Researchers have developed a theoretical framework that shows how living cell membranes can generate electricity from ...

Ryan Notti (left) and Thomas Walz (right) discovered new characteristics of a T cell receptor that are essential to a variety ...

Cells may generate their own electrical signals through microscopic membrane motions. Researchers show that active molecular ...

One of the most exciting advances in cancer treatments in the past decade is the development of T cell immunotherapies, in which a patient's own immune system is trained to recognize and attack ...

One of the most exciting advances in cancer treatments in the past decade is the development of T cell immunotherapies, in which a patient's own immune system is trained to recognize and attack ...

A hidden “jack-in-the-box” mechanism inside T cells may hold the key to unlocking more powerful cancer immunotherapies.

Mucosal surfaces serve as critical battlegrounds where the immune system must balance tolerance to commensal organisms with rapid defense against pathogens.

Scientists have identified a small flaw in the enzyme GPX4 that prevents neurons from defending themselves. This mutation, ...

Abstract: Immunomechanobiology, the study of how physical forces influence the behavior and function of immune cells, is a rapidly growing area of research. It is becoming increasingly recognized that ...

Scientists have uncovered a surprising new way plants fight disease by teaming up with beneficial fungi that literally ...

Researchers at UT Southwestern Medical Center have identified a protein that causes human cell membranes to break open in a ...

A new Dartmouth study opens new avenues for understanding—and potentially manipulating—how cells decide to live or die.