Immunotherapy has been one of the most transformative treatments for cancer patients in recent decades, shifting the emphasis ...

Researchers have created nanoparticles that can remove disease-driving proteins while also delivering a chemotherapeutic or ...

A paper published in Cell highlights how researchers have leveraged AI-based computational protein design to create a novel synthetic ligand that activates the Notch signaling pathway, a key driver in ...

A technique that transforms immune cells into cancer-seeking bloodhounds may overcome a roadblock that has hampered ...

A protein notorious for its role in Alzheimer’s disease may hold the key to supercharging the aging immune system, according to new research. Scientists have found that a byproduct of amyloid-beta ...

UCSF scientists found a precise way to turn on cancer-fighting immune cells inside the body. This more potent form of CAR-T ...

An unexpected discovery may bring scientists closer to a long-sought goal: finding an ideal immunotherapy target for solid ...

T cell activation—the process by which these key immune defenders recognize threats and mobilize against them—depends on ...

Every day, billions of damaged or unnecessary cells die and are swept away by the immune system’s cleanup crew—phagocytes. But when that clearance falters, dangerous cells can linger, fueling cancer ...

A new paper published today in Cell highlights how researchers have leveraged AI-based computational protein design to create a novel synthetic ligand that activates the Notch signaling pathway, a key ...