Researchers mapped distinct cancer cell communities within supratentorial ependymoma tumors, showing how different cell types drive tumor growth, mobility, and interactions with the brain environment.

Scientists have discovered that a rare “mirror-image” version of the amino acid cysteine can dramatically slow the growth of ...

Yale researchers are sifting through a mosaic of cells in a living animal — both normal cells and mutated cells — to better understand how cancer grabs a foothold. But they’re starting by studying ...

New research published in Nature finds that tumor cells within supratentorial ependymomas (SE)—an aggressive childhood brain cancer—cluster into distinct tumor cell populations. Much like a ...

A hidden clue may explain why some mutated cells become cancerous and others don’t: how fast they divide. A new study from researchers at Sinai Health in Toronto reveals that the total time it takes ...

Polyamines—natural molecules found in every living cell—have become stars in the longevity world for their ability to boost cellular cleanup and support healthy aging. But there’s a dark twist: high ...