Research paves way for greater efficiency of cancer treatment

In laboratory studies, the researchers isolated a protein, caveolin-1, showing that in breast cancer cells this protein can enhance cell death in response to the use of Taxol, one of two taxane chemotherapy drugs used to treat advanced breast and ovarian cancer. But in order to work, they found the protein needs to be “switched on,” or phosphorylated.

Their finding suggests it may eventually be possible to test individual breast cancer patients for the status of such molecular markers as caveolin-1 in their tumors to determine the efficacy-to-toxicity ratio for Taxol, said the study’s first author, postdoctoral fellow Ayesha Shajahan, of Lombardi Comprehensive Cancer Center at Georgetown.

“Because breast tumors are not all the same, it is important to know the cancer’s molecular makeup in order to increase the efficiency, and lower the toxicity, of chemotherapy drugs, and this work takes us some steps forward in this goal,” she said. “It also offers insights into why some breast cancer cells can become resistant to therapeutic drugs.”

Additionally, the study identifies caveolin-1 as a new molecular target for increasing the efficacy of taxanes, according to the study’s lead investigator, Robert Clarke, a Professor of Oncology and Physiology & Biophysics. “This is important because the taxanes are active drugs in breast cancer, so now that we know caveolin-1 is a new mechanism to explain how these drugs kill breast cancer cells, we can potentially take advantage of that fact to improve these agents.”