Tag Archives: eliza-hall

Cryptic clues drive new theory of bowel cancer development

The researchers produced evidence that stem cells are responsible for maintaining and regenerating the ‘crypts’ that are a feature of the bowel lining, and believe these stem cells are involved in bowel cancer development, a controversial finding as scientists are still divided on the stem cells’ existence. Using 3D imaging technologies, Dr Chin Wee Tan and Professor Tony Burgess from the Structural Biology division at the Walter and Eliza Hall Institute showed for the first time the bowel generates new intestinal crypts by a process called ‘budding’. The finding overturns the existing theory of how intestinal crypts form, with significant implications for our understanding of bowel cancer development. Intestinal ‘crypts’ are pocket-like wells in the bowel wall that produce mucous and absorb nutrients and water…

Immune cell discovery could help halt cancer spread

These natural killer cells could be harnessed to hunt down and kill cancers that have spread in the body. The team, from the Walter and Eliza Hall Institute, also found natural killer cells were critical to the body’s rejection of donor bone marrow transplants and in the runaway immune response during toxic shock syndrome. The discoveries came after the team showed that a protein called MCL-1 was crucial for survival of natural killer cells, in research published today in the journal Nature Communications. The discovery will help to determine how natural killer cells can be manipulated to fight cancers and other disorders…

Research reveals cancer-suppressing protein ‘multitasks’

More than half of human cancers carry defects in the gene for p53, and almost all other cancers, with a normal p53 gene, carry other defects that somehow impair the function of the p53 protein. Inherited mutations in the p53 gene put people at a very high risk of developing a range of cancers. The p53 protein’s functions are normally stimulated by potentially cancer-causing events, such as DNA damage from ultraviolet radiation (a cause of skin cancer), or the over-activity of cancer-causing genes. Ms Liz Valente, Dr Ana Janic and Professor Andreas Strasser from the Molecular Genetics of Cancer division at the Walter and Eliza Hall Institute have been dissecting the processes that are controlled by p53, to discover how this protein can suppress cancer development…