1. Protective Effect of Apigenin on Acrylonitrile-Induced Inflammation and Apoptosis in Testicular Cells via the NF-κB Pathway in Rats
    Yuhui Dang et al, 2018, Inflammation CrossRef
  2. Polyphenols Modulate the miRNAs Expression that Involved in Glioblastoma
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  3. Assessing the anticancer effects associated with food products and/or nutraceuticals using in vitro and in vivo preclinical development-related pharmacological tests
    Florence Lefranc et al, 2017, Seminars in Cancer Biology CrossRef
  4. Diosmin induces caspase-dependent apoptosis in human glioblastoma cells
    JULIANA M. SOARES et al, 2019, Anais da Academia Brasileira de Ciências CrossRef
  5. Apigenin and its combination with Vorinostat induces apoptotic-mediated cell death in TNBC by modulating the epigenetic and apoptotic regulators and related miRNAs
    Snehal Nimal et al, 2024, Scientific Reports CrossRef
  6. Retracted - miR-423-5p knockdown enhances the sensitivity of glioma stem cells to apigenin through the mitochondrial pathway
    Yi Wan et al, 2017, Tumor Biology CrossRef
  7. Role of cantharidin in the activation of IKKα/IκBα/NF‑κB pathway by inhibiting PP2A activity in cholangiocarcinoma cell lines
    Huijiang Zhou et al, 2018, Molecular Medicine Reports CrossRef
  8. Natural products as promising targets in glioblastoma multiforme: a focus on NF-κB signaling pathway
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  9. The Effect of Melatonin Modulation of Non-coding RNAs on Central Nervous System Disorders: An Updated Review
    Jianan Lu et al, 2020, Current Neuropharmacology CrossRef
  10. Natural Small Molecules Targeting NF-κB Signaling in Glioblastoma
    Md. Sahab Uddin et al, 2021, Frontiers in Pharmacology CrossRef
  11. The natural flavones, acacetin and apigenin, induce Cdk-Cyclin mediated G2/M phase arrest and trigger ROS-mediated apoptosis in glioblastoma cells
    Anil Khushalrao Shendge et al, 2021, Molecular Biology Reports CrossRef
  12. The Mechanism Study of Common Flavonoids on Antiglioma Based on Network Pharmacology and Molecular Docking
    Taiping Li et al, 2022, Evidence-Based Complementary and Alternative Medicine CrossRef
  13. Targeting the SPOCK1-snail/slug axis-mediated epithelial-to-mesenchymal transition by apigenin contributes to repression of prostate cancer metastasis
    Ming-Hsien Chien et al, 2019, Journal of Experimental & Clinical Cancer Research CrossRef
  14. Polyphenols in the Mediterranean Diet: From Dietary Sources to microRNA Modulation
    Roberto Cannataro et al, 2021, Antioxidants CrossRef
  15. Mechanism of Action of Anticancer Herbal Medicines
    Mohd Gulfishan et al, 2018, Anticancer Plants: Mechanisms and Molecular Interactions CrossRef
  16. Two Worlds Colliding: The Interplay Between Natural Compounds and Non-Coding Transcripts in Cancer Therapy
    Alexandru A. Sabo et al, 2021, Frontiers in Pharmacology CrossRef
  17. Rationalizing the therapeutic potential of apigenin against cancer
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  18. Phytocompounds targeting epigenetic modulations: an assessment in cancer
    Aqsa Khan et al, 2024, Frontiers in Pharmacology CrossRef
  19. Natural Marine and Terrestrial Compounds as Modulators of Matrix Metalloproteinases-2 (MMP-2) and MMP-9 in Alzheimer’s Disease
    Lidia Ciccone et al, 2021, Pharmaceuticals CrossRef
  20. Nutraceutical regulation of miRNAs involved in neurodegenerative diseases and brain cancers
    Souvik Ghosh et al, 2021, Heliyon CrossRef
  21. Apigenin Increases SHIP-1 Expression, Promotes Tumoricidal Macrophages and Anti-Tumor Immune Responses in Murine Pancreatic Cancer
    Krystal Villalobos-Ayala et al, 2020, Cancers CrossRef
  22. Apigenin inhibits proliferation, migration, invasion and epithelial mesenchymal transition of glioma cells by regulating miR-103a-3p/NEED9/AKT axis
    Jing WAN et al, 2022, Food Science and Technology CrossRef
  23. MiR‐21 upregulation increases IL‐8 expression and tumorigenesis program in airway epithelial cells exposed to cigarette smoke
    Elisabetta Pace et al, 2019, Journal of Cellular Physiology CrossRef
  24. Molecular Action of Polyphenols in Leukaemia and Their Therapeutic Potential
    Hamza A. Alaswad et al, 2021, International Journal of Molecular Sciences CrossRef
  25. Apigenin and Temozolomide Synergistically Inhibit Glioma Growth Through the PI3K/AKT Pathway
    Dong Wang et al, 2024, Cancer Biotherapy and Radiopharmaceuticals CrossRef
  26. Nutrients and phytonutrients as promising epigenetic nutraceuticals
    Anait S. Levenson, 2021, Medical Epigenetics CrossRef
  27. Apigenin: A dietary flavonoid with diverse anticancer properties
    Josip Madunić et al, 2018, Cancer Letters CrossRef
  28. Role of Flavonoids as Epigenetic Modulators in Cancer Prevention and Therapy
    Nishat Fatima et al, 2021, Frontiers in Genetics CrossRef
  29. Amentoflavone induces apoptosis and suppresses glycolysis in glioma cells by targeting miR-124-3p
    Wang Zhaohui et al, 2018, Neuroscience Letters CrossRef
  30. Targeting Glioma Cells with Nutraceuticals: Therapeutic Effects Based on Molecular Mechanisms, New Evidence and Perspectives
    Marziyeh Salami et al, 2023, Mini-Reviews in Medicinal Chemistry CrossRef
  31. Apigenin Ameliorates Oxidative Stress-induced Neuronal Apoptosis in SH-SY5Y Cells
    Yeo Jin Kim et al, 2021, Microbiology and Biotechnology Letters CrossRef
  32. Natural products in suppressing glioma progression: A focus on the role of microRNAs
    Peyman Tabnak et al, 2022, Phytotherapy Research CrossRef
  33. Apigenin: A Bioflavonoid with a Promising Role in Disease Prevention and Treatment
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  34. An overview of epigenetic agents and natural nutrition products targeting DNA methyltransferase, histone deacetylases and microRNAs
    Deyu Huang et al, 2019, Food and Chemical Toxicology CrossRef
  35. Antioxidant and Photoprotective Activity of Apigenin and its Potassium Salt Derivative in Human Keratinocytes and Absorption in Caco-2 Cell Monolayers
    Noelia Sánchez-Marzo et al, 2019, International Journal of Molecular Sciences CrossRef
  36. Regulation of Noncoding RNA by Nutraceuticals: Implication in Neurological Disorders and Cancer
    Anandan Balakrishnan et al, 2023, Nutraceuticals for Alzheimer's Disease: A Promising Therapeutic Approach CrossRef