Research Articles
The Mechanics of Invasion: How Cancer Cells Shape-Shift to Spread
Explore how cancer cells transform their physical properties to spread throughout the body and resist treatments through mechanical plasticity.
Disarming the Bodyguard: How a Tiny Protein Makes Cancer Vessels Vulnerable to Chemotherapy
Discover how III-Tubulin protein makes cancer blood vessels resistant to chemotherapy and how new research is finding ways to overcome this resistance.
Re-engineering the Tumor's Support System: How a Cancer Drug Reshapes the Battlefield
Discover how microtubule stabilization drugs like paclitaxel alter tumor secretome and fibroblast activation in the tumor microenvironment.
Nature's Hidden Arsenal: How Ancient Mosses and Ferns Are Revolutionizing Cancer Medicine
Exploring the anticancer potential of moss and fern extracts in treating various solid tumors through scientific research and discovery.
How Cellular "Scissors" Shape Cancer's Deadly Spread
Discover how deubiquitinating enzymes (DUBs) act as cellular scissors controlling cancer metastasis through regulation of the actin cytoskeleton.
A New Weapon in the Fight Against a Rare Cancer: Hijacking the Body's Own Signals
Discover how scientists are using GPER activation to combat Granulosa Cell Tumors by disrupting cancer cell division through microtubule collapse.
Cancer Studies Under Space Conditions: Finding Answers Beyond Earth
Discover how microgravity research on the International Space Station is revolutionizing cancer treatment and accelerating therapeutic discoveries.
The Unseen Force: Crushing Cancer with Physics
Discover how scientists are using mechanical forces to destroy cancer cells through microfluidic squeezing and innovative physics-based approaches.
The Enemy Within: How a "Zombie" Gene Helps Colon Cancer Come Back
Discover how the Prox1 gene acts as a critical survival factor for colorectal cancer stem cells, driving tumor growth and recurrence.
The Cancer Alliance: How HER Family and p21-Activated Kinases Coordinate Cancer Progression
Explore the coordinated relationship between HER family receptors and p21-activated kinases in driving cancer progression and therapeutic resistance.