Georgetown University's Lombardi Comprehensive Cancer Center researchers have identified a new way to reprogram T cells, ...

A researcher is planning on investigating potential treatments aimed at the root causes of type 1 diabetes. At the (MUSC), ...

Peer-reviewed discovery platform and data in PNAS show that single transcription factor modulation reverses aging-associated gene expression and restores healthy cellular and tissue function in models ...

In the battle against type 1 diabetes (T1D), one researcher at the Medical University of South Carolina (MUSC) is leading a ...

The capacity of an organism to regenerate depends on cell dedifferentiation followed by proliferation. Mammals, in general, have limited regenerative capacity. Now, a team of researchers at the Salk ...

Researchers at Lund University in Sweden have created a method that makes it possible to transform the brain’s support cells ...

Zimislecel is an allogeneic stem cell-derived islet cell therapy that could eliminate the need for insulin in those who have type 1 diabetes. Regulatory submissions are expected in 2026, and if ...

Researchers developed a way to directly reprogram human glial cells into PV interneurons without passing through a stem‑cell stage.

A mechanism underlying neutrophil reprogramming in brain cancers has been uncovered, illuminating potential therapeutic targets to stop their pro-cancer effect. Tumor-infiltrating neutrophils are ...

Cells of a multicellular organism are functionally heterogeneous owing to the differential expression of genes. Historically, differential gene expression had been thought to involve the genetic ...

Induced pluripotent stem (iPS) cells hold the potential to revolutionize regenerative medicine through their capacity to generate cells of diverse lineages for future patient-specific cell-based ...