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.

The orchestration of T cell activation is central to immune defence and self-tolerance. Recent advances have revealed that T cells integrate signals from their antigen receptors alongside a network of ...

Immunotherapy has transformed cancer care, offering a way to harness the body’s own immune system to fight tumors. But even with these advances, many patients still don’t respond. One major barrier to ...

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 ...

Each immune cell group has distinct metabolic requirements, activation pathways, and cytokine reliance. Standard, one-size-fits-all media cannot address these features. When studying diverse cell ...

Antibodies are most well-known for their ability to recognize and bind specific antigens—a property that has made them indispensable for both the laboratory and clinic. However, antibodies are not ...

Magnetic nanoparticles engineered T cells inside living mice and guided them into solid tumors, achieving over 90% tumor ...

Treatment with nivolumab (Opdivo) had limited benefit in patients with multiple myeloma (MM) or non-Hodkin lymphoma (NHL) ...

Stanford University-led researchers report that tumor cells hijack mitochondria from immune cells, reducing anti-tumor immune ...