glioblastoma tagged posts

Researchers have shown that a metabolic pathway associated with slowing aging also drives brain cancer. In the image above, cancer stem cells in a mouse brain section glow fluorescent green, allowing researchers to study the effect of inhibiting the pathway on the ability of cancer stem cells to survive and proliferate. Credit: AMIT GUJAR AND ALBERT H. KIM

While a particular metabolic pathway shows potential to slow down the aging process, new research indicates a downside: That same pathway may drive brain cancer. The pathway, known as the nicotinamide adenine dinucleotide (NAD+) pathway, is overactive in a most deadly form of brain cancer, glioblastoma, according to a study by researchers at Washington University School of Medicine in St. Louis...

Molecular model showing the novel proposed mechanism for the activation of SMURF2. The C-lobe (in yellow) of the SMURF2 protein interacts with an ubiquitin molecule (in green), which was transferred to SMURF2 by USP15. Credit: Image courtesy of National University of Singapore

In certain settings, the TGF-beta pathway can act as an oncogene, enhancing cancer progression in humans. The activation of this pathway can increase the growth of tumors by promoting cell invasion, activating cancer stem cells, and in some cases, promoting the spread of cancer. In recent years, a number of deubiquitinating enzymes have been shown to regulate the TGF-β pathway and may potentially be considered as a new class of drug targets...