David Cheresh, Ph.D., Razelle Kurzrock, M.D., Karen Messer, Ph.D., Hatim Husain, M.D.

We have recently discovered that tumors cells with integrin αvβ3 on their surface are particularly difficult to treat because αvβ3 triggers reprogramming events that make tumors immune to certain anti-cancer therapies. Because we identified the pathways by which integrin αvβ3 drives these changes, we were able to reverse this behavior in preclinical research models by re-purposing FDA-approved drugs developed for other indications. Now, funding from the V Foundation will allow us to test whether this strategy can be translated to improve the response to therapy for patients with non-small cell lung cancer.

To do this, we will first look for the presence of integrin αvβ3 on circulating tumors cells that may be present in blood samples from patients who have become resistant to a targeted form of cancer therapy called Erlotinib. Once optimized, this assay could be used as a non-invasive blood test to identify the earliest emergence of drug resistance in lung cancer patients.  Next, we will conduct a Phase II clinical trial to test if patients who have developed resistance to Erlotinib can be “re-sensitized” to the drug by adding a second drug, an inhibitor of the NFκB pathway known as VELCADE. According to our preclinical animal studies, we expect the addition of this FDA-approved drug will allow patients to respond to Erlotinib therapy for a much longer time.

Since there is no clearly defined standard of care therapy for Erlotinib-resistant lung cancer, our project will address this unmet need and, if successful, would change the way lung cancer patients are diagnosed and treated.

Location: University of California, San Diego, Moores Cancer Center - California
Proposal: Integrin avB3 as a CTC Biomarker and Therapeutic Target for Erlotinib-Resistant Lung Cancer
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