Abstract

Concerns about global nuclear war, less likely than in the past, have been replaced by the real potential of a terrorist strike using radiological weapons. The threat of such attacks has grown in recent years, with the increased activity of global terrorist organizations and a rise in illicit trafficking of radioactive materials. Unfortuntely, very few medical products exist to counter the variety of acute and long-term toxicities that can result from nuclear or radiological attacks. There remains a great need to expand the medical options available to prevent or treat radiation-induced injury. We have formed a consortium termed Radiation Countermeasures Centers of Research Excellence (RadCCORE) to collectively and collaboratively increase possible agents to detect, mitigate and treat those people exposed to deterministic doses of radiation (www.radccore.org/). Leading scientists in the area of radiation biology, health physics, stem cell biology/transplantation and immunology have come together to form one of the most comprehensive, inclusive, inter-institutional, and interdisciplinary Center for Medical Countermeasures Against Radiation (CMCR). RadCCORE is a network of academic medical centers: Duke University, University of North Carolina, and Wake Forest University and will consist of five research projects and four support cores. A major benefit of this group of investigators has been the dedication and strength of the individuals in the areas of normal tissue injury, radiation biology, physics, training and education. Given that most of our lead compounds have progressed through the development pipeline and are now externally funded, we have selected a new set of promising countermeasures but with all the original cores and core leaders intact. This arrangement brings novel investigators, increased basic and translational science knowledge and novel mitigators to our center. This network addresses broad areas of research and has made great strides in the development of new therapeutic products to prevent short- and long-term toxicities.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program--Cooperative Agreements (U19)
Project #
5U19AI067798-14
Application #
9531226
Study Section
Special Emphasis Panel (ZAI1)
Program Officer
Dicarlo-Cohen, Andrea L
Project Start
2005-08-31
Project End
2020-07-31
Budget Start
2018-08-01
Budget End
2019-07-31
Support Year
14
Fiscal Year
2018
Total Cost
Indirect Cost

  Institution

Name
Duke University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
044387793
City
Durham
State
NC
Country
United States
Zip Code
27705

  Publications

Cline, John Mark; Dugan, Greg; Bourland, John Daniel et al. (2018) Post-Irradiation Treatment with a Superoxide Dismutase Mimic, MnTnHex-2-PyP5+, Mitigates Radiation Injury in the Lungs of Non-Human Primates after Whole-Thorax Exposure to Ionizing Radiation. Antioxidants (Basel) 7:
Farris, Michael; McTyre, Emory R; Okoukoni, Catherine et al. (2018) Cortical Thinning and Structural Bone Changes in Non-Human Primates after Single-Fraction Whole-Chest Irradiation. Radiat Res 190:63-71
Naqvi, Ibtehaj; Gunaratne, Ruwan; McDade, Jessica E et al. (2018) Polymer-Mediated Inhibition of Pro-invasive Nucleic Acid DAMPs and Microvesicles Limits Pancreatic Cancer Metastasis. Mol Ther 26:1020-1031
Ghandhi, Shanaz A; Turner, Helen C; Shuryak, Igor et al. (2018) Whole thorax irradiation of non-human primates induces persistent nuclear damage and gene expression changes in peripheral blood cells. PLoS One 13:e0191402
Castle, Katherine D; Daniel, Andrea R; Moding, Everett J et al. (2018) Mice Lacking RIP3 Kinase are not Protected from Acute Radiation Syndrome. Radiat Res 189:627-633
Andrews, Rachel N; Metheny-Barlow, Linda J; Peiffer, Ann M et al. (2017) Cerebrovascular Remodeling and Neuroinflammation is a Late Effect of Radiation-Induced Brain Injury in Non-Human Primates. Radiat Res 187:599-611
Chen, Liang; Wilson, Justin E; Koenigsknecht, Mark J et al. (2017) NLRP12 attenuates colon inflammation by maintaining colonic microbial diversity and promoting protective commensal bacterial growth. Nat Immunol 18:541-551
Fanning, K M; Pfisterer, B; Davis, A T et al. (2017) Changes in microvascular density differentiate metabolic health outcomes in monkeys with prior radiation exposure and subsequent skeletal muscle ECM remodeling. Am J Physiol Regul Integr Comp Physiol 313:R290-R297
Swanson, Karen V; Junkins, Robert D; Kurkjian, Cathryn J et al. (2017) A noncanonical function of cGAMP in inflammasome priming and activation. J Exp Med 214:3611-3626
Kurkjian, Cathryn J; Guo, Hao; Montgomery, Nathan D et al. (2017) The Toll-Like Receptor 2/6 Agonist, FSL-1 Lipopeptide, Therapeutically Mitigates Acute Radiation Syndrome. Sci Rep 7:17355

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