Author
Listed:
- Aleksey Yevtodiyenko
(Swiss Federal Institute of Technology (EPFL)
University of Missouri-Columbia)
- Arkadiy Bazhin
(Swiss Federal Institute of Technology (EPFL))
- Pavlo Khodakivskyi
(Swiss Federal Institute of Technology (EPFL)
University of Missouri-Columbia)
- Aurelien Godinat
(Swiss Federal Institute of Technology (EPFL))
- Ghyslain Budin
(Swiss Federal Institute of Technology (EPFL))
- Tamara Maric
(Swiss Federal Institute of Technology (EPFL))
- Giorgio Pietramaggiori
(Plastic and Reconstructive Surgery, Global Plastic Surgery
University of Padova)
- Sandra S. Scherer
(Plastic and Reconstructive Surgery, Global Plastic Surgery
University of Padova)
- Marina Kunchulia
(Free University of Tbilisi)
- George Eppeldauer
(National Institute of Standards and Technology (NIST))
- Sergey V. Polyakov
(National Institute of Standards and Technology (NIST)
University of Maryland)
- Kevin P. Francis
(David Geffen School of Medicine at UCLA)
- Jeffrey N. Bryan
(University of Missouri-Columbia)
- Elena A. Goun
(Swiss Federal Institute of Technology (EPFL)
University of Missouri-Columbia)
Abstract
Bioluminescent imaging (BLI) is one of the most powerful and widely used preclinical imaging modalities. However, the current technology relies on the use of transgenic luciferase-expressing cells and animals and therefore can only be applied to a limited number of existing animal models of human disease. Here, we report the development of a “portable bioluminescent” (PBL) technology that overcomes most of the major limitations of traditional BLI. We demonstrate that the PBL method is capable of noninvasive measuring the activity of both extracellular (e.g., dipeptidyl peptidase 4) and intracellular (e.g., cytochrome P450) enzymes in vivo in non-luciferase-expressing mice. Moreover, we successfully utilize PBL technology in dogs and human cadaver, paving the way for the translation of functional BLI to the noninvasive quantification of biological processes in large animals. The PBL methodology can be easily adapted for the noninvasive monitoring of a plethora of diseases across multiple species.
Suggested Citation
Aleksey Yevtodiyenko & Arkadiy Bazhin & Pavlo Khodakivskyi & Aurelien Godinat & Ghyslain Budin & Tamara Maric & Giorgio Pietramaggiori & Sandra S. Scherer & Marina Kunchulia & George Eppeldauer & Serg, 2021.
"Portable bioluminescent platform for in vivo monitoring of biological processes in non-transgenic animals,"
Nature Communications, Nature, vol. 12(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22892-9
DOI: 10.1038/s41467-021-22892-9
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Citations
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Cited by:
- Zhaxylyk A. Kudyshev & Demid Sychev & Zachariah Martin & Omer Yesilyurt & Simeon I. Bogdanov & Xiaohui Xu & Pei-Gang Chen & Alexander V. Kildishev & Alexandra Boltasseva & Vladimir M. Shalaev, 2023.
"Machine learning assisted quantum super-resolution microscopy,"
Nature Communications, Nature, vol. 14(1), pages 1-8, December.
- Qian Zhang & Bin Song & Yanan Xu & Yunmin Yang & Jian Ji & Wenjun Cao & Jianping Lu & Jiali Ding & Haiting Cao & Binbin Chu & Jiaxu Hong & Houyu Wang & Yao He, 2023.
"In vivo bioluminescence imaging of natural bacteria within deep tissues via ATP-binding cassette sugar transporter,"
Nature Communications, Nature, vol. 14(1), pages 1-14, December.
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