A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption

SIGNIFICANCE: Genetically encoded calcium ion (Ca(2+)) indicators (GECIs) are powerful tools for monitoring intracellular Ca(2+) concentration changes in living cells and model organisms. In particular, GECIs have found particular utility for monitoring the transient increase of Ca(2+) concentration...

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Autores principales: Aggarwal, Abhi, Sunil, Smrithi, Bendifallah, Imane, Moon, Michael, Drobizhev, Mikhail, Zarowny, Landon, Zheng, Jihong, Wu, Sheng-Yi, Lohman, Alexander W., Tebo, Alison G., Emiliani, Valentina, Podgorski, Kaspar, Shen, Yi, Campbell, Robert E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10614751/
https://www.ncbi.nlm.nih.gov/pubmed/37905143
http://dx.doi.org/10.1101/2023.10.12.562058
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author Aggarwal, Abhi
Sunil, Smrithi
Bendifallah, Imane
Moon, Michael
Drobizhev, Mikhail
Zarowny, Landon
Zheng, Jihong
Wu, Sheng-Yi
Lohman, Alexander W.
Tebo, Alison G.
Emiliani, Valentina
Podgorski, Kaspar
Shen, Yi
Campbell, Robert E.
author_facet Aggarwal, Abhi
Sunil, Smrithi
Bendifallah, Imane
Moon, Michael
Drobizhev, Mikhail
Zarowny, Landon
Zheng, Jihong
Wu, Sheng-Yi
Lohman, Alexander W.
Tebo, Alison G.
Emiliani, Valentina
Podgorski, Kaspar
Shen, Yi
Campbell, Robert E.
author_sort Aggarwal, Abhi
collection PubMed
description SIGNIFICANCE: Genetically encoded calcium ion (Ca(2+)) indicators (GECIs) are powerful tools for monitoring intracellular Ca(2+) concentration changes in living cells and model organisms. In particular, GECIs have found particular utility for monitoring the transient increase of Ca(2+) concentration that is associated with the neuronal action potential. However, the palette of highly optimized GECIs for imaging of neuronal activity remains relatively limited. Expanding the selection of available GECIs to include new colors and distinct photophysical properties could create new opportunities for in vitro and in vivo fluorescence imaging of neuronal activity. In particular, blue-shifted variants of GECIs are expected to have enhanced two-photon brightness, which would facilitate multiphoton microscopy. AIM: We describe the development and applications of T-GECO1 – a high-performance blue-shifted GECI based on the Clavularia sp.-derived mTFP1. APPROACH: We used protein engineering and extensive directed evolution to develop T-GECO1. We characterize the purified protein and assess its performance in vitro using one-photon excitation in cultured rat hippocampal neurons, in vivo using one-photon excitation fiber photometry in mice, and ex vivo using two-photon Ca(2+) imaging in hippocampal slices. RESULTS: The Ca(2+)-bound state of T-GECO1 has an excitation peak maximum of 468 nm, an emission peak maximum of 500 nm, an extinction coefficient of 49,300 M(−1)cm(−1), a quantum yield of 0.83, and two-photon brightness approximately double that of EGFP. The Ca(2+)-dependent fluorescence increase is 15-fold and the apparent K(d) for Ca(2+) is 82 nM. With two-photon excitation conditions at 850 nm, T-GECO1 consistently enabled detection of action potentials with higher signal-to-noise (SNR) than a late generation GCaMP variant. CONCLUSION: T-GECO1 is a high performance blue-shifted GECI that, under two-photon excitation conditions, provides advantages relative to late generation GCaMP variants.
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spelling pubmed-106147512023-10-31 A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption Aggarwal, Abhi Sunil, Smrithi Bendifallah, Imane Moon, Michael Drobizhev, Mikhail Zarowny, Landon Zheng, Jihong Wu, Sheng-Yi Lohman, Alexander W. Tebo, Alison G. Emiliani, Valentina Podgorski, Kaspar Shen, Yi Campbell, Robert E. bioRxiv Article SIGNIFICANCE: Genetically encoded calcium ion (Ca(2+)) indicators (GECIs) are powerful tools for monitoring intracellular Ca(2+) concentration changes in living cells and model organisms. In particular, GECIs have found particular utility for monitoring the transient increase of Ca(2+) concentration that is associated with the neuronal action potential. However, the palette of highly optimized GECIs for imaging of neuronal activity remains relatively limited. Expanding the selection of available GECIs to include new colors and distinct photophysical properties could create new opportunities for in vitro and in vivo fluorescence imaging of neuronal activity. In particular, blue-shifted variants of GECIs are expected to have enhanced two-photon brightness, which would facilitate multiphoton microscopy. AIM: We describe the development and applications of T-GECO1 – a high-performance blue-shifted GECI based on the Clavularia sp.-derived mTFP1. APPROACH: We used protein engineering and extensive directed evolution to develop T-GECO1. We characterize the purified protein and assess its performance in vitro using one-photon excitation in cultured rat hippocampal neurons, in vivo using one-photon excitation fiber photometry in mice, and ex vivo using two-photon Ca(2+) imaging in hippocampal slices. RESULTS: The Ca(2+)-bound state of T-GECO1 has an excitation peak maximum of 468 nm, an emission peak maximum of 500 nm, an extinction coefficient of 49,300 M(−1)cm(−1), a quantum yield of 0.83, and two-photon brightness approximately double that of EGFP. The Ca(2+)-dependent fluorescence increase is 15-fold and the apparent K(d) for Ca(2+) is 82 nM. With two-photon excitation conditions at 850 nm, T-GECO1 consistently enabled detection of action potentials with higher signal-to-noise (SNR) than a late generation GCaMP variant. CONCLUSION: T-GECO1 is a high performance blue-shifted GECI that, under two-photon excitation conditions, provides advantages relative to late generation GCaMP variants. Cold Spring Harbor Laboratory 2023-10-17 /pmc/articles/PMC10614751/ /pubmed/37905143 http://dx.doi.org/10.1101/2023.10.12.562058 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/) , which allows reusers to copy and distribute the material in any medium or format in unadapted form only, for noncommercial purposes only, and only so long as attribution is given to the creator.
spellingShingle Article
Aggarwal, Abhi
Sunil, Smrithi
Bendifallah, Imane
Moon, Michael
Drobizhev, Mikhail
Zarowny, Landon
Zheng, Jihong
Wu, Sheng-Yi
Lohman, Alexander W.
Tebo, Alison G.
Emiliani, Valentina
Podgorski, Kaspar
Shen, Yi
Campbell, Robert E.
A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption
title A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption
title_full A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption
title_fullStr A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption
title_full_unstemmed A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption
title_short A blue-shifted genetically encoded Ca(2+) indicator with enhanced two-photon absorption
title_sort blue-shifted genetically encoded ca(2+) indicator with enhanced two-photon absorption
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10614751/
https://www.ncbi.nlm.nih.gov/pubmed/37905143
http://dx.doi.org/10.1101/2023.10.12.562058
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