Possible New Target for Future Brain Cancer Drugs
Feb 27, 2014 - 6:29:52 PM
The findings, published in the journal Cancer Research, show that high levels of the enzyme PRMT5 are associated with aggressive growth of the brain cancer glioblastoma multiforme (GBM). The malignancy strikes nearly 14,000 Americans annually. It is a highly invasive form of cancer that is difficult to remove entirely by surgery. Following surgery, chemotherapy and radiation, average survival is still only 15 months, pointing to a critical need for new treatments.
This study shows that inhibiting PRMT5 can significantly improve survival in an animal model of GBM. Blocking the enzyme inhibited the growth, proliferation and migration of GBM cells in laboratory studies, and it increased the number of GBM cells that died by apoptosis.
"Our findings suggest that PRMT5 is a possible prognostic factor and therapeutic target for glioblastoma, and they provide a rationale for developing agents that target PRMT5 in this deadly disease," says co-corresponding author Robert A. Baiocchi, MD, PhD, associate professor of medicine and a hematologist at the OSUCCC - James who is also collaborating on an Ohio State effort to develop a PMRT5 inhibitor.
"Our analyses also helped us identify PRMT5 as a master transcriptional repressor (gene silencer) in this disease, says co-corresponding author Balveen Kaur, PhD, professor of Neurological Surgery at the OSUCCC - James.
"We also learned that PRMT5 inhibition induced the death of glioblastoma cells whether the P53 gene was mutated or not. This has important treatment implications because loss of P53 is associated with a poor prognosis in these patients, so a PRMT5 inhibitor might be particularly important for these patients," says Kaur, who is specializes in glioblastoma research and is chief of Ohio State's Dardinger Laboratory of Neurosciences.
PRMT5 (protein arginine methyltransferase 5) is an enzyme that alters the structure of chromatin to suppress the transcription of genes and the production of proteins. To conduct their study, Kaur, Baiocchi and their colleagues used tumor tissue from patients, cell lines and an animal model. Key findings included:
This work was supported by grants from NIH/National Institute of Neurological Disorders and Stroke (1R21NS071346-01), The Ohio Cancer Research Associates, V Foundation, 2009 AACR-National Brain Tumor Society Fellowship, in Memory of Bonnie Brooks, and the European Society of Hematology/American Society of Hematology.
Other researchers involved in this study were Fengting Yan, Lapo Alinari, Mark E. Lustberg, Ludmila Katherine Martin, Hector M. Cordero-Nieves, Yeshavanth Banasavadi-Siddegowda, Erica Hlavin Bell, Jeffrey Wojton, Naduparambil K. Jacob, Arnab Chakravarti, Michal O. Nowicki, Xin Wu, Rosa Lapalombella, Jharna Datta, Bo Yu, Kate Gordon, Amy Haseley, John T. Patton, Porsha L. Smith, John Ryu, Xiaoli Zhang, Xiaokui Mo, Guido Marcucci, Gerard Nuovo, Chang-Hyuk Kwon, John C. Byrd, , Chenglong Li, Said Sif and Samson Jacob of Ohio State; E. Antonio Chiocca and Sean Lawler, Harvard University; and Jill Barnholtz-Sloan and Selene Virk of Case Western Reserve University.
The Ohio State University Comprehensive Cancer Center - Arthur G. James Cancer Hospital and Richard J. Solove Research Institute strives to create a cancer-free world by integrating scientific research with excellence in education and patient-centered care, a strategy that leads to better methods of prevention, detection and treatment. Ohio State is one of only 41 National Cancer Institute (NCI)-designated Comprehensive Cancer Centers and one of only four centers funded by the NCI to conduct both phase I and phase II clinical trials. The NCI recently rated Ohio State's cancer program as "exceptional," the highest rating given by NCI survey teams. As the cancer program's 228-bed adult patient-care component, The James is a "Top Hospital" as named by the Leapfrog Group and one of the top cancer hospitals in the nation as ranked by U.S.News & World Report.
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