Research Articles
Cracking Cancer's Shield: How Proteomics Exposes the Secrets of Drug Resistance
Discover how proteomics reveals the molecular mechanisms behind cancer drug resistance by comparing protein expression in sensitive and resistant breast cancer cells.
The Naked Mole-Rat's Secret: How Surviving Underground Defies Cancer
Discover how the blind mole rat's extraordinary adaptations to underground life provide revolutionary insights into cancer treatment and human medicine.
The p53 Puzzle: How a Single Gene Protects Us From Cancer
Explore how the p53 protein, the guardian of our genome, protects against cancer and how environmental chemicals challenge this defense system.
Breaking the Code: How a Novel Piperazine Compound Triggers Cancer's Self-Destruct Mechanism
Discover how novel piperazine derivatives induce caspase-dependent apoptosis in cancer cells through multiple signaling pathways, offering new hope for targeted cancer therapies.
Green Nanotechnology: Turning Human Waste into a Cancer Fighter
Exploring how uric acid-mediated reduced graphene oxide serves as a multifunctional anti-cancer agent through green nanotechnology.
The Cellular Suicide Switch: How an Ancient Formula Fights Modern Cancer
Explore how the traditional formula WEI-AI-PING triggers apoptosis in stomach cancer cells, revealing the intersection of traditional medicine and modern cell biology.
The Secret Power-Up Inside Our Cancer-Fighting Cells
How mitochondrial metabolic flexibility gives CD8 T cells the ability to fight cancer more effectively
Bee Glue vs. Cancer: The Surprising Power of Propolis
Discover how propolis, nature's bee glue, inhibits K562 leukemia cell proliferation through multiple mechanisms in laboratory studies.
Cracking the Cancer Code: How Protein Patterns Predict Lymphoma's Next Move
Discover how Bcl-2 family protein patterns in Diffuse Large B-cell Lymphoma predict disease behavior and enable personalized treatments.
How Tobacco Smoke Hijacks Our Cells: The Molecular Road to Cancer
Explore the molecular mechanisms of tobacco smoke in cancer pathogenesis, including DNA adduct formation, mutational signatures, and epigenetic changes.