1. AKT Axis, miR-21, and RECK Play Pivotal Roles in Dihydroartemisinin Killing Malignant Glioma Cells
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  2. Retracted: MCL1 gene silencing promotes senescence and apoptosis of glioma cells via inhibition of the PI3K/Akt signaling pathway
    Dong‐Mei Wu et al, 2019, IUBMB Life CrossRef
  3. miR-664b-5p Inhibits Hepatocellular Cancer Cell Proliferation Through Targeting Oncogene AKT2
    Hongwei Li et al, 2020, Cancer Biotherapy and Radiopharmaceuticals CrossRef
  4. Novel Small Molecular Compound AE-848 Potently Induces Human Multiple Myeloma Cell Apoptosis by Modulating the NF-κB and PI3K/Akt/mTOR Signaling Pathways
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  5. Bioactive Compounds from Herbal Medicine Targeting Multiple Myeloma
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  6. Double-Targeted Knockdown of miR-21 and CXCR4 Inhibits Malignant Glioma Progression by Suppression of the PI3K/AKT and Raf/MEK/ERK Pathways
    Feijiao Liu et al, 2020, BioMed Research International CrossRef
  7. Glycoprotein nonmetastatic melanoma protein B (GPNMB) promotes the progression of brain glioblastoma via Na+/K+-ATPase
    Yoko Ono et al, 2016, Biochemical and Biophysical Research Communications CrossRef
  8. Dihydroartemisinin triggers c‑Myc proteolysis and inhibits protein kinase B/glycogen synthase kinase 3β pathway in T‑cell lymphoma cells
    Wenwen Wei et al, 2018, Oncology Letters CrossRef
  9. Development of nanoscale drug delivery systems of dihydroartemisinin for cancer therapy: A review
    Ka Hong Wong et al, 2022, Asian Journal of Pharmaceutical Sciences CrossRef
  10. Effects of dihydroartemisinin on HSP70 expression in human prostate cancer PC‐3 cells
    Jin Kong et al, 2019, Andrologia CrossRef
  11. EGF/EGFR Promotes Salivary Adenoid Cystic Carcinoma Cell Malignant Neural Invasion via Activation of PI3K/AKT and MEK/ERK Signaling
    Yixiong Ren et al, 2022, Current Cancer Drug Targets CrossRef
  12. Antiglioma Potential of Coumarins Combined with Sorafenib
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  13. Salidroside protects against foam cell formation and apoptosis, possibly via the MAPK and AKT signaling pathways
    Jing Ni et al, 2017, Lipids in Health and Disease CrossRef
  14. Dihydroartemisinin Exerts Anti-Tumor Activity by Inducing Mitochondrion and Endoplasmic Reticulum Apoptosis and Autophagic Cell Death in Human Glioblastoma Cells
    Chengbin Qu et al, 2017, Frontiers in Cellular Neuroscience CrossRef
  15. Dihydroartemisinin enhances cell apoptosis in diffuse large B cell lymphoma by inhibiting the STAT3 activity
    ZHENG CAO et al, 2023, BIOCELL CrossRef
  16. Tetrandrine Exerts a Radiosensitization Effect on Human Glioma through Inhibiting Proliferation by Attenuating ERK Phosphorylation
    Ji-wei Ma et al, 2017, Biomolecules & Therapeutics CrossRef
  17. Dihydroartemisinin Protects against Dextran Sulfate Sodium-Induced Colitis in Mice through Inhibiting the PI3K/AKT and NF-κB Signaling Pathways
    Ning Li et al, 2019, BioMed Research International CrossRef
  18. Silencing NOB1 Can Affect Cell Proliferation and Apoptosis Via the C-Jun N-Terminal Kinase Pathway in Colorectal Cancer
    Zhong Ren et al, 2021, Journal of Investigative Surgery CrossRef
  19. Targeting Orphan G Protein-Coupled Receptor 17 with T0 Ligand Impairs Glioblastoma Growth
    Phuong Doan et al, 2021, Cancers CrossRef
  20. 2,4-Dihydroxy-3′-methoxy-4′-ethoxychalcone suppresses cell proliferation and induces apoptosis of multiple myeloma via the PI3K/akt/mTOR signaling pathway
    FengChen Zhu et al, 2019, Pharmaceutical Biology CrossRef
  21. Dihydroartemisinin Inhibits the Proliferation of Esophageal Squamous Cell Carcinoma Partially by Targeting AKT1 and p70S6K
    Lili Zhu et al, 2020, Frontiers in Pharmacology CrossRef
  22. PAQR3 inhibits the proliferation, migration and invasion in human glioma cells
    Shi-lei Tang et al, 2017, Biomedicine & Pharmacotherapy CrossRef
  23. Artemisinin and its derivatives: a promising cancer therapy
    Bushra Hafeez Kiani et al, 2020, Molecular Biology Reports CrossRef
  24. Up-regulation of HCRP1 inhibits proliferation and invasion in glioma cells via suppressing the ERK and AKT signaling pathways
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  25. Metal–organic frameworks (MOFs) as effectual diagnostic and therapeutic tools for cancer
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    Jian Xu et al, 2021, Science of Advanced Materials CrossRef