Research Papers:
Riluzole exerts distinct antitumor effects from a metabotropic glutamate receptor 1-specific inhibitor on breast cancer cells
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Abstract
Sonia C. Dolfi1, Daniel J. Medina1, Aparna Kareddula1, Bhavna Paratala1, Ashley Rose1, Jatinder Dhami1, Suzie Chen2, Shridar Ganesan1, Gillian Mackay3, Alexei Vazquez3 and Kim M. Hirshfield1
1Department of Medicine, Rutgers Cancer Institute of New Jersey, Rutgers Robert Wood Johnson Medical School, New Brunswick, New Jersey 08901, USA
2Susan Lehman Cullman Laboratory for Cancer Research, Department of Chemical Biology, Ernest Mario School of Pharmacy, Rutgers, The State University of New Jersey, Piscataway, New Jersey 08854, USA
3CRUK Beatson Institute, Garscube Estate, Bearsden, Glasgow G61 1BD, UK
Correspondence to:
Kim M. Hirshfield, email: [email protected]
Keywords: riluzole, breast cancer, glutamate signaling, cell cycle, BAY 36-7620
Received: September 09, 2016 Accepted: April 20, 2017 Published: May 18, 2017
ABSTRACT
Recent evidence suggests that glutamate signaling plays an important role in cancer. Riluzole is a glutamate release inhibitor and FDA-approved drug for the treatment of amyotrophic lateral sclerosis. It has been investigated as an inhibitor of cancer cell growth and tumorigenesis with the intention of repurposing it for the treatment of cancer. Riluzole is thought to act by indirectly inhibiting glutamate signaling. However, the specific effects of riluzole in breast cancer cells are not well understood. In this study, the anti-cancer effects of riluzole were explored in a panel of breast cancer cell lines in comparison to the metabotropic glutamate receptor 1-specific inhibitor BAY 36-7620. While both drugs inhibited breast cancer cell proliferation, there were distinct functional effects suggesting that riluzole action may be metabotropic glutamate receptor 1-independent. Riluzole induced mitotic arrest independent of oxidative stress while BAY 36-7620 had no measurable effect on mitosis. BAY 36-7620 had a more pronounced and significant effect on DNA damage than riluzole. Riluzole altered cellular metabolism as demonstrated by changes in oxidative phosphorylation and cellular metabolite levels. These results provide a better understanding of the functional action of riluzole in the treatment of breast cancer.
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