Research Articles
The Cell's Jekyll and Hyde: How a Single Protein Can Stop Cancer in Its Tracks
Discover how the WT1 protein acts as both growth promoter and tumor suppressor, activating anti-proliferative and apoptotic pathways to combat cancer.
The Tiny Assassin: How a Microscopic Molecule Commands Cancer Cells to Die
Discover how miR-34c, a tiny RNA molecule, induces apoptosis in cancer cells by targeting the BCL2 protein, offering new hope for cancer treatment.
A One-Two Punch for a Formidable Foe: New Hope in AML Treatment
Discover how the synergistic combination of Apatinib and Homoharringtonine delivers a powerful blow to Acute Myeloid Leukemia cells through targeted mechanisms.
Shining a Light on Cancer: The Unexpected Power of Rhenium
Discover how rhenium(I) tricarbonyl complexes are revolutionizing cancer treatment with their unique properties and exceptional cytotoxicity against prostate cancer.
The Double Life of Insulin: How a Common Hormone Plays Both Sides in Cancer
Exploring insulin's surprising dual role in cancer biology - acting as a growth factor for multiple myeloma while leaving similar cells unaffected.
The New Attack on Cancer: How Tumor-Targeting Taxanes are Revolutionizing Chemotherapy
Exploring groundbreaking advances in tumor-targeting taxane agents that are reshaping cancer therapy through precision drug delivery and next-generation compounds.
The Cancer Double Agent: How a Twisted Protein Fuels Tumor Growth
Discover how oxidized macrophage migration inhibitory factor (oxMIF) acts as a molecular double agent in cancer, driving tumor growth and offering new therapeutic targets.
Silencing the "Dark Gene": How Scientists Are Turning Off Cancer's Command Center
Discover how scientists are targeting the ZEB2-AS1 'dark gene' to combat osteosarcoma by inhibiting cell proliferation, invasion and inducing apoptosis.
Nature's Hidden Sniper: How the Humble Moringa Tree Targets Cancer Cells
Discover how Moringa oleifera leaf extract selectively targets breast cancer cells by inducing apoptosis through upregulation of Bax, p53 and caspase 8 expressions.
Unlocking Cellular Mysteries: How MAP Kinase Inhibitors Are Revolutionizing Cancer Research
Explore how MAP kinase inhibitors are transforming cancer research through targeted pathway inhibition and multi-omics approaches in pediatric gliomas.