering, University of California Irvine, Irvine, USA
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Keywords	Innate immunity Adaptive immunity Mechanotransduction Piezo1 T cell Macrophage macrophage innate immunity mechanotransduction adaptive immunity
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Snippet	The immune system performs critical functions to defend against invading pathogens and maintain tissue homeostasis. Immune cells reside within or are recruited...
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SubjectTerms	Adaptive immunity Innate immunity Macrophage Mechanotransduction Piezo1 T cell
Title	Ion channel mediated mechanotransduction in immune cells
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