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Blocking cholesterol storage could stop growth of pancreatic tumors

image of pancreatic tumor organoids in mouse
Organoids of mouse pancreatic tumor cells grown 鈥渆x vivo,鈥 outside the body. Organoids are used as a model system to study tumor biology and treatments. Credit: Tobiloba Oni, Tuveson lab/麻豆传媒社区

Scientists at Laboratory(麻豆传媒社区) have found that they can stop the growth of pancreatic cancer cells by interfering with the way the cells store cholesterol. Their findings in mice and lab-grown pancreas models point toward a new strategy for treating the deadly disease.

The study, reported in the Journal of Experimental Medicine, was led by LaboratoryProfessor David Tuveson. Tuveson鈥檚 team wanted to know why pancreatic cancer cells, like many cancer cells, manufacture abundant amounts of cholesterol. Cholesterol is an essential component of cell membranes, but the research team determined that pancreatic cancer cells make far more of it than they need to support their own growth. 鈥淭his is unusual, because the cholesterol pathway is one of the most regulated pathways in metabolism,鈥 says Tobiloba Oni, a graduate student in Tuveson鈥檚 lab.

Most cells make only as much cholesterol as they need, quickly shutting down the synthesis pathway once they have enough, Oni explains. But he and his colleagues, including Giulia Biffi, a former postdoctoral fellow in Tuveson鈥檚 lab, found that cancer cells convert most of the cholesterol they make into a form that can be stored within the cell. Free cholesterol never accumulates, and the synthesis pathway keeps churning out more.

image of SOAT1 pancreatic tumor in mouse
Mouse pancreatic tumor expresses SOAT1. SOAT1 RNA is stained in red. Tumor cell nucleii are stained in blue. Credit: Tobiloba Oni.

Cancer cells in the pancreas seem to thrive off this hyperactive cholesterol synthesis. The team thinks this is probably because they are taking advantage of other molecules generated by the same pathway. They鈥檙e able to keep the pathway running and maintain their supply thanks to an enzyme called sterol O-acyltransferase 1 (SOAT1), which converts free cholesterol to its stored form and which pancreatic cancer cells have in abundance.

When the researchers eliminated the SOAT1 enzyme through genetic manipulation, preventing cells from converting and storing their cholesterol, cancer cells stopped proliferating. In animal experiments, eliminating the enzyme stalled tumor growth.

Importantly, the team found that eliminating SOAT1 only impacted cells that harbored mutations in both copies of a tumor suppressor gene known as p53. This genetic alteration promotes cancer growth and is exceedingly common in patient tumors. Normal pancreas cells functioned just fine without the enzyme in the team鈥檚 experiments, and that makes SOAT1 a promising therapeutic target, Oni says. The hope, he says, is that researchers will be able to develop a drug that selectively blocks the enzyme, impairing cancer cells but leaving normal cells healthy.

Written by: Jennifer Michalowski, Science Writer | publicaffairs@cshl.edu | 516-367-8455


Funding

National Institutes of Health, the Lustgarten Foundation, the Thompson Foundation, the Laboratoryand Northwell Health Affiliation, the Northwell Health Tissue Donation Program, the LaboratoryAssociation, the Simons Foundation, the Howard Hughes Medical Institute, the Pershing Square Sohn Cancer Research Alliance, the Thompson Family Foundation, the Pancreatic Cancer Action Network-American Association for Cancer Research, the Simons Center for Quantitative Biology at 麻豆传媒社区, the Human Frontiers Science Program, the State of New York, the American Italian Cancer Foundation, Memorial Sloan Kettering Cancer Center, and the National Cancer Institute.

Citation

Oni, T.E. et. al., “SOAT1 promotes mevalonate pathway dependency in pancreatic cancer,” Journal of Experimental Medicine, July 7, 2020. DOI:

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Principal Investigator

David Tuveson

David Tuveson

Professor
Roy J. Zuckerberg Professor of Cancer Research
Cancer Center Director
M.D., Ph.D., Johns Hopkins University, 1994

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