PUBLIC RELEASE DATE: <\/p>\n
24-Nov-2014 <\/p>\n
Contact: Vanessa Wasta wasta@jhmi.edu<\/a> 410-614-2916 Johns Hopkins Medicine @HopkinsMedicine<\/p>\n After mining the genetic records of thousands of breast cancer patients, researchers from the Johns Hopkins Kimmel Cancer Center have identified a gene whose presence may explain why some breast cancers are resistant to tamoxifen, a widely used hormone treatment generally used after surgery, radiation and other chemotherapy. <\/p>\n The gene, called MACROD2, might also be useful in screening for some aggressive forms of breast cancers, and, someday, offering a new target for therapy, says Ben Ho Park, M.D., Ph.D., an associate professor of oncology in the Kimmel Cancer Center's Breast Cancer Program and a member of the research team. <\/p>\n The drug tamoxifen is used to treat estrogen receptor-positive breast cancers. Cells in this type of breast cancer produce protein receptors in their nuclei which bind to and grow in response to the hormone estrogen. Tamoxifen generally blocks the binding process of the estrogen-receptor, but some estrogen receptor-positive cancers are resistant or become resistant to tamoxifen therapy, finding ways to elude its effects. MACROD2 appears to code for a biological path to tamoxifen resistance by diverting the drug from its customary blocking process to a different way of latching onto breast cancer cell receptors, causing cancer cell growth rather than suppression, according to a report by Park and his colleagues published online Nov. 24 in the Proceedings of the National Academy of Sciences. <\/p>\n Specifically, the team's experiments found that when the gene is overexpressed in breast cancer cells--producing more of its protein product than normal--the cells become resistant to tamoxifen. <\/p>\n One piece of evidence for the gene's impact was demonstrated when the Johns Hopkins scientists blocked MACROD2's impact in breast cancer cell cultures by using an RNA molecule that binds to the gene to \"silence,\" or turn off, the gene's expression. But the technique only partially restored the cells' sensitivity to tamoxifen. <\/p>\n To conduct the study, the scientists examined two well-known databases of breast cancer patients' genetic information, The Cancer Genome Atlas and the Molecular Taxonomy of Breast Cancer International Consortium study. Patients who had MACROD2 overexpressed in primary breast cancers at the original breast cancer site had significantly worse survival rates than those who did not, according to an analysis of the patient databases. <\/p>\n With this in mind, the Johns Hopkins scientists suggest that clinicians may be able to look at MACROD2 activity to help them identify aggressive breast cancers at early stages of growth. <\/p>\n <\/p>\n Visit link: <\/p>\n Johns Hopkins scientists link gene to tamoxifen-resistant breast cancers<\/a><\/p>\n","protected":false},"excerpt":{"rendered":" PUBLIC RELEASE DATE: 24-Nov-2014 Contact: Vanessa Wasta wasta@jhmi.edu<\/a> 410-614-2916 Johns Hopkins Medicine @HopkinsMedicine After mining the genetic records of thousands of breast cancer patients, researchers from the Johns Hopkins Kimmel Cancer Center have identified a gene whose presence may explain why some breast cancers are resistant to tamoxifen, a widely used hormone treatment generally used after surgery, radiation and other chemotherapy. The gene, called MACROD2, might also be useful in screening for some aggressive forms of breast cancers, and, someday, offering a new target for therapy, says Ben Ho Park, M.D., Ph.D., an associate professor of oncology in the Kimmel Cancer Center's Breast Cancer Program and a member of the research team. The drug tamoxifen is used to treat estrogen receptor-positive breast cancers Continue reading