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Topic Name: Herceptin to treat HER2-positive breast cancer by destroing the cancer stem cells.
Category: Biomedical
Research persons: Max S. Wicha, Hasan Korkaya
Location: Michigan, United States
Details
A gene that is overexpressed in 20 percent of breast cancers
increases the number of cancer stem cells, the cells that fuel a tumor’s growth
and spread, according to a new study from the University of Michigan
Comprehensive Cancer Center.
The gene, HER2, causes cancer stem cells to multiply and
spread, explaining why HER2 has been linked to a more aggressive type of breast
cancer and to metastasis disease, in which the cancer has spread beyond the
breast, the researchers say.
Further, the drug Herceptin, which is used to treat
HER2-positive breast cancer, was found to target and destroy the cancer stem
cells. “This work suggests that the reason drugs that target HER2, such as
Herceptin and Lapatanib, are so effective in breast cancer is that they target
the cancer stem cell population. This finding provides further evidence for the
cancer stem cell hypothesis,” says study author Max S. Wicha, M.D.,
Distinguished Professor of Oncology and director of the U-M Comprehensive Cancer
Center.
The cancer stem cell hypothesis says that tumors originate in
a small number of cells, called cancer stem cells, and that these cells are
responsible for fueling a tumor’s growth. These cells represent fewer than 5
percent of the cells in a tumor. Wicha’s lab was part of the team that first
identified stem cells in human breast cancer in 2003.
In the current study, researchers found that breast cancer
cells overexpressing the HER2 gene had four to five times more cancer stem
cells, compared to HER2-negative cancers. In addition, the HER2-positive cells
caused the cancer stem cells to invade surrounding tissue, suggesting that HER2
is driving the invasiveness and spread of cancer.
The researchers then looked at the drug Herceptin, which is
used to treat HER2-positive breast cancer. They found Herceptin reduced the
number of cancer stem cells in the HER2-positive breast cancer cell lines by 80
percent, dropping it to the same levels seen in HER2-negative cell lines.
When HER2 was not overexpressed in the cell cultures, the
researchers found, the cancer stem cell population did not increase. Nor did
Herceptin have any effect on the HER2-negative cells, which is consistent with
how Herceptin is used in the clinic.
“We are now studying what pathways are activated by HER2
overexpression. Our hope is that we could develop inhibitors of these pathways
that might be effective in targeting cancer stem cells in women whose tumors do
not overexpress HER2 or those who are resistant to Herceptin,” says study author
Hasan Korkaya, Ph.D., a U-M research fellow in internal medicine.
Breast cancer statistics: 184,450 Americans will be
diagnosed with breast cancer this year and 40,930 will die from the disease,
according to the American Cancer Society. About 20 percent of breast cancers are
considered HER2-positive.
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