A new multi-pronged antibody design could help immune cells receive stronger activation signals against cancer. Researchers at the University of Southampton have identified a new strategy that could ...

Efficient T-cell engineering is crucial for the success of CAR T-cell therapy research, but it requires multiple labor-intensive steps, including T-cell isolation, activation, and transduction.

How do immune cells strike a balance, unleashing rapid attacks against pathogens or cancer, while avoiding damage to healthy ...

Researchers have developed a new class of antibodies that amplify the immune system’s ability to fight cancer. By clustering immune receptors that normally receive weak signals from tumors, these four ...

A research team led by Professor Chen Peng from the College of Chemistry and Molecular Engineering at Peking University has ...

A new study in Nature Communications reveals how immune cells rapidly shut down their response after activation, preventing ...

A new AI tool that models how variations in peptides change T cell receptor binding could help design immunotherapies with fewer off-target effects. Protein complexes that adorn the surface of T cells ...

T lymphocytes are central components of the adaptive immune system, tasked with recognising and responding to a wide array of antigens. Their activation is initiated through the engagement of the T ...

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 ...

Cells that are about to die send a signal to an executioner protein, but sometimes, those cells can fight back and regenerate ...