Researchers at the Kennedy Institute of Rheumatology have found that physically resisting the formation of an immunological synapse actually promotes a stronger immune response. The findings could ...

Our immune system relies on T cells to fight infections. But T cells don't just show up and react—first, they train, get a ...

Scientists at Texas A&M are turning an everyday pick-me-up into a high-tech medical switch. By combining caffeine with CRISPR ...

Scientists at Gladstone and UC San Francisco—including Maya Arce, seen here—discover how one protein controls the behavior of immune cells, with potential applications for treating cancer and ...

CD8 + cytotoxic T lymphocytes (CTLs) serve as central effectors in cancer immunotherapy by directly eliminating tumor cells. However, current clinical therapies face significant limitations. These ...

T cells are the immune system’s frontline fighters. When they detect danger, they rapidly multiply and transform into effector cells that destroy pathogens. This transformation demands an intense ...

Durable reprogramming of human T cells may now be possible thanks to a new technique based on the CRISPRoff and CRISPRon methodology. Researchers from the Arc Institute, Gladstone Institutes, and the ...

Meet the Jekyll and Hyde of the immune system: activated CD8⁺ T cells. On June 24 in Nature Immunology, researchers led by Dorian McGavern at the National Institutes of Health introduce a granzyme ...