Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway
Lung cancer is recognized as a major cause of mortality worldwide owing to its metastatic activity. Given the lack of solid information regarding the possible effects of caffeine, one of the most consumed natural psychoactive substances, on molecular signaling pathways implicated in the aggressive b...
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th-mahidol.758912022-08-04T18:19:24Z Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway Pichitchai Meisaprow Nithikoon Aksorn Chanida Vinayanuwattikun Pithi Chanvorachote Monruedee Sukprasansap Chulalongkorn University Vajira Hospital Faculty of Medicine Ramathibodi Hospital, Mahidol University Mahidol University Faculty of Medicine, Chulalongkorn University Biochemistry, Genetics and Molecular Biology Chemistry Pharmacology, Toxicology and Pharmaceutics Lung cancer is recognized as a major cause of mortality worldwide owing to its metastatic activity. Given the lack of solid information regarding the possible effects of caffeine, one of the most consumed natural psychoactive substances, on molecular signaling pathways implicated in the aggressive behavior of lung cancer, our study aimed to evaluate the effect and mechanism of caffeine on metastasis-related mechanisms. The results revealed that caffeine treatment at concentrations of 0-500 μM caused no direct cytotoxic effects on NCI-H23 cells. Treatment of cells with caffeine showed good potential to inhibit cell proliferation at 48 h and induced significant cell cycle arrest at the G0/G1 phase. Concerning metastasis, caffeine was shown to reduce filopodia formation, inhibit migration and invasion capability, and reduce the ability of cancer cells to survive and grow in an anchorage-independent manner. Moreover, caffeine could attenuate the formation of 3D tumor spheroids in cancer stem cell (CSC)-enriched populations. With regard to mechanisms, we found that caffeine significantly altered the integrin pattern of the treated cells and caused the downregulation of metastasis-associated integrins, namely, integrins αv and β3. Subsequently, the downstream signals, including protein signaling and transcription factors, namely, phosphorylated focal adhesion kinase (p-FAK), phosphorylated protein kinase B (p-Akt), cell division cycle 42 (Cdc42), and c-Myc, were significantly decreased in caffeine-exposed cells. Taken together, our novel data on caffeine-inhibiting mechanism in relation to metastasis in lung cancer could provide insights into the impact of caffeine intake on human diseases and conditions. 2022-08-04T08:02:44Z 2022-08-04T08:02:44Z 2021-12-01 Article Molecules. Vol.26, No.24 (2021) 10.3390/molecules26247659 14203049 2-s2.0-85122196747 https://repository.li.mahidol.ac.th/handle/123456789/75891 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85122196747&origin=inward |
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Biochemistry, Genetics and Molecular Biology Chemistry Pharmacology, Toxicology and Pharmaceutics Pichitchai Meisaprow Nithikoon Aksorn Chanida Vinayanuwattikun Pithi Chanvorachote Monruedee Sukprasansap Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway |
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Lung cancer is recognized as a major cause of mortality worldwide owing to its metastatic activity. Given the lack of solid information regarding the possible effects of caffeine, one of the most consumed natural psychoactive substances, on molecular signaling pathways implicated in the aggressive behavior of lung cancer, our study aimed to evaluate the effect and mechanism of caffeine on metastasis-related mechanisms. The results revealed that caffeine treatment at concentrations of 0-500 μM caused no direct cytotoxic effects on NCI-H23 cells. Treatment of cells with caffeine showed good potential to inhibit cell proliferation at 48 h and induced significant cell cycle arrest at the G0/G1 phase. Concerning metastasis, caffeine was shown to reduce filopodia formation, inhibit migration and invasion capability, and reduce the ability of cancer cells to survive and grow in an anchorage-independent manner. Moreover, caffeine could attenuate the formation of 3D tumor spheroids in cancer stem cell (CSC)-enriched populations. With regard to mechanisms, we found that caffeine significantly altered the integrin pattern of the treated cells and caused the downregulation of metastasis-associated integrins, namely, integrins αv and β3. Subsequently, the downstream signals, including protein signaling and transcription factors, namely, phosphorylated focal adhesion kinase (p-FAK), phosphorylated protein kinase B (p-Akt), cell division cycle 42 (Cdc42), and c-Myc, were significantly decreased in caffeine-exposed cells. Taken together, our novel data on caffeine-inhibiting mechanism in relation to metastasis in lung cancer could provide insights into the impact of caffeine intake on human diseases and conditions. |
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Chulalongkorn University |
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Chulalongkorn University Pichitchai Meisaprow Nithikoon Aksorn Chanida Vinayanuwattikun Pithi Chanvorachote Monruedee Sukprasansap |
| format |
Article |
| author |
Pichitchai Meisaprow Nithikoon Aksorn Chanida Vinayanuwattikun Pithi Chanvorachote Monruedee Sukprasansap |
| author_sort |
Pichitchai Meisaprow |
| title |
Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway |
| title_short |
Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway |
| title_full |
Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway |
| title_fullStr |
Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway |
| title_full_unstemmed |
Caffeine induces g0/g1 cell cycle arrest and inhibits migration through Integrin αv, β3, and FAK/AKT/c-MYC signaling pathway |
| title_sort |
caffeine induces g0/g1 cell cycle arrest and inhibits migration through integrin αv, β3, and fak/akt/c-myc signaling pathway |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/75891 |
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1763492837705383936 |