News Release

Gene signatures predict doxorubicin response in K9 osteosarcoma

COXEN gene expression model matches dogs with bone cancer to most effective drug

Peer-Reviewed Publication

University of Colorado Anschutz Medical Campus

Dan Gustafson, University of Colorado Denver

image: Daniel L. Gustafson, PhD, CU Cancer Center investigator and director for basic research at the Flint Animal Cancer Center uses gene expression model, COXEN, to predict response of dogs with bone cancer to common drug doxorubicin. view more 

Credit: CSU Flint Animal Cancer Center

There are two chemotherapies commonly used to treat bone cancer in dogs: doxorubicin and carboplatin. Some dogs respond better to one drug than to the other. But until now, the choice has been left largely to chance. New work by University of Colorado Cancer Center members at Colorado State University Flint Animal Cancer Center presented today at the American Association for Cancer Research (AACR) Annual Meeting 2015 demonstrates a gene expression model that predicts canine osteosarcoma response to doxorubicin, potentially allowing veterinary oncologists to better choose which drug to use with their patients. The approach is adopted from and further validates a model known as COXEN (CO-eXpression gEne aNalysis), developed at the CU Cancer Center by center director Dan Theodorescu, MD, PhD, which is currently in clinical trials to predict the response of human tumors to drugs.

"This is a cool thing for us, showing that we can use human models in canine cancer, and hinting that the reverse might also be true: the lessons we learn from canine osteosarcoma may help us better understand the human disease," says Daniel L. Gustafson, PhD, CU Cancer Center investigator and director for basic research at the Flint Animal Cancer Center.

The COXEN model depends on the idea that cancer can be defined as the sum of its genetic alterations. Rather than looking at a cancer by its site in the body - say lung cancer or prostate cancer or breast cancer - the COXEN model evaluates a panel of genes known to be important to the development of cancer and uses gene expression to label the cancer with a genetic signature. The model then compares the genetic signature of a cancer to the genetic signatures of cancers for which we have treatment and outcome data. If the genetic signature of one cancer matches the genetic signature of another, the same treatment may be appropriate.

Clinical trials are underway at the CU Cancer Center in which human tumor samples are evaluated with the COXEN model and then the model's recommended treatment is compared with results of the actual treatment.

"This study shows that we can use the COXEN model to accurately predict our patients' responses to doxorubicin," Gustafson says. "But the key here is that in addition to it being a personalized medicine approach for dogs, we are using veterinary science to further validate this tool that could help human cancer patients."

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