Time-gated Raman spectroscopy and proteomics analyses of hypoxic and normoxic renal carcinoma extracellular vesicles

Extracellular vesicles (EVs) represent a diverse group of small membrane-encapsulated particles involved in cell–cell communication, but the technologies to characterize EVs are still limited. Hypoxia is a typical condition in solid tumors, and cancer-derived EVs support tumor growth and invasion of...

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Bibliographic Details
Published in:Scientific reports 2021-10, Vol.11 (1), p.19594-19594, Article 19594
Main Authors: Samoylenko, Anatoliy, Kögler, Martin, Zhyvolozhnyi, Artem, Makieieva, Olha, Bart, Geneviève, Andoh, Sampson S., Roussey, Matthieu, Vainio, Seppo J., Hiltunen, Jussi
Format: Article
Language:English
Subjects:
631/45/612
631/67/589/1588/1351
639/624/1107/527/1821
692/699/67/589/1588/1351
Adenocarcinoma
Animals
Carcinoma, Renal Cell - physiopathology
Cell interactions
Cell Line, Tumor
External stimuli
Extracellular vesicles
Extracellular Vesicles - chemistry
Humanities and Social Sciences
Humans
Hypoxia
Hypoxia - physiopathology
Integrins
Kidney cancer
Kidney Neoplasms - physiopathology
Mice
multidisciplinary
Proteome
Proteomics
Raman spectroscopy
Renal cell carcinoma
Science
Science (multidisciplinary)
Solid tumors
Spectroscopy
Spectrum analysis
Spectrum Analysis, Raman - methods
Tumor cells
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Summary:Extracellular vesicles (EVs) represent a diverse group of small membrane-encapsulated particles involved in cell–cell communication, but the technologies to characterize EVs are still limited. Hypoxia is a typical condition in solid tumors, and cancer-derived EVs support tumor growth and invasion of tissues by tumor cells. We found that exposure of renal adenocarcinoma cells to hypoxia induced EV secretion and led to notable changes in the EV protein cargo in comparison to normoxia. Proteomics analysis showed overrepresentation of proteins involved in adhesion, such as integrins, in hypoxic EV samples. We further assessed the efficacy of time-gated Raman spectroscopy (TG-RS) and surface-enhanced time-gated Raman spectroscopy (TG-SERS) to characterize EVs. While the conventional continuous wave excitation Raman spectroscopy did not provide a notable signal, prominent signals were obtained with the TG-RS that were further enhanced in the TG-SERS. The Raman signal showed characteristic changes in the amide regions due to alteration in the chemical bonds of the EV proteins. The results illustrate that the TG-RS and the TG-SERS are promising label free technologies to study cellular impact of external stimuli, such as oxygen deficiency, on EV production, as well as differences arising from distinct EV purification protocols.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-99004-6