ExoJ - a Fiji/ImageJ2 plugin for automated spatiotemporal detection and analysis of exocytosis

Junjun Liu; Frederik Johannes Verweij; Guillaume van Niel; Thierry Galli; Lydia Danglot; Philippe Bun

doi:10.1242/jcs.261938

ExoJ - a Fiji/ImageJ2 plugin for automated spatiotemporal detection and analysis of exocytosis

Junjun Liu
, Frederik Johannes Verweij
, Guillaume van Niel
, Thierry Galli
, Lydia Danglot^*
, Philippe Bun^*

^*Corresponding author for this work

Cell Biology, Neurobiology and Biophysics

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Exocytosis is a dynamic physiological process that enables the release of biomolecules to the surrounding environment via the fusion of membrane compartments to the plasma membrane. Understanding its mechanisms is crucial, as defects can compromise essential biological functions. The development of pH-sensitive optical reporters alongside fluorescence microscopy enables the assessment of individual vesicle exocytosis events at the cellular level. Manual annotation represents, however, a time-consuming task that is prone to selection biases and human operational errors. Here, we introduce ExoJ, an automated plugin based on Fiji/ImageJ2 software. ExoJ identifies user-defined genuine populations of exocytosis events, recording quantitative features including intensity, apparent size and duration. We designed ExoJ to be fully user-configurable, making it suitable for studying distinct forms of vesicle exocytosis regardless of the imaging quality. Our plugin demonstrates its capabilities by showcasing distinct exocytic dynamics among tetraspanins and vesicular SNARE protein reporters. Assessment of performance on synthetic data shows that ExoJ is a robust tool that is capable of correctly identifying exocytosis events independently of signal-to-noise ratio conditions. We propose ExoJ as a standard solution for future comparative and quantitative studies of exocytosis.

Original language	English
Article number	jcs261938
Number of pages	21
Journal	Journal of Cell Science
Volume	137
Issue number	20
DOIs	https://doi.org/10.1242/jcs.261938
Publication status	Published - Oct 2024

Bibliographical note

Publisher Copyright:
© 2024. Published by The Company of Biologists Ltd.

Funding

The authors thank the NeurImag imaging facility of the Institute of Psychiatry and Neurosciences of Paris (Inserm U1266) where the imaging experiments were carried out. NeurImag is part of GIS IBISA and the national infrastructure France BioImaging supported by the French National Research Agency (ANR-10-INBS-04). We thank Dr Liangyi Chen and Dr Yongdeng Zhang for sharing their MATLAB executable tool for exocytosis detection. We are grateful to Julie N\u2019guyen for maintaining and providing HeLa cells. We thank Dr Sebastien Nola, Dr C\u00E9dric Blouin and Brett Davis for their insightful comments on the manuscript. Zeiss Confocal LSM 880 Elyra PS.1 equipped with a TIRF module was purchased with a R\u00E9gion Ile-deFrance grant awarded to Lydia Danglot DIM Cerveau et Pens\u00E9e project. Guillaume Van Niel would like to acknowledge Institut National du Cancer, Fondation ARC pour la Recherche sur le Cancer and the ANR for their financial support. This work was supported by Agence Nationale de la Recherche (ANR; ANR-19-HBPR-0003, ANR-19-CE16-0012) and FLAGship European Research Area network (FLAG-ERA network; Sensei grant 19-CE16-0012-01) to L.D., by a European Molecular Biology Organization grant (EMBO ALTF 1383-2014), a Fondation ARC pour la Recherche sur le Cancer fellowship (PGA1RF20190208474) to F.J.V., a Fondation pour la Recherche M\u00E9dicale grant (AJE20160635884) to G.v.N, and an Institut National Du Cancer grant (INCA no. 2019-125 PLBIO19-059) and ANR (ANR-20-CE18-0026-01) to F.J.V. and G.v.N. This work was supported by Agence Nationale de la Recherche (ANR; ANR-19-HBPR-0003, ANR-19-CE16-0012) and FLAGship European Research Area network (FLAG-ERA network; Sensei grant 19-CE16-0012-01) to L.D., by a European Molecular Biology Organization grant (EMBO ALTF 1383-2014), a Fondation ARC pour la Recherche sur le Cancer fellowship (PGA1RF20190208474) to F.J.V., a Fondation pour la Recherche Me\u0301dicale grant (AJE20160635884) to G.v.N, and an Institut National Du Cancer grant (INCA no. 2019-125 PLBIO19-059) and ANR (ANR-20-CE18-0026-01) to F.J.V. and G.v.N. The authors thank the NeurImag imaging facility of the Institute of Psychiatry and Neurosciences of Paris (Inserm U1266) where the imaging experiments were carried out. NeurImag is part of GIS IBISA and the national infrastructure France BioImaging supported by the French National Research Agency (ANR-10-INBS-04). We thank Dr Liangyi Chen and Dr Yongdeng Zhang for sharing their MATLAB executable tool for exocytosis detection. We are grateful to Julie N\u2019guyen for maintaining and providing HeLa cells. We thank Dr Sebastien Nola, Dr Ce\u0301dric Blouin and Brett Davis for their insightful comments on the manuscript. Zeiss Confocal LSM 880 Elyra PS.1 equipped with a TIRF module was purchased with a Re\u0301gion Ile-de-France grant awarded to Lydia Danglot DIM Cerveau et Pense\u0301e project. Guillaume Van Niel would like to acknowledge Institut National du Cancer, Fondation ARC pour la Recherche sur le Cancer and the ANR for their financial support.

