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Rare eye disease that struck Oliver Sacks gives rise to new cancer treatment strategy

Date:
June 2, 2016
Source:
University of Utah Health Sciences
Summary:
Eye cancer took the life of author and neurologist Oliver Sacks last year, bringing attention to the rare, hard-to-treat disease. Now, a team led by scientists report that a mutation that causes the cancer relies on a protein, ARF6, to distribute cancer-promoting signals. Further, treatment with a drug made against the protein inhibits eye tumors formation.
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FULL STORY

Eye cancer took the life of author and neurologist Oliver Sacks last year, bringing attention to the rare and deadly disease. Scientists have tried to develop precision treatments against cancers like this one, but the mutations that cause them have proven difficult to block with drugs.

Now, a team led by scientists at Huntsman Cancer Institute at the University of Utah, University of Utah School of Medicine, and Navigen, Inc., report a new treatment that shows promise against the hard-to-treat cancer. They found that the mutation relies on a protein, ARF6, to distribute cancer-promoting signals. Further, a drug that blocks ARF6 inhibits eye tumors in mice. The research appears in Cancer Cell online on June 2.

"We completely bypass the mutations in Gαq oncogenes that have been so hard to target, and have found a different strategy for slowing the disease," says Dean Li, M.D., Ph.D., Huntsman Cancer Institute investigator and H.A. and Edna Benning Endowed Professor of Internal Medicine at the Eccles Institute of Human Genetics. He and Kirill Ostanin, Ph.D., senior director at Navigen, Inc., were senior authors on the study.

A new understanding of how eye cancer works led to the unexpected finding. Ordinarily ARF6 works to relay molecular signals within healthy cells. Here, the scientists report that a mutation that causes eye cancer hijacks ARF6, redirecting it to relay signals to cancer promoting pathways. Blocking ARF6 with the drug inhibits dissemination of the cancer message.

"In eye cancer, ARF6 is like a traffic cop at a major intersection that directs the traffic of cancer signals down a number of paths. The drug forces ARF6 to hold back traffic," says Li. "We think this same treatment strategy could also work against other cancers." These include skin, breast, brain, renal and additional cancers in which ARF6 is known to play a role in the disease. Li and Ostanin are now leading studies to further optimize and test the drug. Further, Li is investigating whether the general strategy, inhibiting proteins that distribute cancer signals, could be applied to more broadly.

The findings bring new insights to treating eye cancer, a disease that has largely flown under the radar because it is so rare, with fewer than 3,000 cases diagnosed in the U.S. each year. Sacks was struck by the most common type of eye cancer, uveal melanoma, which is related to the skin cancer, cutaneous melanoma. Three years ago, Li's team found that ARF6 regulated late stages of skin cancer progression leading them to test whether it does the same in eye cancer.

The new study reveals that ARF6 does much more, acting a lot like the causative mutation that sets eye cancer into motion. For instance, addition of either the mutated cancer-causing protein, or of a version of ARF6 that is always turned on, triggers molecular pathways known to drive cancer (Rho/Rac, PLC/PKC, YAP pathways, and beta-catenin pathway, newly identified in this study).

"A lot of work has focused on trying to develop drugs that target the oncogene," says Jae Hyuk Yoo, Ph.D., a postdoctoral fellow in internal medicine. Yoo co-led the study with colleagues Dallas Shi, Ph.D., and Allie Grossman M.D, Ph.D., assistant professor of pathology. "By changing our thinking a little bit, we realized that we might be able to accomplish the same goal by targeting ARF6 instead."

Though the idea sounded like a good one, the scientists didn't know whether ARF6 would be as hard to "drug" as the mutated protein. In collaboration with Navigen, Inc., they developed a compound that not only inhibited ARF6 activity in cells, but also blocked eye tumors in mice. Mouse models for eye cancer ordinarily develop large tumors in the eye. The drug prevented tumors from forming in six of the eleven animals that were treated. Tumors that did arise were on average significantly smaller than those in untreated mice.

"This study is a milestone in uncovering the fundamental roles of ARF6 GTPase in oncogenesis, and establishing a new drug discovery avenue in the cancer field," says Ostanin.

As Ostanin's and LI's teams were collecting their final results, Sacks passed away. Just a few months prior, he wrote in The New York Times that he was handing life's baton, with all of its troubles and tribulations, to the next generation. "I feel the future is in good hands," he said.


Story Source:

Materials provided by University of Utah Health Sciences. Note: Content may be edited for style and length.


Journal Reference:

  1. Jae Hyuk Yoo, Dallas S. Shi, Allie H. Grossmann, Lise K. Sorensen, ZongZhong Tong, Tara M. Mleynek, Aaron Rogers, Weiquan Zhu, Jackson R. Richards, Jacob M. Winter, Jie Zhu, Christine Dunn, Ashok Bajji, Mark Shenderovich, Alan L. Mueller, Scott E. Woodman, J. William Harbour, Kirk R. Thomas, Shannon J. Odelberg, Kirill Ostanin, Dean Y. Li. ARF6 Is an Actionable Node that Orchestrates Oncogenic GNAQ Signaling in Uveal Melanoma. Cancer Cell, 2016; DOI: 10.1016/j.ccell.2016.04.015

Cite This Page:

University of Utah Health Sciences. "Rare eye disease that struck Oliver Sacks gives rise to new cancer treatment strategy." ScienceDaily. ScienceDaily, 2 June 2016. <www.sciencedaily.com/releases/2016/06/160602132404.htm>.
University of Utah Health Sciences. (2016, June 2). Rare eye disease that struck Oliver Sacks gives rise to new cancer treatment strategy. ScienceDaily. Retrieved March 27, 2024 from www.sciencedaily.com/releases/2016/06/160602132404.htm
University of Utah Health Sciences. "Rare eye disease that struck Oliver Sacks gives rise to new cancer treatment strategy." ScienceDaily. www.sciencedaily.com/releases/2016/06/160602132404.htm (accessed March 27, 2024).

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