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Wilmot Cancer Institute Scientists Receive $2M Award from NCI

Wednesday, June 25, 2014

The National Cancer Institute awarded more than $2 million to a team at the Wilmot Cancer Institute to continue their study of a gene network that controls cancer progression, with a focus on pancreatic cancer.

The five-year grant will fund a series of new scientific experiments involving a gene known as Plac8. In earlier work, Wilmot investigators showed that by inactivating Plac8 they could stop or slow pancreatic tumor growth in mice and significantly extend survival -- making Plac8 an attractive target for drug development.

Principle investigator Hartmut Hucky Land, Ph.D., and co-investigator Aram Hezel, M.D., had been studying a wider system of genes and cellular events involved in cancer, when they discovered that Plac8 is a key driver in malignancies but is not essential to the function of normal tissue.

Read More: Wilmot Cancer Institute Scientists Receive $2M Award from NCI

Gene Discovery Links Cancer Cell ‘Recycling’ System to Potential New Therapy

Thursday, May 1, 2014

University of Rochester scientists have discovered a gene with a critical link to pancreatic cancer, and further investigation in mice shows that by blocking the gene’s most important function, researchers can slow the disease and extend survival.

Published online by Cell Reports, the finding offers a potential new route to intrude on a cancer that usually strikes quickly, has been stubbornly resistant to targeted therapies, and has a low survival rate. Most recent improvements in the treatment of pancreatic cancer, in fact, are the result of using different combinations of older chemotherapy drugs.

The research led by Hartmut Hucky Land, Ph.D., and Aram F. Hezel, M.D., of UR Medicine's James P. Wilmot Cancer Center, identifies a new target in the process of garbage recycling that occurs within the cancer cell called autophagy, which is critical to pancreatic cancer progression and growth.

Read More: Gene Discovery Links Cancer Cell ‘Recycling’ System to Potential New Therapy