This review highlights the critical role of ubiquitination in governing the functionality of cancer stem cells (CSCs), shedding light on potential therapeutic targets for combating tumor progression, ...

HMGA2 is a non-histone chromatin-binding protein that has emerged as a critical regulator in both cancer progression and stem cell biology. Frequently overexpressed in various malignancies, HMGA2 ...

Scientists at University of California, San Diego (UCSD), have developed a new approach to destroying cancer stem cells (CSCs)—the hard-to-find cells that help cancers spread, come back after ...

Scientists at University of California San Diego have developed a new approach to destroying cancer stem cells – hard-to-find cells that help cancers spread, come back after treatment and resist ...

Cancer scientists have been working against the clock for decades to outsmart a disease that comes back more powerfully after treatment. Traditional treatments like chemotherapy, radiation, and even ...

Researchers from University of California San Diego Sanford Stem Cell Institute have discovered that spaceflight accelerates the aging of human hematopoietic stem and progenitor cells (HSPCs), which ...

In a first-of-its-kind clinical trial, UCLA scientists have shown it's possible to reprogram a patient's blood-forming stem cells to generate a continuous supply of functional T cells, the immune ...

Immunotherapy has revolutionized cancer care by training the immune system to detect and destroy tumors. For many patients, it works very well in shrinking tumors and sending cancer into remission, an ...

Cells in our immune system are best known for providing security against external invaders such as bacteria and viruses. These immune cells also guard against internal threats, including cancerous ...