A research team has developed a technology that distinguishes lung cancer gene mutations solely by measuring the "stiffness" of exosomes—tiny particles released from cancer cells in the ...

Exosome-associated THSD7A is identified as a key trigger of filopodia formation in cancer cells and neurons, revealing a ...

The research team led by Senior Researchers Yoonhee Lee from the Division of Biomedical Technology and Gyogwon Koo from the Division of Intelligent Robot at DGIST (under President Kunwoo Lee) has ...

Tiny extracellular vesicles known as exosomes are emerging as key regulators of the tumor microenvironment (TME), influencing how cancer progresses, spreads, and responds to treatment. In a new review ...

Could this mark a shift in how we think about cancer therapy? At least in the laboratory, evidence suggests it may be . An ...

Pancreatic cancer may evade the immune system using a clever molecular trick. Researchers found that the cancer-driving ...

An international research team has succeeded in deciphering a key mechanism that controls the growth of pancreatic cancers.

The cancer gene MYC camouflages tumours by suppressing alarm signals that normally activate the immune system. This finding from a new study offers a ...

Pancreatic cancer may evade the immune system not by accident but by actively switching off internal danger signals through ...

MYC‑driven tumors silence innate immune alarms by clearing R‑loop–derived signals, exposing a new therapeutic angle for targeting MYC without broad inhibition.