Raman and fluorescence micro-spectroscopy applied for the monitoring of sunitinib-loaded porous silicon nanocontainers in cardiac cells

Tolstik, Elen; Gongalsky, M. B.; Dierks, Johann; Brand, Theresa; Pernecker, M.; Pervushin, Nikolay V.; Maksutova, D. E.; Gonchar, K. A.; Samsonova, J.V.; Kopeina, Gelina S.; Sivakov, Vladimir; Осминкина, Л. А.; Lorenz, Kristina

doi:10.3389/fphar.2022.962763

Cited by 8 publications

(4 citation statements)

References 72 publications

(94 reference statements)

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“…The usefulness of RI for single-cell analysis at the level of individual organelles has been proven in our previous papers [66][67][68][69]. Moreover, fluorescence staining confirmed the effectiveness of RI for individual structure visualization and correctness of Raman data interpretation [70][71][72][73][74][75]. Scheme S1 in the Supplementary Materials shows the simplified illustration of the RI experiment idea and the comparison of RI and fluorescence data for one cell chosen from our database.…”

Section: Resultssupporting

confidence: 64%

Raman Imaging—A Valuable Tool for Tracking Fatty Acid Metabolism—Normal and Cancer Human Colon Single-Cell Study

Beton-Mysur,

Kopec,

Brozek-Pluska

2024

IJMS

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Altered metabolism of lipids is a key factor in many diseases including cancer. Therefore, investigations into the impact of unsaturated and saturated fatty acids (FAs) on human body homeostasis are crucial for understanding the development of lifestyle diseases. In this paper, we focus on the impact of palmitic (PA), linoleic (LA), and eicosapentaenoic (EPA) acids on human colon normal (CCD-18 Co) and cancer (Caco-2) single cells using Raman imaging and spectroscopy. The label-free nature of Raman imaging allowed us to evaluate FAs dynamics without modifying endogenous cellular metabolism. Thanks to the ability of Raman imaging to visualize single-cell substructures, we have analyzed the changes in chemical composition of endoplasmic reticulum (ER), mitochondria, lipid droplets (LDs), and nucleus upon FA supplementation. Analysis of Raman band intensity ratios typical for lipids, proteins, and nucleic acids (I1656/I1444, I1444/I1256, I1444/I750, I1304/I1256) proved that, using Raman mapping, we can observe the metabolic pathways of FAs in ER, which is responsible for the uptake of exogenous FAs, de novo synthesis, elongation, and desaturation of FAs, in mitochondria responsible for energy production via FA oxidation, in LDs specialized in cellular fat storage, and in the nucleus, where FAs are transported via fatty-acid-binding proteins, biomarkers of human colon cancerogenesis. Analysis for membranes showed that the uptake of FAs effectively changed the chemical composition of this organelle, and the strongest effect was noticed for LA. The spectroscopy studies have been completed using XTT tests, which showed that the addition of LA or EPA for Caco-2 cells decreases their viability with a stronger effect observed for LA and the opposite effect observed for PA. For normal cells, CCD-18 Co supplementation using LA or EPA stimulated cells for growing, while PA had the opposite impact.

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Section: Resultssupporting

confidence: 64%

Raman Imaging—A Valuable Tool for Tracking Fatty Acid Metabolism—Normal and Cancer Human Colon Single-Cell Study

Beton-Mysur,

Kopec,

Brozek-Pluska

2024

IJMS

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“…Second, we found that there are 11 and 8 TFs regulating the hub genes SKP1 and BAP1, respectively, using the NetworkAnalyst database. Finally, based on the DGIdb database, we found that histone deacetylase inhibitors, such as vorinostat [ 62 ], panobinostat [ 63 , 64 ], mTOR pathway inhibitor everolimus [ 65 ], apitolisib [ 66 , 67 ], tyrosine kinase inhibitor sunitinib [ 68 ] and poly (ADP-ribose) polymerase inhibitor olaparib [ 69 ] may target the BAP1 gene and promote neural recovery after SCI.…”

Section: Discussionmentioning

confidence: 99%

Identification of mitophagy-related hub genes during the progression of spinal cord injury by integrated multinomial bioinformatics analysis

Guo,

Zhao,

Wang

et al. 2024

Biochemistry and Biophysics Reports

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“…For instance, the distribution of tyrosine kinase inhibitors such as sorafenib and sunitinib was monitored in cells using Raman bands located at 1028 cm −1 and 1320/1570 cm −1 , respectively. 31,75 In SRS imaging study, Fu et al 40 used also the Raman bands of nilotinib, chloroquine, and GNF and GNF at 1300 cm, 1370, and 1600 cm −1 to display their distribution in the cells. Besides, the distribution of doxorubicin and squalene-doxorubicin in cancer cells was detected through several Raman bands in the fingerprint region.…”

Section: Label-free Distribution Of Lapatinib In Cells By Raman Spect...mentioning

confidence: 99%

Efficacy of tyrosine kinase inhibitors examined by a combination of Raman micro-spectroscopy and a deep wavelet scattering-based multivariate analysis framework

Schuler,

Frick

et al. 2024

Analyst

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Raman and fluorescence micro-spectroscopy applied for the monitoring of sunitinib-loaded porous silicon nanocontainers in cardiac cells

Cited by 8 publications

References 72 publications

Raman Imaging—A Valuable Tool for Tracking Fatty Acid Metabolism—Normal and Cancer Human Colon Single-Cell Study

Raman Imaging—A Valuable Tool for Tracking Fatty Acid Metabolism—Normal and Cancer Human Colon Single-Cell Study

Identification of mitophagy-related hub genes during the progression of spinal cord injury by integrated multinomial bioinformatics analysis

Efficacy of tyrosine kinase inhibitors examined by a combination of Raman micro-spectroscopy and a deep wavelet scattering-based multivariate analysis framework

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