Public release date: 23-Sep-2012 [ | E-mail | Share ]

Contact: Caroline Arbanas arbanasc@wustl.edu 314-286-0109 Washington University School of Medicine

The most comprehensive analysis yet of breast cancer shows that one of the most deadly subtypes is genetically more similar to ovarian tumors than to other breast cancers.

The findings, published online Sept. 23 in Nature, suggest that most basal-like breast tumors and ovarian tumors have similar genetic origins and potentially could be treated with the same drugs, says the study's co-leader Matthew J. Ellis, MD, PhD, the Anheuser-Busch Chair in Medical Oncology at Washington University School of Medicine in St. Louis. The other co-leader is Charles M. Perou, PhD, at the University of North Carolina.

Basal-like tumors account for about 10 percent of all breast cancers and disproportionately affect younger women and those who are African-American.

The new research is part of The Cancer Genome Atlas project, which brings together leading genetic sequencing centers, including The Genome Institute at Washington University, to identify and catalog mutations involved in many common cancers. The effort is funded by the National Institutes of Health (NIH).

"With this study, we're one giant step closer to understanding the genetic origins of the four major subtypes of breast cancer," says Ellis, who treats breast cancer patients at the Siteman Cancer Center at Barnes-Jewish Hospital and Washington University. "Now, we can investigate which drugs work best for patients based on the genetic profiles of their tumors. For basal-like breast tumors, it's clear they are genetically more similar to ovarian tumors than to other breast cancers. Whether they can be treated the same way is an intriguing possibility that needs to be explored."

Currently, for example, basal-like breast tumors often are treated like many other breast cancers, using anthracycline-based chemotherapy. But another of Ellis's studies recently showed that women with basal-like tumors don't benefit from these drugs, which also have severe side effects. At the very least, he says, the new data indicates that clinical trials should be designed to avoid the use of these drugs in basal-like tumors.

As part of the new research, a nationwide consortium of researchers analyzed tumors from 825 women with breast cancer. The scientists used six different technologies to examine subsets of the tumors for defects in DNA, RNA (a close chemical cousin of DNA) and proteins. Nearly 350 tumors were analyzed using all six technologies.

"By tying together those different data sets, we can build a story around the biology of each breast cancer subtype that is dictated by the genome, interpreted by the RNA and played out by the proteins at work inside each tumor," says co-author Elaine Mardis, PhD, co-director of The Genome Institute. "These data can serve as a backdrop for other questions about how particular mutations affect survival or response to certain drugs."

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Some deadly breast cancers share genetic features with ovarian tumors

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