Speeding Drug Development for Rare Cancers Including Ependymoma
Synopsis: New approach to drug development identified dozens of potential new treatments of ependymoma a rare tumor of the brain and spinal cord. New strategy likely to speed drug development for rare cancers - Research led by St. Jude Children's Research Hospital investigators used a pioneering approach to drug development and identified dozens of potential new treatments of ependymoma, a rare tumor of the brain and spinal cord.
Main DigestNew strategy likely to speed drug development for rare cancers - Research led by St. Jude Children's Research Hospital investigators used a pioneering approach to drug development and identified dozens of potential new treatments of ependymoma, a rare tumor of the brain and spinal cord.
Researchers have identified promising new therapies for ependymoma, a rare tumor with few treatment options. St. Jude Children's Research Hospital investigators led the effort, which used a new, faster drug development system that combines the latest drug screening technology with the first accurate animal model of the tumor.
Investigators identified several dozen new and existing drugs as possible ependymoma treatment candidates. The drugs were found by screening 5,303 existing medicines, natural products and other compounds for activity against the tumor, which develops in the brain and spine of children and adults. The work is published in the current edition of the scientific journal Cancer Cell.
The list of candidate drugs included 5-fluorouracil (5-FU). 5-FU has been widely used to treat a variety of adult cancers but has not been formally tested against ependymoma. Based on study results, St. Jude is planning a clinical trial of 5-FU in young ependymoma patients, said senior author Richard Gilbertson, M.D., Ph.D., director of the St. Jude Comprehensive Cancer Center. Gilbertson credited the method used in this study with highlighting 5-FU's potential.
Researchers hope to use the same system to expand chemotherapy options for patients with other cancers. "This approach should significantly advance the efficiency and speed with which we discover and develop new treatments for rare cancers and cancer subtypes," the investigators noted. Jennifer Atkinson, Ph.D., a former St. Jude postdoctoral fellow, is the first author. R. Kiplin Guy, Ph.D., chair of the St. Jude Department of Chemical Biology and Therapeutics, and Gilbertson are corresponding authors.
Rather than waiting years for clinical trial results, this system promises to take just months to provide key information about a drug's effectiveness and optimal administration, Gilbertson said.
The results are good news for patients with ependymoma and other cancers where treatment options are limited and the outlook remains bleak. While overall childhood cancer survival rates are now almost 80 percent, ependymoma remains incurable in up to 40 percent of patients. The tumor is found in 150 to 200 U.S. children annually, making it the third most common pediatric brain tumor. Treatment has changed little in the past 40 years and is limited to surgery and radiation.
Along with identifying and prioritizing drug development candidates against ependymoma, the research provided insight into the tumor's biology. The screening identified several messenger proteins, known as kinases, as possible new regulators of the tumor cell proliferation that makes cancer deadly. The abnormal tumor kinase activity occurred in certain pathways in tumor cells, including the insulin-signaling pathway and the centrosome cycle.
This study builds on earlier research led by Gilbertson that showed ependymoma includes nine different tumor subtypes. Each begins when particular mutations occur in stem cells from different regions of the brain or spine. Stem cells are the specialized cells that can divide and take on more specific functions.
For this project, investigators focused on a subtype D ependymoma. In earlier research, Gilbertson and his colleagues showed that extra copies of the EPHB2 gene caused this tumor subtype. The investigators used this information to develop an accurate model of subtype D ependymomas in mice. The mouse model includes the same mutation in the same neural stem cell responsible for the human disease and was crucial for speeding drug development.
Researchers used an automated system to check 5,303 existing drugs, natural products and other compounds for activity against four different types of mouse brain cells, including normal neural stem cells, subtype D ependymoma tumor cells and cells from a different brain tumor.
Of the 634 compounds that showed activity against subtype D ependymoma cells, four demonstrated a two-fold greater ability to block the growth of the tumor cells, but not normal cells. The drugs included 5-FU and two closely related compounds. The fourth was beta-escin, which belongs to a family of drugs that are generating interest as potential chemotherapy agents.
5-FU also proved more effective than four other chemotherapy drugs in slowing tumor growth and extending the lives of mice with subtype D ependymoma. 5-FU also appeared less toxic to normal mouse brain cells than another drug, bortezomib, included in the study. The findings provided preliminary evidence that the screening system might provide an early indication of drug toxicity. The information could help guide treatment and prioritize drugs for development, researchers said.
The screening also highlighted a possible role for kinase inhibitors. Those are drugs that block activity of proteins that help drive cell division and sustain tumors. More than 18 inhibitors are in clinical trials that target the kinases this study tied to proliferation of both normal and ependymoma tumor cells.
The study's other authors are Anang Shelat, Tanya Kranenburg, Nidal Boulos, Karen Wright, Helen Poppleton, Kumarasamypet Mohankumar, Timothy Phoenix, Paul Gibson, Liqin Zhu, Yiai Tong, Chris Eden, David Ellison, Amar Gajjar and Clinton Stewart, all of St. Jude; Angel Montero Carcaboso, Alexander Arnold, Robert Johnson Clementine Feau, all formerly of St. Jude; and Waldemar Priebe, Dimpy Koul and W.K. Alfred Yung, of University of Texas MD Anderson Cancer Center.
The study was funded in part by the National Institutes of Health, the Collaborative Ependymoma Research Network and ALSAC.
St. Jude Children's Research Hospital -St. Jude Children's Research Hospital is internationally recognized for its pioneering research and treatment of children with cancer and other life-threatening diseases. The hospital's research has helped push overall survival rates for childhood cancer from less than 20 percent when the institution opened to almost 80 percent today. It is the first and only National Cancer Institute-designated Comprehensive Cancer Center devoted solely to children, and no family ever pays St. Jude for care. For more information, visit www.stjude.org
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Cite This Page (APA): St. Jude Children's Research Hospital. (2011, September 15). Speeding Drug Development for Rare Cancers Including Ependymoma. Disabled World. Retrieved September 27, 2023 from www.disabled-world.com/health/cancer/treatment/ependymoma.php
Disabled World is an independent disability community founded in 2004 to provide disability news and information to people with disabilities, seniors, their family and/or carers. See our homepage for informative reviews, exclusive stories and how-tos. You can connect with us on social media such as X.com and our Facebook page.
Disabled World provides general information only. The materials presented are never meant to substitute for qualified professional medical care, nor should they be construed as such. Funding is derived from advertisements or referral programs. Any 3rd party offering or advertising does not constitute an endorsement.