1. Oxidative Stress Triggered by Apigenin Induces Apoptosis in a Comprehensive Panel of Human Cervical Cancer-Derived Cell Lines
    Raquel P. Souza et al, 2017, Oxidative Medicine and Cellular Longevity CrossRef
  2. FOXO1 reduces tumorsphere formation capacity and has crosstalk with LGR5 signaling in gastric cancer cells
    Yiseul Choi et al, 2017, Biochemical and Biophysical Research Communications CrossRef
  3. Apigenin in cancer therapy: anti-cancer effects and mechanisms of action
    Xiaohui Yan et al, 2017, Cell Biosci CrossRef
  4. Plant Flavone Apigenin: an Emerging Anticancer Agent
    Eswar Shankar et al, 2017, Curr Pharmacol Rep CrossRef
  5. Apigenin: A dietary flavonoid with diverse anticancer properties
    Josip Madunić et al, 2018, Cancer Letters CrossRef
  6. CK2 in Cancer: Cellular and Biochemical Mechanisms and Potential Therapeutic Target
    Melissa Chua et al, 2017, Pharmaceuticals CrossRef
  7. null
    Raquel Pantarotto Souza et al, 2018 CrossRef
  8. Midkine silencing enhances the anti–prostate cancer stem cell activity of the flavone apigenin: cooperation on signaling pathways regulated by ERK, p38, PTEN, PARP, and NF-κB
    Suat Erdogan et al, 2019, Invest New Drugs CrossRef
  9. Cervical cancer stem cells: opportunities and challenges.
    Ravindresh Chhabra, 2015, J Cancer Res Clin Oncol CrossRef
  10. Health functionality of apigenin: A review
    Fahad Ali et al, 2017, International Journal of Food Properties CrossRef
  11. Apigenin Inhibits Cancer Stem Cell-Like Phenotypes in Human Glioblastoma Cells via Suppression of c-Met Signaling
    Boram Kim et al, 2016, Phytother. Res. CrossRef
  12. Protein kinase CK2 is important for the function of glioblastoma brain tumor initiating cells
    Amber L. Rowse et al, 2017, J Neurooncol CrossRef
  13. Human papillomavirus oncoproteins and post-translational modifications: generating multifunctional hubs for overriding cellular homeostasis
    Om Basukala et al, 2020 CrossRef
  14. Apigenin as an anticancer agent
    Muhammad Imran et al, 2020, Phytotherapy Research CrossRef
  15. The halogenation of natural flavonoids, baicalein and chrysin, enhances their affinity to human protein kinase CK2
    Ewa Marzec et al, 2020, IUBMB Life CrossRef
  16. null
    Biswajit Mukherjee et al, 2020 CrossRef
  17. null
    Indrani Manna et al, 2020 CrossRef
  18. Antiproliferative and ameliorative effects of Tetracera potatoria and its constituent
    Akingbolabo Daniel Ogunlakin et al, 2020, ADV TRADIT MED (ADTM) CrossRef
  19. Apigenin as Tumor Suppressor in Cancers: Biotherapeutic Activity, Nanodelivery, and Mechanisms With Emphasis on Pancreatic Cancer
    Milad Ashrafizadeh et al, 2020, Front. Chem. CrossRef
  20. Compounds from Natural Sources as Protein Kinase Inhibitors
    Andrea Baier et al, 2020, Biomolecules CrossRef
  21. Effect of naringenin and its combination with cisplatin in cell death, proliferation and invasion of cervical cancer spheroids
    Oswaldo Pablo Martínez-Rodríguez et al, 2021, RSC Adv. CrossRef
  22. Apigenin suppresses proliferation, invasion, and epithelial–mesenchymal transition of cervical carcinoma cells by regulation of miR ‐152/ BRD4 axis
    Xia Zhao et al, 2021, The Kaohsiung Journal of Medical Sciences CrossRef
  23. Apigenin role as cell-signaling pathways modulator: implications in cancer prevention and treatment
    Zeeshan Javed et al, 2021, Cancer Cell Int CrossRef
  24. Targeting cancer stem cells by nutraceuticals for cancer therapy
    Man Chu et al, 2021, Seminars in Cancer Biology CrossRef
  25. MACC1 regulates the AKT/STAT3 signaling pathway to induce migration, invasion, cancer stemness, and suppress apoptosis in cervical cancer cells
    Jie Mei et al, 2022, Bioengineered CrossRef
  26. Rationalizing the therapeutic potential of apigenin against cancer
    Semim Akhtar Ahmed et al, 2021, Life Sciences CrossRef
  27. Anticancer Effects and Molecular Mechanisms of Apigenin in Cervical Cancer Cells
    Ya-Hui Chen et al, 2022, Cancers CrossRef