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3. Apigenin, a dietary flavonoid, induces apoptosis, DNA damage, and oxidative stress in human breast cancer MCF-7 and MDA MB-231 cells
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4. Apigenin and Luteolin Attenuate the Breaching of MDA-MB231 Breast Cancer Spheroids Through the Lymph Endothelial Barrier in Vitro
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12. A Comprehensive Assessment of Apigenin as an Antiproliferative, Proapoptotic, Antiangiogenic and Immunomodulatory Phytocompound
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15. BH3 mimetic ABT-263 enhances the anticancer effects of apigenin in tumor cells with activating EGFR mutation
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19. Flavonoids in Cancer Metastasis
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23. Alternative Options for Skin Cancer Therapy via Regulation of AKT and Related Signaling Pathways
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25. Apigenin as Tumor Suppressor in Cancers: Biotherapeutic Activity, Nanodelivery, and Mechanisms With Emphasis on Pancreatic Cancer
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26. Antimetastatic effects of VOflavonoid complexes on A549 cell line
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30. Apigenin role as cell-signaling pathways modulator: implications in cancer prevention and treatment
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32. The Hallmarks of Flavonoids in Cancer
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35. An In Vitro-In Vivo Evaluation of the Antiproliferative and Antiangiogenic Effect of Flavone Apigenin against SK-MEL-24 Human Melanoma Cell Line
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38. Anticancer effects of root and beet leaf extracts (Beta vulgaris L.) in cervical cancer cells (HeLa).
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57. Recent Insights into Therapeutic Potential of Plant-Derived Flavonoids against Cancer
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59. The effect of apigenin and chemotherapy combination treatments on apoptosis-related genes and proteins in acute leukaemia cell lines
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60. Green synthesized apigenin conjugated gold nanoparticles inhibit cholangiocarcinoma cell activity and endothelial cell angiogenesis in vitro
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62. Apigenin: A Therapeutic Agent for Treatment of Skin Inflammatory Diseases and Cancer
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64. A Review on Dietary Flavonoids as Modulators of the Tumor Microenvironment.
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65. Anticancer Potential of Apigenin and Isovitexin with Focus on Oncogenic Metabolism in Cancer Stem Cells
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67. Potential Plant Secondary Metabolites for the Prevention of Skin Cancers and their Mechanism: A Review
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68. Apigenin ameliorates imiquimod-induced psoriasis in C57BL/6J mice by inactivating STAT3 and NF-κB
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69. Apigenin-Loaded Stealth Liposomes: Development and Pharmacokinetic Studies for Enhanced Plasma Retention of Drug in Cancer Therapy
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70. Flavonoids as promising anticancer therapeutics: Contemporary research, nanoantioxidant potential, and future scope
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71. Integrated network pharmacology and cellular assay reveal the biological mechanisms of Limonium sinense (Girard) Kuntze against Breast cancer
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72. Resources for Human Health from the Plant Kingdom: The Potential Role of the Flavonoid Apigenin in Cancer Counteraction
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73. Bitter Phytochemicals as Novel Candidates for Skin Disease Treatment
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74. Nano-based apigenin delivery systems for cancer applications
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75. Natural Flavonoid Apigenin, an Effective Agent Against Nervous System Cancers
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76. Using Flavonoid Substitution Status to Predict Anticancer Effects in Human Melanoma Cancers: An In Vitro Study
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77. Plant-based Natural Products in Cancer Therapeutics
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80. Apigenin enhances sorafenib anti-tumour efficacy in hepatocellular carcinoma
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81. Folate Receptor-Targeted Nanodelivery of Apigenin in Breast Cancer: Formulation Development, Characterization and In Vitro Evaluation
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82. Leveraging a Y. lipolytica naringenin chassis for biosynthesis of apigenin and associated glucoside
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83. Metabolic Roles of HIF1, c-Myc, and p53 in Glioma Cells
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85. Apigenin: Molecular Mechanisms and Therapeutic Potential against Cancer Spreading
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86. Michael Acceptors as Anti-Cancer Compounds: Coincidence or Causality?
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87. Uncovering SIRT3 and SHMT2-dependent pathways as novel targets for apigenin in modulating colorectal cancer: In vitro and in vivo studies
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88. Role of Induced Programmed Cell Death in the Chemopreventive Potential of Apigenin
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91. A recent update on the connection between dietary phytochemicals and skin cancer: emerging understanding of the molecular mechanism
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92. Bioavailability and metabolism of food bioactives and their health effects: a review
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93. The versatility of apigenin: Especially as a chemopreventive agent for cancer
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94. Nitric Oxide and Small and Intermediate Calcium-Activated Potassium Channels Mediate the Vasodilation Induced by Apigenin in the Resistance Vessels of Hypertensive Rats
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