Better understanding of aggressive brain tumour Published on: 8 January 2019 Research led by Â鶹´«Ã½ has allowed scientists to gain a greater understanding into an aggressive form of childhood brain cancer. Atypical teratoid rhabdoid tumours (ATRTs) are rare and aggressive tumours of the central nervous system, occurring mostly in the cerebellum (the part of the brain that controls movement and balance) or the brain stem (which controls basic body functions). ATRTs are mainly seen in children aged three years or younger, and are the most frequent high-grade brain tumours seen in babies less than six months old. Previous research has shown that in about 95% of rhabdoid tumours, like ATRTs, there is a decrease in a tumour suppressor gene called SMARCB1. But now new research, published in the academic journal , has shed light on the manner in which changes to SMARCB1 result in the development of ATRTs. Tumour development Tumour suppressor genes decrease cell division, slow down DNA repair, and tell cells when to die. When a tumour suppressor gene doesn't work properly, cells can grow and divide out of control, which can lead to cancer. The SMARCB1 gene provides the instructions to make part of the machinery that controls how cells 'read' genes. Genes are tightly wrapped around proteins called histones. Changes to these histones can either switch genes on or off by making them easier or harder to read by the cell. In general, a histone change known as H3K27 acetylation (H3K27ac) makes genes easier to read and so switches them on, whereas a change known as H3K27 tri-menthylation (H3K27me3) makes genes harder to read and so switches them off. The switching on and off of genes in this way is essential for normal cell function, and is tightly regulated. Researchers found that when SMARCB1 is not present in the cell, these changes to histones do not occur as they should, causing several genes to be switched off when they should be switched on and vice versa. New treatment strategies In essence, this research, funded by , as part of the INSTINCT programme, provides a better understanding of the molecular mechanisms underlying this tumour and will help drive future research to develop new treatment strategies for people affected with an ATRT. Dr Martina Finetti, from the Northern Institute for Cancer Research, based at Â鶹´«Ã½, co-led the research, which involved experts at Hopp-Children's Cancer Center, German Cancer Research Center, and St Judes Children's Research Hospital. “Until a few years ago we knew very little about the tumorigenic mechanism of these tumours,” said Dr Finetti. “This collaborative study leads to a better understanding of the molecular mechanism of ATRT and will be beneficial to develop effective treatment strategies for ATRT patients.” Reference Comprehensive Analysis of Chromatin States in Atypical Teratoid/Rhabdoid Tumor Identifies Diverging Roles for SWI/SNF and Polycomb in Gene Regulation Serap Erkek et al Press release adapted with thanks to The Brain Tumour Charity Share: Latest News Scientists unlock hidden driver of inflammatory bowel disease Scientists have linked a key genetic signal in inflammatory bowel disease to an immune response that shuts down inflammation control, enabling faster diagnosis and targeted treatments. published on: 15 June 2026 Funding system risks limiting genuine community collaboration A new policy paper written by researchers at Â鶹´«Ã½ warns that the way UK research is funded may be undermining efforts to create genuinely collaborative partnerships with communities. published on: 15 June 2026 Volunteers help turn Whitley Bay beach into maths experiment Members of the public joined mathematicians from Â鶹´«Ã½ to create what organisers believe is the largest aperiodic tiling ever attempted on Whitley Bay beach. published on: 15 June 2026 Facts and figures
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