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Fluorescent fatty acid conjugates for live cell imaging of peroxisomes

Fluorescent fatty acid conjugates for live cell imaging of peroxisomes
Fluorescent fatty acid conjugates for live cell imaging of peroxisomes
Peroxisomes are eukaryotic organelles that are essential for multiple metabolic pathways, including fatty acid oxidation, degradation of amino acids, and biosynthesis of ether lipids. Consequently, peroxisome dysfunction leads to pediatric-onset neurodegenerative conditions, including Peroxisome Biogenesis Disorders (PBD). Due to the dynamic, tissue-specific, and context-dependent nature of their biogenesis and function, live cell imaging of peroxisomes is essential for studying peroxisome regulation, as well as for the diagnosis of PBD-linked abnormalities. However, the peroxisomal imaging toolkit is lacking in many respects, with no reporters for substrate import, nor cell-permeable probes that could stain dysfunctional peroxisomes. Here we report that the BODIPY-C12 fluorescent fatty acid probe stains functional and dysfunctional peroxisomes in live mammalian cells. We then go on to improve BODIPY-C12, generating peroxisome-specific reagents, PeroxiSPY650 and PeroxiSPY555. These probes combine high peroxisome specificity, bright fluorescence in the red and far-red spectrum, and fast non-cytotoxic staining, making them ideal tools for live cell, whole organism, or tissue imaging of peroxisomes. Finally, we demonstrate that PeroxiSPY enables diagnosis of peroxisome abnormalities in the PBD CRISPR/Cas9 cell models and patient-derived cell lines.
Animals, Boron Compounds/chemistry, Fatty Acids/metabolism, Fluorescent Dyes/chemistry, Humans, Imaging, PBD, PEX10, PeroxiSPY, Peroxisomal Disorders/metabolism, Peroxisome, Peroxisome Biogenesis Disorder, Peroxisomes/metabolism
2041-1723
Korotkova, Daria
d616a16c-ada5-430c-8217-580f1880151c
Borisyuk, Anya
ab94722b-4ac9-4ff4-8cc7-638191154a84
Guihur, Anthony
f98ae182-ebfb-4c54-83ab-b25383a0de64
Bardyn, Manon
925d8e8b-f407-4c39-aa45-df749d99257a
Kuttler, Fabien
3775ab57-f85d-45a9-a159-980e415e04ac
Reymond, Luc
9e7a8adb-3553-4b10-ba71-5f2225c00a7c
Schuhmacher, Milena
3168a43b-4011-4819-bd13-6fda8df901a7
Amen, Triana
388dc540-e819-4d07-8f1e-ee0f3949a54b
Korotkova, Daria
d616a16c-ada5-430c-8217-580f1880151c
Borisyuk, Anya
ab94722b-4ac9-4ff4-8cc7-638191154a84
Guihur, Anthony
f98ae182-ebfb-4c54-83ab-b25383a0de64
Bardyn, Manon
925d8e8b-f407-4c39-aa45-df749d99257a
Kuttler, Fabien
3775ab57-f85d-45a9-a159-980e415e04ac
Reymond, Luc
9e7a8adb-3553-4b10-ba71-5f2225c00a7c
Schuhmacher, Milena
3168a43b-4011-4819-bd13-6fda8df901a7
Amen, Triana
388dc540-e819-4d07-8f1e-ee0f3949a54b

Korotkova, Daria, Borisyuk, Anya, Guihur, Anthony, Bardyn, Manon, Kuttler, Fabien, Reymond, Luc, Schuhmacher, Milena and Amen, Triana (2024) Fluorescent fatty acid conjugates for live cell imaging of peroxisomes. Nature Communications, 15 (1), [4314]. (doi:10.1038/s41467-024-48679-2).

Record type: Article

Abstract

Peroxisomes are eukaryotic organelles that are essential for multiple metabolic pathways, including fatty acid oxidation, degradation of amino acids, and biosynthesis of ether lipids. Consequently, peroxisome dysfunction leads to pediatric-onset neurodegenerative conditions, including Peroxisome Biogenesis Disorders (PBD). Due to the dynamic, tissue-specific, and context-dependent nature of their biogenesis and function, live cell imaging of peroxisomes is essential for studying peroxisome regulation, as well as for the diagnosis of PBD-linked abnormalities. However, the peroxisomal imaging toolkit is lacking in many respects, with no reporters for substrate import, nor cell-permeable probes that could stain dysfunctional peroxisomes. Here we report that the BODIPY-C12 fluorescent fatty acid probe stains functional and dysfunctional peroxisomes in live mammalian cells. We then go on to improve BODIPY-C12, generating peroxisome-specific reagents, PeroxiSPY650 and PeroxiSPY555. These probes combine high peroxisome specificity, bright fluorescence in the red and far-red spectrum, and fast non-cytotoxic staining, making them ideal tools for live cell, whole organism, or tissue imaging of peroxisomes. Finally, we demonstrate that PeroxiSPY enables diagnosis of peroxisome abnormalities in the PBD CRISPR/Cas9 cell models and patient-derived cell lines.

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s41467-024-48679-2 - Version of Record
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Accepted/In Press date: 9 May 2024
Published date: 21 May 2024
Additional Information: Publisher Copyright: © The Author(s) 2024.
Keywords: Animals, Boron Compounds/chemistry, Fatty Acids/metabolism, Fluorescent Dyes/chemistry, Humans, Imaging, PBD, PEX10, PeroxiSPY, Peroxisomal Disorders/metabolism, Peroxisome, Peroxisome Biogenesis Disorder, Peroxisomes/metabolism

Identifiers

Local EPrints ID: 490592
URI: http://eprints.soton.ac.uk/id/eprint/490592
ISSN: 2041-1723
PURE UUID: fcf4edf4-572b-4c80-a7d8-e3947c74d820
ORCID for Triana Amen: ORCID iD orcid.org/0000-0003-4808-7806

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Date deposited: 30 May 2024 17:05
Last modified: 15 Jun 2024 02:09

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Contributors

Author: Daria Korotkova
Author: Anya Borisyuk
Author: Anthony Guihur
Author: Manon Bardyn
Author: Fabien Kuttler
Author: Luc Reymond
Author: Milena Schuhmacher
Author: Triana Amen ORCID iD

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