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Researchers find breast cancer gene that's blocked by blood pressure drug
Gene overexpressed in up to 20% of breast cancers responds to blood pressure drug in lab, U-M researchers reportadded 6/01/09
Ann Arbor - Researchers have identified a gene that is overexpressed in up to 20 percent of breast cancers and that could be blocked in the lab by a currently available blood pressure drug, according to a new study from the University of Michigan Comprehensive Cancer Center.
The gene, called AGTR1, caused normal breast cells to behave like cancer cells. This behavior was reversed by treatment with the blood pressure drug losartan. Tumors in mice that expressed AGTR1 shrunk by 30 percent eight weeks after treatment with losartan, a drug approved by the U.S. Food and Drug Administration to treat high blood pressure.
"We suspect our analysis has uncovered a new crop of potentially important breast cancer genes. What's also exciting is this gene is blocked by a drug that's already available on the market," says study author Arul Chinnaiyan, M.D., Ph.D., director of the Michigan Center for Translational Pathology and S.P. Hicks Endowed Professor of Pathology at the U-M Medical School.
Results of the study appear online the week of June 1 in the Proceedings of the National Academy of Sciences.
The researchers looked at gene expression profiling data from nearly 3,200 microarrays available in the Oncomine database, a tool that allows rapid comparison of thousands of genes in human cancers. The researchers found genes that were dramatically overexpressed within subsets of tumors.
The gene that came up most often was ERBB2, which is better known as HER2, a gene that is overexpressed in 25 percent to 30 percent of all human breast cancers. HER2 is blocked by the targeted therapy Herceptin.
The next most commonly seen gene behind ERBB2 was AGTR1, which was seen in 10 percent to 20 percent of breast tumors. Specifically, AGTR1 was overexpressed only in tumors that were ERBB2-negative and that expressed the estrogen receptor, known as ER-positive. AGTR1 was found to be as much as 100-fold overexpressed in some tumors.
"AGTR1 is very analogous to HER2 or ERBB2. HER2 is a bona fide treatment target for patients with that type of breast cancer. This research defines a novel subtype of ER-positive breast cancer that we hope can be similarly targeted for treatment," says Chinnaiyan, a Howard Hughes Medical Institute investigator.
The researchers tested in cell cultures and in mice the effect of losartan on AGTR1-positive tumors. When losartan was introduced, the AGTR1-positive tumors were reduced, while AGTR1-negative tumors were not affected. In the mice studies, losartan shrank AGTR1-positive tumors by 20 percent after two weeks and by 30 percent after eight weeks.
"Losartan may be a viable therapy for women with AGTR1 over-expressing breast tumors. This study lays the groundwork for a clinical trial to test losartan to treat breast cancers positive for AGTR1," Chinnaiyan says.
Researchers are discussing a possible clinical trial, but one is not currently designed or recruiting for participants.
Breast cancer statistics: 194,280 Americans will be diagnosed with breast cancer this year and 40,610 will die from the disease, according to the American Cancer Society.
Additional authors: Daniel R. Rhodes, Bushra Ateeq, Qi Cao, Scott A. Tomlins, Rohit Mehra, Bharathi Laxman, Shanker Kalyana-Sundaram, Robert J. Lonigro, Beth E. Helgeson, Mahaveer S. Bhojani, Alnawaz Rehemtulla, Celina G. Kleer, Daniel F. Hayes, Peter C. Lucas and Sooryanarayana Varambally.
Funding: Department of Defense Era of Hope Scholar Award, Early Detection Research Network Biomarker Devleopmental Lab, Department of Defense, U-M Cancer Center Bioinformatics Core, Rackham Predoctoral Fellowship, Clinical Translational Research Award from the Burroughs Welcome Foundation and Doris Duke Charitable Foundation Distinguished Clinical Scientist Award. Losartan was provided by Merck U.S.A.
Disclosure: The University of Michigan has filed a patent on AGTR1 as a potential diagnostic or prognostic marker for breast cancer and is currently seeking a commercial partner to help bring this technology to market. For information about licensing opportunities, contact Robin Rasor at 734-615-8433.
Reference: Proceedings of the National Academy of Sciences, DOI: 10.1073/PNAS.0900351106.
Written by Nicole Fawcett