Findings indicate that altering glucose metabolism in T cells boosts their therapeutic potential against melanoma, paving the way for improved immunotherapies.

Explore how immune time-resolved Förster resonance energy transfer (iFRET) offers new insights into predicting immunotherapy ...

Researchers from the University of Pittsburgh have developed a new way to grow T cells in the lab that enables them to live ...

Researchers have revolutionized cancer immunotherapy by developing a way to grow T cells in the lab that live longer and ...

Researchers from the University of Pittsburgh have developed a new way to grow T cells in the lab that enables them to live longer and better destroy cancer cells in a mouse model of melanoma compared ...

Researchers identify glucose usage as one major divergence betweenT cells expanding in vitro versus those expanding in vivo.

Sep. 16, 2024 — Long-term data from a landmark international trial show about half of patients with metastatic melanoma treated with a combination of immune ... Experimental mRNA Cancer Vaccine ...

Research led by the Chiba Cancer Center Research Institute in Japan has discovered a surprising way cancer evades the immune ...

Melanoma, one of the most aggressive forms of skin cancer, often metastasizes to bones, causing severe bone loss, an increased risk of fractures, and significant pain. Bone metastasis is associated ...

A recent study has uncovered the molecular mechanisms behind osteocyte death in melanoma bone metastasis, revealing that ferroptosis—an iron-dependent form of cell death—plays a central role in the ...