Summary of ssbd-repos-000232

Name
URL
DOI

Title
Quantitative live-cell imaging of GPCR downstream signaling dynamics.
Description

G-protein-coupled receptors (GPCRs) play an important role in sensing various extracellular stimuli, such as neurotransmitters, hormones, and tastants, and transducing the input information into the cell. While the human genome encodes more than 800 GPCR genes, only four Gα-proteins (Gαs, Gαi/o, Gαq/11, and Gα12/13) are known to couple with GPCRs. It remains unclear how such divergent GPCR information is translated into the downstream G-protein signaling dynamics. To answer this question, we report a live-cell fluorescence imaging system for monitoring GPCR downstream signaling dynamics. Genetically encoded biosensors for cAMP, Ca2+, RhoA, and ERK were selected as markers for GPCR downstream signaling, and were stably expressed in HeLa cells. GPCR was further transiently overexpressed in the cells. As a proof-of-concept, we visualized GPCR signaling dynamics of five dopamine receptors and 12 serotonin receptors, and found heterogeneity between GPCRs and between cells. Even when the same Gα proteins were known to be coupled, the patterns of dynamics in GPCR downstream signaling, including the signal strength and duration, were substantially distinct among GPCRs. These results suggest the importance of dynamical encoding in GPCR signaling.

Submited Date
2022-04-28
Release Date
2022-04-21
Updated Date
2023-06-21
Errata
2023/06/21 Added Trial3-6 files to Figure2/ATP/20211102-ATP-dose
License
Funding information
-
File formats
TIF, ND, NPZ, CSV, TXT
Data size
10.3 GB

Organism
Homo sapiens
Strain
-
Cell Line
HeLa cell
Genes
-
Proteins
-

GO Molecular Function (MF)
-
GO Biological Process (BP)
-
GO Cellular Component (CC)
-
Study Type
-
Imaging Methods
-

Method Summary

Tany R, Goto Y, Kondo Y, Aoki K. Quantitative live-cell imaging of GPCR downstream signaling dynamics. Biochem J. 2022 Apr 29;479(8):883-900. doi: 10.1042/BCJ20220021. PMID: 35383830.

Related paper(s)

Ryosuke Tany, Yuhei Goto, Yohei Kondo, Kazuhiro Aoki (2022) Quantitative live-cell imaging of GPCR downstream signaling dynamics., The Biochemical journal, Volume 479, Number 8, pp. 883-900

Published in 2022 Apr 29

(Abstract) G-protein-coupled receptors (GPCRs) play an important role in sensing various extracellular stimuli, such as neurotransmitters, hormones, and tastants, and transducing the input information into the cell. While the human genome encodes more than 800 GPCR genes, only four Galpha-proteins (Galphas, Galphai/o, Galphaq/11, and Galpha12/13) are known to couple with GPCRs. It remains unclear how such divergent GPCR information is translated into the downstream G-protein signaling dynamics. To answer this question, we report a live-cell fluorescence imaging system for monitoring GPCR downstream signaling dynamics. Genetically encoded biosensors for cAMP, Ca2+, RhoA, and ERK were selected as markers for GPCR downstream signaling, and were stably expressed in HeLa cells. GPCR was further transiently overexpressed in the cells. As a proof-of-concept, we visualized GPCR signaling dynamics of five dopamine receptors and 12 serotonin receptors, and found heterogeneity between GPCRs and between cells. Even when the same Galpha proteins were known to be coupled, the patterns of dynamics in GPCR downstream signaling, including the signal strength and duration, were substantially distinct among GPCRs. These results suggest the importance of dynamical encoding in GPCR signaling.
(MeSH Terms)

Contact(s)
Kazuhiro Aoki
Organization(s)
Division of Quantitative Biology, National Institute for Basic Biology, National Institutes of Natural Sciences
Image Data Contributors
Ryosuke Tany, Yuhei Goto
Quantitative Data Contributors
Ryosuke Tany, Yuhei Goto, Yohei Kondo, Kazuhiro Aoki

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