Funders	Funder number
International Research Foundation for English Language Education
European Molecular Biology Organization	EMBO ALTF 1383-2014
European Molecular Biology Organization
Institut National Du Cancer	2019-125 PLBIO19-059, ANR-20-CE18-0026-01
Institut National Du Cancer
Agence Nationale de la Recherche	19-CE16-0012-01, ANR-19-CE16-0012, ANR-10-INBS-04, ANR-19-HBPR-0003
Agence Nationale de la Recherche
Fondation ARC pour la Recherche sur le Cancer	PGA1RF20190208474
Fondation ARC pour la Recherche sur le Cancer
Fondation pour la Recherche Médicale	AJE20160635884
Fondation pour la Recherche Médicale
Institut national de la santé et de la recherche médicale	U1266
Institut national de la santé et de la recherche médicale

Keywords

Exocytosis
Fluorescence imaging
ImageJ
Live-cell imaging
pH-sensitive probe

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10.1242/jcs.261938

ExoJ – a Fiji/ImageJ2 plugin for automated spatiotemporal detection and analysis of exocytosisFinal published version, 5.68 MBLicence: Taverne

Cite this

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title = "ExoJ - a Fiji/ImageJ2 plugin for automated spatiotemporal detection and analysis of exocytosis",

abstract = "Exocytosis is a dynamic physiological process that enables the release of biomolecules to the surrounding environment via the fusion of membrane compartments to the plasma membrane. Understanding its mechanisms is crucial, as defects can compromise essential biological functions. The development of pH-sensitive optical reporters alongside fluorescence microscopy enables the assessment of individual vesicle exocytosis events at the cellular level. Manual annotation represents, however, a time-consuming task that is prone to selection biases and human operational errors. Here, we introduce ExoJ, an automated plugin based on Fiji/ImageJ2 software. ExoJ identifies user-defined genuine populations of exocytosis events, recording quantitative features including intensity, apparent size and duration. We designed ExoJ to be fully user-configurable, making it suitable for studying distinct forms of vesicle exocytosis regardless of the imaging quality. Our plugin demonstrates its capabilities by showcasing distinct exocytic dynamics among tetraspanins and vesicular SNARE protein reporters. Assessment of performance on synthetic data shows that ExoJ is a robust tool that is capable of correctly identifying exocytosis events independently of signal-to-noise ratio conditions. We propose ExoJ as a standard solution for future comparative and quantitative studies of exocytosis.",

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author = "Junjun Liu and Verweij, \{Frederik Johannes\} and \{van Niel\}, Guillaume and Thierry Galli and Lydia Danglot and Philippe Bun",

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AU - Liu, Junjun

AU - Verweij, Frederik Johannes

AU - van Niel, Guillaume

AU - Galli, Thierry

AU - Danglot, Lydia

AU - Bun, Philippe

PY - 2024/10

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N2 - Exocytosis is a dynamic physiological process that enables the release of biomolecules to the surrounding environment via the fusion of membrane compartments to the plasma membrane. Understanding its mechanisms is crucial, as defects can compromise essential biological functions. The development of pH-sensitive optical reporters alongside fluorescence microscopy enables the assessment of individual vesicle exocytosis events at the cellular level. Manual annotation represents, however, a time-consuming task that is prone to selection biases and human operational errors. Here, we introduce ExoJ, an automated plugin based on Fiji/ImageJ2 software. ExoJ identifies user-defined genuine populations of exocytosis events, recording quantitative features including intensity, apparent size and duration. We designed ExoJ to be fully user-configurable, making it suitable for studying distinct forms of vesicle exocytosis regardless of the imaging quality. Our plugin demonstrates its capabilities by showcasing distinct exocytic dynamics among tetraspanins and vesicular SNARE protein reporters. Assessment of performance on synthetic data shows that ExoJ is a robust tool that is capable of correctly identifying exocytosis events independently of signal-to-noise ratio conditions. We propose ExoJ as a standard solution for future comparative and quantitative studies of exocytosis.

AB - Exocytosis is a dynamic physiological process that enables the release of biomolecules to the surrounding environment via the fusion of membrane compartments to the plasma membrane. Understanding its mechanisms is crucial, as defects can compromise essential biological functions. The development of pH-sensitive optical reporters alongside fluorescence microscopy enables the assessment of individual vesicle exocytosis events at the cellular level. Manual annotation represents, however, a time-consuming task that is prone to selection biases and human operational errors. Here, we introduce ExoJ, an automated plugin based on Fiji/ImageJ2 software. ExoJ identifies user-defined genuine populations of exocytosis events, recording quantitative features including intensity, apparent size and duration. We designed ExoJ to be fully user-configurable, making it suitable for studying distinct forms of vesicle exocytosis regardless of the imaging quality. Our plugin demonstrates its capabilities by showcasing distinct exocytic dynamics among tetraspanins and vesicular SNARE protein reporters. Assessment of performance on synthetic data shows that ExoJ is a robust tool that is capable of correctly identifying exocytosis events independently of signal-to-noise ratio conditions. We propose ExoJ as a standard solution for future comparative and quantitative studies of exocytosis.

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KW - Fluorescence imaging

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KW - Live-cell imaging

KW - pH-sensitive probe

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ExoJ - a Fiji/ImageJ2 plugin for automated spatiotemporal detection and analysis of exocytosis

Abstract

Bibliographical note

Funding

Keywords

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