Massachusetts General Hospital Boston, Massachusetts
Director, Massachusetts General Hospital Cancer Center Kurt J. Isselbacher Professor of Oncology, Harvard Medical School Investigator, Howard Hughes Medical Institute
Exploiting weaknesses in tumor cells to design cutting-edge treatments for advanced breast cancer.
The most common type of breast cancer, hormone receptor (HR)-positive breast cancer, is initially highly responsive to treatment. However, tumor cells can eventually become resistant to multiple courses of hormone therapy, and all too often, the cancer spreads and becomes unresponsive to all therapeutic options. To study advanced, drug-resistant HR-positive breast cancer, Dr. Haber and his team use circulating tumor cells (CTCs), which are cancer cells caught in the bloodstream. These cells are very rare relative to blood cells, but the team has engineered highly sophisticated microfluidic devices that successfully capture CTCs. The tumor cells captured using this technology remain viable, and the team has been able to grow them in the laboratory and interrogate them at different stages of patient treatment. These CTC cultures provide the unique ability to better understand how breast cancer becomes resistant to therapy and identify druggable vulnerabilities, with the goal of suppressing breast cancer metastasis.
The team is focused on two complementary strategies to address and combat these resistant cells. First, they are developing a new test to predict the likelihood of response to novel antibody-drug conjugates (ADCs), which represent one of the most promising developments in targeted treatment for drug-resistant cancer cells. Dr. Haber and his team are using cultured CTCs to assess whether cancer cells contain the antibody target before and during treatment with a corresponding ADC. These studies have the potential to non-invasively guide and monitor effective cancer treatments in patients with metastatic breast cancer.
Secondly, the team is employing state-of-the-art genome editing technology and genetic screens in cultures of CTCs to identify novel vulnerabilities and exploit them with established potent chemotherapy drugs. Recently, they have discovered that advanced breast cancer cells can change their biological features much more rapidly than early-stage cancer cells, partly explaining how fast they can develop drug resistance.
The team anticipates that the results derived from this research will provide a new strategy for selecting and monitoring treatments for patients with metastatic breast cancer undergoing ADC therapy. The team plans to follow up these results by extending diagnostic studies to larger groups of patients receiving different ADCs. Additionally, the research will provide insights into novel drug targets in advanced breast cancer. Success in either of these areas could significantly impact treatment strategies for patients with advanced breast cancer.
Daniel A. Haber, MD, PhD is Director of the Massachusetts General Hospital (MGH) Cancer Center and the Kurt J. Isselbacher Professor of Oncology at Harvard Medical School. His research interests have focused on applying cancer genetics toward clinically relevant challenges. Dr. Haber received his PhD and MD degrees at Stanford in 1981 and 1983, respectively. He completed an internal medicine residency at MGH, clinical oncology training at the Dana-Farber Cancer Institute, and postdoctoral research at MIT. He joined the faculty of Harvard Medical School and MGH Cancer Center in 1991. Dr. Haber’s numerous awards include a MERIT Award from the National Cancer Institute, the Doris Duke Distinguished Clinical Scientist Award, and a Dream Team Award from Stand Up To Cancer. He was appointed to the Howard Hughes Medical Institute in 2008 and elected to the Institute of Medicine/National Academy of Medicine in 2009, the American Academy of Arts and Sciences in 2011, the National Academy of Sciences in 2018, and as a Fellow of the American Association of Cancer Research in 2019.
2011
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