For decades, cancer immunotherapy has focused primarily on CD8+ cytotoxic T lymphocytes as the main executors of tumor cell ...

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

When cancer cells are physically squeezed, they mount an instant, high-energy defense by rushing mitochondria to the cell nucleus, unleashing a surge of ATP that fuels DNA repair and survival. This ...

Scientists in South Korea have developed a new technique that reprograms cancer cells back into healthy ones, offering a potential breakthrough in cancer treatment. The method, called REVERT, was ...

A new study led by researchers at Adelaide University and published in Science Advances reveals why some cancers can grow and survive in the body, while others cannot. It turns out that intense ...

Wei Gu, PhD After more than a decade of research, scientists have discovered the natural mechanism behind a novel form of ...

Some cancer cells don't die; they go quiet, like seeds lying dormant in the soil. These "sleeper cells," scattered throughout the body, can stay inactive for years. But when the body faces a ...