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OHSU Knight Cancer Institute selected to join prestigious national consortium, receive $9.2 million

OHSU investigators will focus on improving therapeutic strategies for treatment-resistant triple negative breast cancer
Joe Gray, Ph.D.
Joe Gray, Ph.D.,(left) director of the OHSU Center for Spatial Systems Biomedicine (OCSSB) and the OHSU Knight Cancer Institute associate director for biophysical oncology, September 26, 2014. (OHSU/Chris Hornbecker)

The National Cancer Institute has awarded a research team at the OHSU Knight Cancer Institute $9.2 million over five years to serve as a Research Center in the NCI’s Cancer Systems Biology Consortium, or CSBC.

The OHSU Knight Cancer Institute is one of nine research institutions nationwide tapped to join the consortium, including Stanford University, Yale University, Massachusetts Institute of Technology, Memorial Sloan Kettering Cancer Center, among others.

Joe Gray, Ph.D.
Joe Gray, Ph.D. (OHSU/Chris Hornbecker)

The OHSU Knight Cancer Institute’s project aims to develop strategies for improving treatment-resistant triple negative breast cancer, an aggressive form of breast cancer that lacks key receptors known to fuel most breast cancers: estrogen receptors, progesterone receptors and human epidermal growth factor receptor 2 (HER2).

Using advanced microscopy, the team will leverage tools for quantitative analysis and visualization of images generated, together with computational approaches for integrating diverse molecular data types. Through analysis of core cell lines, patient-derived cultures and primary tumors, the team aims to uncover molecular networks that underlie disease progression and therapeutic response.

Joe Gray, Ph.D., director of the OHSU Center for Spatial Systems Biomedicine (OCSSB) and the OHSU Knight Cancer Institute associate director for biophysical oncology will lead the investigative team as a principal investigator.

“Triple negative breast cancer is a particularly difficult form of the disease to treat,” said Gray. “Our goals in the CSBC Research Center are to identify the mechanisms by which these cancers evolve and adapt to become resistant to treatment, and to develop new strategies to counter these mechanisms. Our multidisciplinary approach treats these cancers as adaptive systems that can be controlled using multiple drug combinations.”

Co-principal investigators on the project include: Rosalie Sears, Ph.D., professor of molecular and medical genetics in the OHSU School of Medicine and a senior member of the Knight Cancer Institute; Claire Tomlin, Ph.D., the Charles A. Desoer Professor of Engineering in the Department of Electrical Engineering and Computer Sciences at the University of California, Berkeley; Adam Margolin, Ph.D., associate professor of biomedical engineering and director of computational biology in the OHSU School of Medicine and the Knight Cancer Institute.

Overall research themes of the consortium’s Research Centers address important questions in basic cancer research, including the emergence of drug resistance, the mechanisms underlying cancer metastasis, and the role of the immune system in cancer progression and treatment. The interdisciplinary investigators of the CSBC will integrate experimental biology with mathematical and computational modeling to gain insight into processes relevant to cancer initiation, progression and treatment options.

The consortium brings together clinical and basic science cancer researchers with physician-scientists, engineers, mathematicians and computer scientists to tackle key questions in cancer biology from a novel point of view.

“Cancer is a complex disease and it challenges our traditional approaches, making it hard to predict tumor growth and drug response,” said Daniel Gallahan, Ph.D., deputy director of NCI’s Division of Cancer Biology. “Cancer systems biologists embrace that complexity and use many different types of data to build mathematical models that allow us to make predictions about whether a tumor will metastasize or what drug combinations will be effective.”

In addition to applying systems biology approaches to gain important insight into cancer, each consortium Research Center supports an outreach program to promote training in interdisciplinary science, disseminate important research findings to the community, and to engage the public in cancer systems biology research. Sage Bionetworks in Seattle serves as the consortium’s Coordinating Center, facilitating data and resource sharing and collaborative scientific activities across the nine Research Centers as well as two new Research Projects.

More information can be found on the Cancer Systems Biology Consortium.

 

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