Research Articles
Hypoxia's Deadly Alliance: How Kindlin-2 and α6β1 Integrin Help Cancer Survive
Discover how Kindlin-2 and α6β1 integrin respond to hypoxia to create powerful survival mechanisms in treatment-resistant cancers.
Light-Control Revolution: How Photoswitchable Drugs are Taming the Cellular Scaffold
Explore the breakthrough science of photoswitchable microtubule inhibitors - light-controlled drugs that precisely target cancer cells while sparing healthy tissue.
From Plant to Potent Medicine: The Story of the Water-Soluble Warrior, Etoposide Phosphate
Discover how Etoposide Phosphate, a water-soluble prodrug derived from the American mayapple plant, revolutionized cancer treatment through innovative chemistry.
How a Cellular Salt Transporter Fuels a Deadly Brain Cancer's Spread
Discover how NKCC1, a common cellular salt transporter, acts as a master regulator in glioblastoma migration and offers new therapeutic hope.
Rho GTPases: The Cellular Switches Driving Cancer's Deadly Spread
Explore how Rho GTPases function as molecular switches in cancer progression and metastasis, with insights into therapeutic targeting and experimental research.
The Double-Edged Sword: How Autophagy Fuels and Fights Cancer Invasion
Exploring the complex role of autophagy in cancer progression, from tumor suppression to promoting metastasis and therapy resistance.
The Invisible Force: How Nitric Oxide Guides Cancer Cell Migration
Discover how nitric oxide controls SDF-1-induced cytoskeleton changes and Jurkat cell migration in this engaging scientific exploration.
Hitting Cancer's Skeleton: The Next Generation of Smart Chemotherapy
Discover how scientists are designing tricyclic thieno[2,3-d]pyrimidines as next-generation microtubule-targeting agents for more precise cancer chemotherapy.
Floating Against Cancer: How Space's Weightlessness Fights Brain Tumor Spread
Exploring how microgravity affects glioma cells and could revolutionize cancer treatment approaches through space-based research.
Electric Fields vs. Cancer: Decoding TTFields' Powerful Strike Against Tumors
Exploring how Tumor Treating Fields (TTFields) use electric fields to disrupt cancer cell division and enhance treatment outcomes.