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Genes increasing the risk of triple-negative breast cancer identified

Posted: 8 August 2018 | | No comments yet

Germ line genetic testing analyses blood samples and evaluates inherited genetic changes that increase the risk of certain cancers in an individual…

Triple-negative breast cancer

A team of researchers have identified genes that are linked to an increased risk of developing triple-negative breast cancer.

Dr Fergus Couch, a geneticist at Mayo Clinic, led the team and said, “Triple-negative breast cancer is an aggressive type of cancer that cannot be treated using targeted therapies. It accounts for 15 percent of breast cancer in the Caucasian population and 35 percent in the African-American population.

“It is also associated with a high risk of recurrence and a poor five-year survival rate. Our findings provide the basis for better risk management.”

In ordinary breast cancer, the cancer cells have receptors for oestrogen, progesterone and the HER2 protein, however, in triple-negative breast cancer, the cancer cells do not have receptors for any of the three mentioned. This makes it far more difficult to treat triple-negative breast cancer, which affects 15 from every 100 breast cancer patients.

Germ line genetic testing analyses blood samples and evaluates inherited genetic changes that increase the risk of certain cancers in an individual. Dr Couch mentioned that this type of test has enabled the identification of many women at risk of breast cancer.

Despite this, women with an elevated risk of triple-negative breast cancer have been much more difficult to identify. Dr Couch explains how this is because only inherited mutations in BRCA1 have been linked to this subtype of breast cancer.

The research team conducted genetic tests on over 10,900 patients with triple-negative breast cancer. Two studies were performed, with 8,753 patients in one group and 2,148 in the other group. The first group was tested for 21 cancer predisposition genes and the second, smaller group were tested for 17 predisposition genes.

Alterations in the BARD1, BRCA1, PALB2 and RAD51D genes were found to be associated with a high risk for triple-negative breast cancer, with a greater than 20 percent lifetime risk for overall breast cancer among Caucasians.

Among African-American a similar trend was identified, with mutations in the genes BRIP1 and RAD51C being linked to a more moderate type of triple-negative breast cancer.

“This study is the first to establish which genes are associated with high lifetime risks of triple-negative breast cancer,” says Dr Couch. “While previous studies have found genetic variants in BARD1, BRIP1, PALB2 and RAD51C triple-negative breast cancer patients, the current study shows this in more detail, and identifies new specific and strong associations between the susceptibility genes RAD51D and BARD1, and triple-negative breast cancer risk.”

The team suggest that these finding will enable better genetic testing in order to identify women at risk for triple-negative breast cancer and could lead to prevention strategies.

Dr Couch said the new findings may also lead to amendments to the National Comprehensive Cancer Network screening guidelines, which currently recommend only BRCA testing when a patient has a family history of breast cancer or is diagnosed at age 60 or younger.

The research was published in the Journal of the National Cancer Institute.