Open Access

Antioxidants, volume 11, issue 8, pages 1532

Assessing Cellular Uptake of Exogenous Coenzyme Q10 into Human Skin Cells by X-ray Fluorescence Imaging

Theresa Staufer ¹

Mirja L. Schulze ²

Oliver Schmutzler ¹

Christian Körnig ¹

Vivienne Welge ²

Thorsten Burkhardt ²

Jens-Peter Vietzke ²

Alexandra Vogelsang ²

Julia M. Weise ²

Thomas Blatt ²

Oliver Dabrowski ³

Gerald Falkenberg ⁴

Dennis Brückner ⁴

Carlos Sanchez Cano ^{5, 6}

Florian Grüner ¹

Show full list: 15 authors

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Universität Hamburg and Center for Free-Electron Laser Science (CFEL), Institute for Experimental Physics, Faculty for Mathematics, Informatics and Natural Sciences, Luruper Chaussee 149, 22761 Hamburg, Germany

Research and Development, Beiersdorf AG, Unnastrasse 48, 20245 Hamburg, Germany |

Fraunhofer Institute for Applied Polymer Research (IAP), Center for Applied Nanotechnology (CAN), Grindelallee 117, 20146 Hamburg, Germany |

⁴

Deutsches Elektronen-Synchrotron DESY, Notkestrasse 85, 22607 Hamburg, Germany |

⁵

DIPC, Paseo Manuel de Lardizabal 4, 20018 Donostia-San Sebastian, Spain |

⁶

IKERBASQUE, Basque Foundation for Science, Plaza de Euskadi 5, 48009 Bilbao, Spain |

Publication type: Journal Article

Publication date: 2022-08-06

MDPI

Journal: Antioxidants

scimago Q1

SJR: 1.222

CiteScore: 10.6

Impact factor: 6

ISSN: 20763921

DOI: 10.3390/antiox11081532

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PubMed ID: 36009252

Biochemistry

Molecular Biology

Cell Biology

Clinical Biochemistry

Physiology

Abstract

X-ray fluorescence (XRF) imaging is a highly sensitive non-invasive imaging method for detection of small element quantities in objects, from human-sized scales down to single-cell organelles, using various X-ray beam sizes. Our aim was to investigate the cellular uptake and distribution of Q10, a highly conserved coenzyme with antioxidant and bioenergetic properties. Q10 was labeled with iodine (I2-Q10) and individual primary human skin cells were scanned with nano-focused beams. Distribution of I2-Q10 molecules taken up inside the screened individual skin cells was measured, with a clear correlation between individual Q10 uptake and cell size. Experiments revealed that labeling Q10 with iodine causes no artificial side effects as a result of the labeling procedure itself, and thus is a perfect means of investigating bioavailability and distribution of Q10 in cells. In summary, individual cellular Q10 uptake was demonstrated by XRF, opening the path towards Q10 multi-scale tracking for biodistribution studies.

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Publisher

MDPI

Journal

Antioxidants

scimago Q1

SJR

1.222

CiteScore

10.6

Impact factor

ISSN

20763921 (Electronic)

Assessing Cellular Uptake of Exogenous Coenzyme Q10 into Human Skin Cells by X-ray Fluorescence Imaging

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