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Principal Investigator: Yaffe, Michael B
Institute Receiving Award Massachusetts Institute Of Technology
Location Cambridge, MA
Grant Number R35ES028374
Funding Organization National Institute of Environmental Health Sciences
Award Funding Period 01 Sep 2017 to 31 Jul 2025
DESCRIPTION (provided by applicant): Project Summary: The long-term goal of our laboratory is to understand how specific protein kinase signaling pathways function together with phosphoserine/threonine-binding domains and RNA binding proteins (RNA- BPs) to regulate tumor development after exposure to inflammation and genotoxic stress. We are particularly interested in understanding how these pathways can be manipulated to enhance cancer prevention, as well as to improve the response of any tumors that do form to conventional anti-cancer agents. In addition to the two canonical DNA damage response pathways that cells use to respond to DNA damage, the ATR-Chk1 pathway, and the ATM-Chk2 pathway, we recently identified a third DNA damage response pathway mediated by p38MAPK and MAPKAP Kinase-2 (MK2) that is absolutely essential for p53-defective tumor cells to survive after genotoxic stress. Importantly, the MK2 pathway is dispensable in cells with intact p53 function, making it an ideal target for specifically impairing the ability of cells undergoing cancer transformation to survive additional DNA damage. Unlike the ATR-Chk1 and ATM-Chk2 pathways that are dedicated to responding solely to signals from DNA damage, the p38 MAPK-MK2 pathway is a global stress-response pathway activated by multiple types of cellular stress, and plays a critical role in cytokine production during inflammation and early tumor development. Thus, we believe that the p38MAPK-MK2 pathway plays a particularly novel role during oncogenesis following genotoxic stress by integrating DNA damage response pathways within the damaged cells with inflammation and cytokine signaling arising in the adjacent stromal microenvironment. Importantly, both the DNA damage response function, and the cytokine production function of MK2, as well as many of the activities controlled by ATM-Chk2 and ATR-Chk1, appear to be mediated, in large part, by the action of RNA-BPs, which control gene expression at the post-transcriptional level. Finally, we and others have observed that certain xenobiotics appear to cause cell injury and death not through DNA damage, but instead through a distinct RNA damage response that has been very poorly characterized to date. In this proposal we (1) investigate the role of MK2 signaling in both the epithelial compartment and the inflammatory microenvironment in murine models of genotoxic stress-induced cancer development; (2) elucidate the emerging roles of RNA-binding proteins as key mediators of the cellular response to DNA damage; and (3) explore a poorly understood RNA damage response that induces profound apoptosis in a wide variety of epithelial tissues. The flexibility afforded by R-35 mechanism allows us to pursue these questions using a wide variety of combined experimental and computational approaches. The resulting mechanistic models are then tested in vivo using murine models of environmental stress-induced cancer and by querying human patient derived datasets, in order to achieve a transformational impact in the environmental health sciences.      
Science Code(s)/Area of Science(s) Primary: 05 - Signal Transduction
Publications See publications associated with this Grant.
Program Officer Leslie Reinlib
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