Identification of glucose-independent and reversible metabolic pathways associated with anti-proliferative effect of metformin in liver cancer cells-Reference-Cited by-同舟云学术

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Identification of glucose-independent and reversible metabolic pathways associated with anti-proliferative effect of metformin in liver cancer cells

Published:2024-02-27 Issue:2 Volume:20 Page:
ISSN:1573-3890
Container-title:Metabolomics
language:en
Short-container-title:Metabolomics

Author:

Islam Sk Ramiz^ORCID,Manna Soumen Kanti^ORCID

Funder

University Grants Commission

Saha Institute of Nuclear Physics, Department of Atomic Energy, Government of India

Science and Engineering Research Board

Publisher

Springer Science and Business Media LLC

Link

https://link.springer.com/content/pdf/10.1007/s11306-024-02096-0.pdf

Reference74 articles.

1. Akinyeke, T., Matsumura, S., Wang, X., Wu, Y., Schalfer, E. D., Saxena, A., Yan, W., Logan, S. K., & Li, X. (2013). Metformin targets c-MYC oncogene to prevent prostate cancer. Carcinogenesis, 34(12), 2823–2832. https://doi.org/10.1093/carcin/bgt307

2. Alshawi, A., & Agius, L. (2019). Low metformin causes a more oxidized mitochondrial NADH/NAD redox state in hepatocytes and inhibits gluconeogenesis by a redox-independent mechanism. Journal of Biological Chemistry, 294(8), 2839–5691. https://doi.org/10.1074/JBC.RA118.006670

3. Altman, B. J., Stine, Z. E., & Dang, C. V. (2016). From Krebs to clinic: Glutamine metabolism to cancer therapy. Nature Reviews Cancer, 16(10), 619–634. https://doi.org/10.1038/nrc.2016.71

4. Ascha, M. S., Hanouneh, I. A., Lopez, R., Tamimi, T. A. R., Feldstein, A. F., & Zein, N. N. (2010). The incidence and risk factors of hepatocellular carcinoma in patients with nonalcoholic steatohepatitis. Hepatology, 51(6), 1972–1978. https://doi.org/10.1002/HEP.23527

5. Blandino, G., Valerio, M., Cioce, M., Mori, F., Casadei, L., Pulito, C., Sacconi, A., Biagioni, F., Cortese, G., Galanti, S., Manetti, C., Citro, G., Muti, P., & Strano, S. (2012). Metformin elicits anticancer effects through the sequential modulation of DICER and c-MYC. Nature Communications, 3(1), 865. https://doi.org/10.1038/ncomms1859

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1. Dataset for analysis of metabolic pathways and their reversibility associated with anti-proliferative effect of metformin in liver cancer cells;Data in Brief;2024-08

2. Protocol for analyzing energy metabolic pathway dependency in human liver cancer cell lines;STAR Protocols;2024-06

3. A metabolomics perspective reveals the mechanism of the uric acid-lowering effect of Prunus salicina Lindl. cv. “furong” polyphenols in hypoxanthine and potassium oxybate-induced hyperuricemic mice;Food & Function;2024

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