A newly published review article highlights the critical role of fatty acid metabolism in shaping the tumor microenvironment and influencing cancer progression, offering fresh perspectives for the ...

Reprogram Biosciences, a preclinical oncology biotechnology company developing mRNA-based therapeutics to treat solid tumors, today announced the close of its seed financing. The close brings total ...

UH engineers helped develop an mRNA-based strategy that boosts cancer-fighting T cells and, in mouse studies, helped ...

Plans to seek FDA submission and approval for first-in-human trials in type 1 diabetes and stiff person syndrome targeted for early 2026 MOUNTAIN VIEW, Calif.--(BUSINESS WIRE)-- Aditxt, Inc. (NASDAQ: ...

Solid tumors often provide a challenging environment for the T cells of our immune system. By reprogramming the metabolism of T cells, scientists at the VIB-KU Leuven Center for Cancer Biology and ...

At age 49, Jan Janisch-Hanzlik's multiple sclerosis was destroying her freedom to live the life she wanted. She gave up her ...

In order to reprogram readily available cells into specific immune cells that fight various diseases, one must know the "recipe" for the transformation. Researchers at Lund University have now created ...

Scientists are reprogramming the immune system through cutting-edge approaches like CAR-T cells, engineered dendritic vaccines, AI-driven antibody design, and senolytic therapies, highlighting both ...

In order to reprogram readily available cells into specific immune cells that fight various diseases, one must know the “recipe” for the transformation. Researchers at Lund University have now created ...

Scientists have discovered a previously unknown mechanism for how aggressive brain cancers reprogram immune system cells from fighting cancer to enabling further tumor growth. The lab of Filippo ...

An international team led by researchers at Lund University in Sweden has identified the molecular tools needed to reprogram ordinary cells into specialised immune cells. The discovery, published in ...

When food is scarce, stress hormones direct the immune system to operate in "low power" mode to preserve immune function while conserving energy, according to researchers at Weill Cornell Medicine.