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A protein called PCSK9 determines how pancreatic cancer cells metastasize to different parts of the body.
Scientists at UC San Francisco have discovered how pancreatic cancer cells thrive in the lungs or liver, environments that are as distinct to cells as the ocean and desert are to animals. The spread of cancer cells to organs like these often produces the very first symptoms of pancreatic cancer. But by that time, the pancreatic cancer has spread out of control.
The findings, published May 21 in Nature, create new opportunities to treat pancreatic cancer, which is notoriously resistant to many therapies. The study was funded in part by the National Institutes of Health (NIH), the National Science Foundation (NSF), and the American Association for Cancer Research.
In the study, researchers wanted to know what allowed cells to survive in one place instead of the other. To do this, they analyzed data from MetMap, a project at the Broad Institute, an independent research organization, to find pancreatic cancer cell lines that had a tendency to colonize either the lung or the liver. Then, they looked for genomic differences that could reveal why, or even how, these cells preferred one organ over the other.
Their analysis turned up a protein called PCSK9 that controls how cells obtain cholesterol. When PCSK9 levels are low, pancreatic cancer cells consume nearby cholesterol, which is abundant in the liver. When PCSK9 levels are high, the cancer cells produce their own cholesterol. They also make molecules that protect them from damage by oxygen, a perfect adaptation to survival in the lungs.
When the team forced pancreatic cancer cells that were destined for the liver to express PCSK9, the cells made a detour to the lungs.
“Cancers persist by adapting to live in new tissues and organs, and we found that pancreatic tumors use PCSK9 to adapt as they spread,” said Rushika Perera, PhD, the Deborah Cowan Endowed Associate Professor of Anatomy at UCSF and senior author of the paper. “It opens the door to fighting metastatic cancer growth by manipulating how cells acquire their cholesterol.
Authors: Other UCSF authors are Gilles Rademaker, PhD, Grace A. Hernandez, Yurim Seo, Sumena Dahal, Lisa Miller-Phillips, MD, Alexander L. Li, Longhui Qiu, Maude A. Liegeois, PhD, Bruce Wang, MD, Kwun W. Wen, MD, PhD, Grace E. Kim, MD, and Mark R. Looney, MD. For all authors see the paper.
Funding: This work was supported by the National Science Foundation (NSF2034836), the National Institutes of Health (R35 HL161241, R01CA260205, R01CA240603, R01CA260249), a B.A.E.F. (Belgian American Education Foundation) fellowship, Fonds Léon Fredericq, Rotary and Wallonie Bruxelles International grants, the Ed Marra Passion to Win Fund, the Weston Havens Fund, and the AACR-MPM Transformative Cancer Research Award.
About UCSF: The University of California, San Francisco (UCSF) is exclusively focused on the health sciences and is dedicated to promoting health worldwide through advanced biomedical research, graduate-level education in the life sciences and health professions, and excellence in patient care. UCSF Health, which serves as UCSF's primary academic medical center, includes top-ranked specialty hospitals and other clinical programs, and has affiliations throughout the Bay Area. UCSF School of Medicine also has a regional campus in Fresno. Learn more at ucsf.edu, or see our Fact Sheet.
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Pancreatic cancer spreads to liver or lung thanks to this protein
2025-06-03
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