Stress hormones could undermine breast cancer therapy

In In The News by Barbara Jacoby

From: medicalxpress.com

Recently, researchers have discovered that the hormone progesterone, an ingredient in contraceptives and menopausal hormone replacement therapies, might stimulate the growth of breast cancer cells that are resistant to anti-estrogen therapy and chemotherapy. Now, new research published June 22nd in the journal Oncogene, a Nature publication, shows that additional hormones, including stress hormones that are frequently used to treat the side effects of common chemotherapy, could make these effective cancer drugs fail sooner in some women with breast cancer. But there may be ways to counteract the effect.

“The data we have collected suggests that hormones used in treatment, which are also produced by the body in response to stress, could have a major impact on disease progression and outcomes in some patients,” says Hallgeir Rui, M.D., Ph.D., a Professor of Cancer Biology, Pathology and Medical Oncology at Thomas Jefferson University. “However, these studies must be confirmed in clinical trials with patients before any new treatment recommendations can be made.”

About 70-80 percent of all invasive breast cancers are driven by the hormone estrogen; they are often called estrogen receptor (ER) positive disease. This group of women can successfully keep the growth of their cancer in check with therapies that block estrogen receptors, or block the production of estrogen in the body, essentially starving the cancer. While some women can use hormone blockers such as tamoxifen or aromatase inhibitors to control their cancer for a decade or more, one of four will develop resistance.

Researchers believe that some of this resistance is caused by a small subpopulation of cancer cells within the tumor called CK5 cells which harbor the ability to resist estrogen-blocking therapy and chemotherapy. When these cells become more abundant, tumors become therapy-resistant. Dr. Rui estimates that 10-15 percent of patients with ER+ disease harbor CK5 cells.

Earlier work by the Rui laboratory and others had shown that progesterone spurs the growth of CK5 cells in breast cancer. But since most ER-positive breast cancers are diagnosed after menopause when progesterone production has stopped, this wasn’t a major concern. Progesterone, however, belongs to a family of hormones called 3-ketosteroids that are often produced by the body in times of stress. Dr. Rui and colleagues decided to test whether other members of the 3-ketosteroid family, including glucocorticoids used to treat nausea and other related symptoms, might also expand the population of CK5 cells.