Sections of DNA once dismissed as dormant and useless could in fact be recruited to fight certain types of drug-resistant ...

Researchers use low-cost LEDs and tin nanoflakes to selectively destroy cancer cells. A new type of cancer treatment can ...

Cancer treatment has come a long way, but many of today's therapies still come with steep costs: not just financial, but ...

An international research team led by RMIT University has created tiny particles, known as nanodots, made from a metallic ...

A team of scientists at Kyoto University's Institute for Integrated Cell-Material Sciences (iCeMS) has created a protein-based therapeutic tool that could change the way we treat diseases caused by ...

LC3-associated phagocytosis (LAP) is a specialized process for degrading dead cells, microbes or other particles. It plays a role in innate immunity, inflammation regulation and anticancer responses.

M Miriam Merad’s fascination with macrophages began when she looked into the lungs of a cancer patient she’d just lost during ...

A new study from the University of Massachusetts Amherst has found that a special nanoparticle-based vaccine can stop some of the deadliest cancers in mice. These include melanoma, pancreatic cancer, ...

Some cancer cells don't die; they go quiet, like seeds lying dormant in the soil. These "sleeper cells," scattered throughout the body, can stay inactive for years. But when the body faces a ...

Researchers at the Van Andel Institute suggest that the routes cancer cells use to process different nutrients deeply influence cell behavior. They discovered an alternate, or non-canonical, path by ...

The human body relies on precise genetic instructions to function, and cancer begins when these instructions get scrambled.

Justin Stebbing does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond ...