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W3011038093 endingPage "1939" @default.
W3011038093 startingPage "1939" @default.
W3011038093 abstract "Background: Autophagy is reported as a survival or death-promoting pathway that is highly debatable in different kinds of cancer. Here, we examined the co-effect of cold atmospheric plasma (CAP) and silymarin nanoemulsion (SN) treatment on G-361 human melanoma cells via autophagy induction. Methods: The temperature and pH of the media, along with the cell number, were evaluated. The intracellular glucose level and PI3K/mTOR and EGFR downstream pathways were assessed. Autophagy-related genes, related transcriptional factors, and autophagy induction were estimated using confocal microscopy, flow cytometry, and ELISA. Results: CAP treatment increased the temperature and pH of the media, while its combination with SN resulted in a decrease in intracellular ATP with the downregulation of PI3K/AKT/mTOR survival and RAS/MEK transcriptional pathways. Co-treatment blocked downstream paths of survival pathways and reduced PI3K (2 times), mTOR (10 times), EGFR (5 times), HRAS (5 times), and MEK (10 times). CAP and SN co-treated treatment modulates transcriptional factor expressions (ZKSCAN3, TFEB, FOXO1, CRTC2, and CREBBP) and specific genes (BECN-1, AMBRA-1, MAP1LC3A, and SQSTM) related to autophagy induction. Conclusion: CAP and SN together activate autophagy in G-361 cells by activating PI3K/mTOR and EGFR pathways, expressing autophagy-related transcription factors and genes." @default.
W3011038093 created "2020-03-23" @default.
W3011038093 creator A5013633437 @default.
W3011038093 creator A5016064736 @default.
W3011038093 creator A5049947030 @default.
W3011038093 creator A5053122193 @default.
W3011038093 creator A5058065492 @default.
W3011038093 date "2020-03-12" @default.
W3011038093 modified "2023-10-01" @default.
W3011038093 title "Cold Atmospheric Plasma and Silymarin Nanoemulsion Activate Autophagy in Human Melanoma Cells" @default.
W3011038093 cites W12481139 @default.
W3011038093 cites W126188432 @default.
W3011038093 cites W1508661542 @default.
W3011038093 cites W1523693806 @default.
W3011038093 cites W170866122 @default.
W3011038093 cites W1971176613 @default.
W3011038093 cites W1975156886 @default.
W3011038093 cites W1982475443 @default.
W3011038093 cites W1983788491 @default.
W3011038093 cites W1983954904 @default.
W3011038093 cites W2001591494 @default.
W3011038093 cites W2005165301 @default.
W3011038093 cites W2026103498 @default.
W3011038093 cites W2026198465 @default.
W3011038093 cites W2039607936 @default.
W3011038093 cites W2045196165 @default.
W3011038093 cites W2049856484 @default.
W3011038093 cites W2059726407 @default.
W3011038093 cites W2070278889 @default.
W3011038093 cites W2071926240 @default.
W3011038093 cites W2078893058 @default.
W3011038093 cites W2090536360 @default.
W3011038093 cites W2096651985 @default.
W3011038093 cites W2096851482 @default.
W3011038093 cites W2109682572 @default.
W3011038093 cites W2120595804 @default.
W3011038093 cites W2130503287 @default.
W3011038093 cites W2131646216 @default.
W3011038093 cites W2137122394 @default.
W3011038093 cites W2137546031 @default.
W3011038093 cites W2139927176 @default.
W3011038093 cites W2143542604 @default.
W3011038093 cites W2148051205 @default.
W3011038093 cites W2157096314 @default.
W3011038093 cites W2168711434 @default.
W3011038093 cites W2239758289 @default.
W3011038093 cites W2272315791 @default.
W3011038093 cites W2279095006 @default.
W3011038093 cites W2292747024 @default.
W3011038093 cites W2346650336 @default.
W3011038093 cites W2417064805 @default.
W3011038093 cites W2465561570 @default.
W3011038093 cites W2486345295 @default.
W3011038093 cites W2513393093 @default.
W3011038093 cites W2515205119 @default.
W3011038093 cites W2553593772 @default.
W3011038093 cites W2555660440 @default.
W3011038093 cites W2622392048 @default.
W3011038093 cites W2702139801 @default.
W3011038093 cites W2734107640 @default.
W3011038093 cites W2772927056 @default.
W3011038093 cites W2790702759 @default.
W3011038093 cites W2805423897 @default.
W3011038093 cites W2884732351 @default.
W3011038093 cites W2897623138 @default.
W3011038093 cites W2899595927 @default.
W3011038093 cites W2899742616 @default.
W3011038093 cites W2899871244 @default.
W3011038093 cites W2909761753 @default.
W3011038093 cites W2919924355 @default.
W3011038093 cites W2937680741 @default.
W3011038093 cites W2942644955 @default.
W3011038093 cites W2947204225 @default.
W3011038093 cites W2948810228 @default.
W3011038093 cites W2955656412 @default.
W3011038093 cites W2957721022 @default.
W3011038093 cites W2969843255 @default.
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W3011038093 doi "https://doi.org/10.3390/ijms21061939" @default.
W3011038093 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7139470" @default.
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