Scientists Unravel Breast Cancer Risk Gene Mystery
10th July 2006 - The risk of developing breast cancer is doubled in women who inherit a damaged version of a gene called ATM, according to a study published by Cancer Research UK funded scientists and collaborators in Nature Genetics. A team of researchers at The Institute of Cancer Research compared 433 breast cancer patients with a family history of the disease, but who don’t carry faults in the breast cancer genes BRCA1 or BRCA2, with 521 healthy women. They found 12 ATM gene faults in the patient group, compared with two in the healthy group, showing that the gene is linked to breast cancer more often than would be expected by chance.
The team conducted a detailed statistical analysis of their data and estimated that carrying a faulty version of the ATM gene raises a woman’s risk of breast cancer by about two-fold. This takes the overall risk of breast cancer by age 70 in a carrier of the faulty gene from one in twelve to around one in six. These findings could lead to new ways of identifying women at increased risk of developing breast cancer and in treating and preventing the disease, but further research will need to be done first. Around five to ten per cent of breast cancers are believed to be due to inherited genetic faults. Some of these are well known, such as faults in the BRCA genes, but most of the genes involved in familial breast cancer have not yet been identified. For over 20 years scientists have reported links between breast cancer and the ATM gene, but until now, there was controversy about which faults in ATM could increase the risk of breast cancer and by how much.
Serious faults in the ATM gene are responsible for a rare, progressive, childhood disease, called ataxia-telangiectasia, which leads to severe neurological disability, as well as blood cancers and respiratory problems. People with this disorder have two faulty copies of the ATM gene, and carriers of the disease have one. It is the carriers with one faulty copy of the gene who have the higher breast cancer risk, although they are otherwise healthy.
ATM, like BRCA1 and BRCA2, is a DNA-repair gene, so women with a faulty ATM gene cannot repair damaged DNA correctly. Cells with damaged DNA can start to replicate uncontrollably and become cancer cells, which is why individuals with faulty DNA repair genes are at an increased risk of cancers, such as breast cancer.
Find out more about the scientists working on this project:
- Professor Nazneen Rahman
- Professor Mike Stratton
