Imaging Approaches to Monitor Inflammasome Activation

[Display omitted] •Essential inflammasome components and their role in activation signaling.•Imaging approaches to monitor individual inflammasome signaling components.•In-vitro imaging tools employed fluorescence and bioluminescence-based approaches.•In-vivo tools include NIRF, PET, FRET, biolumine...

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Veröffentlicht in:Journal of molecular biology 2022-02, Vol.434 (4), p.167251-167251, Article 167251
Hauptverfasser: Nandi, Dipika, Farid, Noorul Shaheen Sheikh, Karuppiah, Hayat Anu Ranjani, Kulkarni, Ashish
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container_end_page 167251
container_issue 4
container_start_page 167251
container_title Journal of molecular biology
container_volume 434
creator Nandi, Dipika
Farid, Noorul Shaheen Sheikh
Karuppiah, Hayat Anu Ranjani
Kulkarni, Ashish
description [Display omitted] •Essential inflammasome components and their role in activation signaling.•Imaging approaches to monitor individual inflammasome signaling components.•In-vitro imaging tools employed fluorescence and bioluminescence-based approaches.•In-vivo tools include NIRF, PET, FRET, bioluminescence and radiolabeling principles.•New avenues for advanced diagnostics and treatment strategies. Inflammasomes are a critical component of innate immune response which plays an important role in the pathogenesis of various chronic and acute inflammatory disease conditions. An inflammasome complex consists of a multimeric protein assembly triggered by any form of pathogenic or sterile insult, resulting in caspase-1 activation. This active enzyme is further known to activate downstream pro-inflammatory cytokines along with a pore-forming protein, eventually leading to a lytic cell death called pyroptosis. Understanding the spatiotemporal kinetics of essential inflammasome components provides a better interpretation of the complex signaling underlying inflammation during several disease pathologies. This can be attained via in-vitro and in-vivo imaging platforms, which not only provide a basic understanding of molecular signaling but are also crucial to develop and screen targeted therapeutics. To date, numerous studies have reported platforms to image different signaling components participating in inflammasome activation. Here, we review several elements of inflammasome signaling, a common molecular mechanism combining these elements and their respective imaging tools. We anticipate that future needs will include developing new inflammasome imaging systems that can be utilized as clinical tools for diagnostics and monitoring treatment responses.
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Inflammasomes are a critical component of innate immune response which plays an important role in the pathogenesis of various chronic and acute inflammatory disease conditions. An inflammasome complex consists of a multimeric protein assembly triggered by any form of pathogenic or sterile insult, resulting in caspase-1 activation. This active enzyme is further known to activate downstream pro-inflammatory cytokines along with a pore-forming protein, eventually leading to a lytic cell death called pyroptosis. Understanding the spatiotemporal kinetics of essential inflammasome components provides a better interpretation of the complex signaling underlying inflammation during several disease pathologies. This can be attained via in-vitro and in-vivo imaging platforms, which not only provide a basic understanding of molecular signaling but are also crucial to develop and screen targeted therapeutics. To date, numerous studies have reported platforms to image different signaling components participating in inflammasome activation. Here, we review several elements of inflammasome signaling, a common molecular mechanism combining these elements and their respective imaging tools. 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subjects Caspase 1 - metabolism
caspase-1
Enzyme Activation
Humans
imaging
Immunity, Innate
inflammasomes
Inflammasomes - metabolism
inflammation
Inflammation - immunology
Molecular Imaging
Pyroptosis
title Imaging Approaches to Monitor Inflammasome Activation
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