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 ...

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 ...

The ability of mutations to cause cancer depends on how fast they force cells to divide, Sinai Health researchers have found. The study, led by Dr. Rod Bremner, a Senior Investigator at the ...

Add Yahoo as a preferred source to see more of our stories on Google. In a trailblazing advancement in cancer therapy, researchers at Korea Advanced Institute of Science and Technology (KAIST) have ...

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 ...

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 ...

Cancer remains one of the world’s most serious health threats, especially when it spreads beyond its original site. That ...

An enigmatic type of circulating tumor cell called a dual-positive (DP) cell is associated with shorter survival time in patients with advanced breast cancer, according to a study led by investigators ...