Biological processes that govern our lives are many, intertwined, and often difficult to understand. They involve countless ...

A team of Canadian scientists has uncovered a new way to slow the growth of glioblastoma, the most aggressive and currently ...

A hidden communication network between brain cells and glioblastoma tumors may be key to slowing this aggressive cancer.

Frontline: Surgery to remove the tumor is often considered, sometimes followed by chemotherapy or radiation to reduce ...

A newly uncovered immune chain reaction in the gut may explain why people with inflammatory bowel disease face a much higher ...

Scientists at McMaster University and The Hospital for Sick Children (SickKids) have identified a previously hidden population of brain cells that actively fuel glioblastoma growth — and, crucially, ...

A team of Canadian scientists has uncovered a new way to slow the growth of glioblastoma, the most aggressive and currently incurable form of brain ...

How do immune cells strike a balance, unleashing rapid attacks against pathogens or cancer, while avoiding damage to healthy cells? Research into an immune kill switch holds potential for controlling ...

Researchers identified ExHOS, a dynamic nanomachine controlling constitutive exocytosis. Using advanced microscopy and AI, ...

Explore the potential of the HIV drug Maraviroc in slowing glioblastoma growth as discovered by McMaster University ...

The novel biosensor technology used in this study can also be transferred to other so-called G protein-coupled receptors (GPCRs), which act as crucial “signal receivers” in our cells and are of major ...

A mouse study suggests estrogen may increase gut pain by activating specific cells, offering hints to why IBS is more common ...