Spatial Multiplexing of Fluorescent Reporters for Imaging Signaling Network Dynamics

In order to analyze how a signal transduction network converts cellular inputs into cellular outputs, ideally one would measure the dynamics of many signals within the network simultaneously. We found that, by fusing a fluorescent reporter to a pair of self-assembling peptides, it could be stably cl...

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Bibliographic Details
Published in:Cell 2020-12, Vol.183 (6), p.1682-1698.e24
Main Authors: Linghu, Changyang, Johnson, Shannon L., Valdes, Pablo A., Shemesh, Or A., Park, Won Min, Park, Demian, Piatkevich, Kiryl D., Wassie, Asmamaw T., Liu, Yixi, An, Bobae, Barnes, Stephanie A., Celiker, Orhan T., Yao, Chun-Chen, Yu, Chih-Chieh (Jay), Wang, Ru, Adamala, Katarzyna P., Bear, Mark F., Keating, Amy E., Boyden, Edward S.
Format: Article
Language:English
Subjects:
calcium imaging
cAMP
fluorescent reporters
live-cell imaging
protein kinase
protein scaffold
signal transduction
signaling pathway
signaling reporter islands
spatial multiplexing
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Summary:In order to analyze how a signal transduction network converts cellular inputs into cellular outputs, ideally one would measure the dynamics of many signals within the network simultaneously. We found that, by fusing a fluorescent reporter to a pair of self-assembling peptides, it could be stably clustered within cells at random points, distant enough to be resolved by a microscope but close enough to spatially sample the relevant biology. Because such clusters, which we call signaling reporter islands (SiRIs), can be modularly designed, they permit a set of fluorescent reporters to be efficiently adapted for simultaneous measurement of multiple nodes of a signal transduction network within single cells. We created SiRIs for indicators of second messengers and kinases and used them, in hippocampal neurons in culture and intact brain slices, to discover relationships between the speed of calcium signaling, and the amplitude of PKA signaling, upon receiving a cAMP-driving stimulus. [Display omitted] •Clustering fluorescent sensors at points in cells enables many to be imaged at once•Modular reagent design allows existing sensors to be easily adapted to cluster•Such “signaling reporter islands” (SiRIs) are safe and robust in cells and in vivo•SiRIs reveal relationships between components of signal transduction networks Simultaneous signals such as second messengers and kinase activities, within a single cell, can be captured through the fusion of fluorescent reporters to pairs of self-assembling peptides to generate stable signaling reporter islands.
ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2020.10.035