Researchers for the first time have identified dysfunctional immune cells in the healthy breast tissue of women with mutations in the genes BRCA1 and BRCA2, a finding that opens up the possibility of using existing immunotherapy drugs to prevent cancer before it forms.
The discovery was detailed in a journal article published March 28 in Nature Genetics. A team of researchers from Cambridge University detailed how they found the cells in the course of developing the Human Breast Cell Atlas, a project that aims to catalog the vast array of biological changes that human breast cells undergo in response to age, pregnancy, breastfeeding, menopause and gene mutations.
“Our results suggest that in carriers of BRCA mutations, the immune system is failing to kill off damaged breast cells—which in turn seem to be working to keep these immune cells at bay,” Walid Khaled, Ph.D., senior author of the article, said in a press release. “Drugs already exist that can overcome this block in immune function, but … no one has really considered using them in a preventative way before.”
BRCA mutations are among the best known and most substantial risk factors for breast cancer. Between 55% and 72% of women with a BRCA1 mutation will develop breast cancer at some point, as will 45% to 69% of women with a BRCA2 mutation, according to the U.S. National Cancer Institute. Given that the cancer is nearly guaranteed, some women who learn they carry the mutation opt to have their breasts removed prophylactically in a procedure called a double mastectomy—a decision that has seen its profile raised in recent years thanks to celebrities like Angelina Jolie.
But the discovery of malfunctioning immune cells in the tissue of patients with BRCA mutations could lead to a different approach. Technically, the immune cells are described as “exhausted,” meaning they may no longer work optimally. This leaves wayward breast cells free to proliferate into tumors.
Immunotherapies could offer a solution because they work by restoring a patient’s immune system to fight cancer. For example, Merck’s Keytruda is approved for triple-negative breast cancer, a less common and more aggressive form of the disease that’s more common in people with BRCA1 mutations.
The cancer organization Cancer Research UK has awarded the Cambridge team a grant to study whether immunotherapies can prevent the disease in mouse models with BRCA mutations, according to the release. In an emailed comment to FBR, Khaled did not name any specific drugs that would be evaluated, but said the team planned to test a variety of immunotherapies that will be assessed as the project progresses.
Editor's note: This story was updated on April 1, 2024 with details about the upcoming study in animal models and on April 2, 2024 to clarify information on current immunotherapies approved for triple-negative breast cancer.