Targets and mechanisms of sulforaphane derivatives obtained from cruciferous plants with special focus on breast cancer – contradictory effects and future perspectives - 30/11/19
, Masoomeh Afzalipour Khoshkbejari d, Mahsa Mohammadi e, Ardavan Abiri f, Roya Mokhtarian c, Reza Vazifemand g, Shima Amanollahi c, h, Shaghayegh Yazdi Sani c, Mingxing Li a, b, Yueshui Zhao a, b, Xu Wu a, b, Jing Shen a, b, Chi Hin Cho a, b, Zhangang Xiao a, b, ⁎ Bienvenue sur EM-consulte, la référence des professionnels de santé.
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| pages | 17 |
| Iconographies | 10 |
| Vidéos | 0 |
| Autres | 0 |
Graphical abstract |
Highlights |
• | Sulforaphane (SFN) increases sensitivity to chemotherapy in breast cancer cells. |
• | SFN decreases the activity of histone deacetylases leading to cell cycle arrest. |
• | SFN reduces NF-κB activity and downregulates inhibitors of apoptosis. |
• | Anti-Akt and anti-Keap1 activities of SFN relatives are suggested for further study. |
Abstract |
Breast cancer is the most common type of cancer among women. Therefore, discovery of new and effective drugs with fewer side effects is necessary to treat it. Sulforaphane (SFN) is an organosulfur compound obtained from cruciferous plants, such as broccoli and mustard, and it has the potential to treat breast cancer. Hence, it is vital to find out how SFN targets certain genes and cellular pathways in treating breast cancer. In this review, molecular targets and cellular pathways of SFN are described. Studies have shown SFN inhibits cell proliferation, causes apoptosis, stops cell cycle and has anti-oxidant activities. Increasing reactive oxygen species (ROS) produces oxidative stress, activates inflammatory transcription factors, and these result in inflammation leading to cancer. Increasing anti-oxidant potential of cells and discovering new targets to reduce ROS creation reduces oxidative stress and it eventually reduces cancer risks. In short, SFN effectively affects histone deacetylases involved in chromatin remodeling, gene expression, and Nrf2 anti-oxidant signaling. This review points to the potential of SFN to treat breast cancer as well as the importance of other new cruciferous compounds, derived from and isolated from mustard, to target Keap1 and Akt, two key regulators of cellular homeostasis.
Le texte complet de cet article est disponible en PDF.Keywords : Sulforaphane, Brassicaceae, Breast cancer, nrf2, Apoptosis
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Vol 121
Article 109635- janvier 2020 Retour au numéro
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