Wednesday, December 13, 2017 4:30:04 PM
“In this study we demonstrate that chemotherapy-generated debris from dead and dying tumor cells can stimulate tumor growth, which has pivotal implications for the treatment of cancer patients,” said senior author Dipak Panigrahy, MD, assistant professor of pathology in the Department of Pathology. “Conventional cancer therapy designed to kill tumor cells is inherently a double-edged sword.”
The findings are consistent with clinical observations on radiation-generated debris dating back to the 1950s, but until now, few studies investigated the molecular mechanisms underlying the phenomenon. In these studies, Panigrahy, a scientist at the Cancer Center at BIDMC, and colleagues – including lead author Megan Sulciner of BIDMC, Charles N. Serhan, Ph.D., of Brigham and Women’s Hospital (BWH), Mark W. Kieran, MD, PhD of Dana-Farber Cancer Institute, and Sui Huang, MD, PhD, of Institute of Systems Biology – injected debris from tumor cells killed by chemotherapy into animal models. Thirteen months later, the tumor cell debris alone had produced no visible tumors. However, when the researchers co-injected tumor cell debris together with as few as 100 living cancer cells that would not have resulted in cancer by themselves, the combination promoted rapid tumor growth.
The researchers’ further analysis revealed that chemotherapy-killed cancer cells promote growth when a lipid molecule exposed on the surface of dead and dying cells triggers the release of cytokines – proteins that regulate the body’s immune and inflammatory response. The resulting “cytokine storm” in the tumor’s microenvironment in turn sets the stage to promote new tumor growth.
“This pro-tumor activity could fuel a positive feedback loop that is difficult to overcome with more aggressive cytotoxic therapy like chemotherapy and radiation,” said Panigrahy. “This may explain the inherent therapeutic limit to cancer treatments available today.”
In another set of experiments, Panigrahy and colleagues attempted to block debris-stimulated tumor growth by introducing a class of anti-inflammatories produced by the human body called resolvins. Discovered by Serhan and colleagues at BWH in 2002, resolvins actively turn off inflammation and stimulate a class of immune cells to digest the tumor debris left in the wake of the cytokine storm. In this study, resolvins suppressed lung and melanoma metastasis in mouse models, the scientists found, and blocked cancer growth in various tumor models including lung, pancreatic, lymphoma, breast, prostate, and melanoma. When the researchers administered chemotherapy and resolvins to a debris-stimulated pancreatic cancer model in mice, the combination resulted in tumor regression.
The findings open the door to a new approach to prevent cancer recurrence as well as treatment by adding resolvins to existing chemotherapy of targeted therapy regimens. Already in clinical development as a potential treatment for other inflammatory disease including eczema, periodontal disease and various neurodegenerative disease, resolvins have proven to be non-toxic and come with minimal side-effects.
In addition to Panigrahy, study authors include co-first authors Megan L. Sulciner and Molly M. Gilligan, both of BIDMC, and co-corresponding author Charles N. Serhan of Brigham and Women’s Hospital; Dayna K. Mudge, Jaimie Chang, Allison Gartung, Kristen A. Lehner, Emily R. Greene, Yael Gus-Brautbar, Julia Piwowarski and Vikas Sukhatme of BIDMC; Diane R. Bielenberg, Birgitta Schmidt, Tadanori Mammoto and David Zurakowski of Boston Children’s Hospital; Mauro Perretti of the William Harvey Research Institute and the London School of Medicine, Queen Mary University of London; Arja Kaipainen of the Fred Hutchinson Cancer Research Institute; co-corresponding Mark W. Kieran of Dana-Farber Institute; and co-corresponding author Sui Huang of the Institute of Systems Biology.
This work was supported by grants from the National Cancer Institute (RO1 01CA170549-02, ROCA148633-01A4, GM095467); Stop and Shop Pediatric Brain Tumor Fund; CJ Buckley Pediatric Brain Tumor Fund; Alex Lemonade Stand; Molly’s Magic Wand for Pediatric Brain Tumors; Markoff Foundation Art-In-Giving Foundation; Kamen Foundation; Jared Branfman Sunflowers for Life; The Wellcome Trust (program 086867/Z/08). The resolvin E1 receptor (ChemR23) KO mice were kindly provided by Dr. Brian Zabel (supported by NIH R01AI079320) and Prof. Eugene Butcher (supported by CA169354).
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