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Role Of The Reactive Oxygen Species Peroxynitrite In Traumatic Brain Injury, Ying Deng
Role Of The Reactive Oxygen Species Peroxynitrite In Traumatic Brain Injury, Ying Deng
University of Kentucky Doctoral Dissertations
Reactive oxygen species (ROS) is cytotoxic to the cell and is known to contribute to secondary cell death following primary traumatic brain injury (TBI). We described in our study that PN is the main mediator for both lipid peroxidation and protein nitration, and occurred almost immediately after injury. As a downstream factor to oxidative damage, the peak of Ca2+-dependent, calpainmediated cytoskeletal proteolysis preceded that of neurodegeneration, suggesting that calpain-mediated proteolysis is the common pathway leading to neuronal cell death. The time course study clearly elucidated the interrelationship of these cellular changes following TBI, provided window of opportunity for pharmacological intervention. …
Role Of Reactive Oxygen Species Peroxynitrite In Traumatic Spinal Cord Injury, Yiqin Xiong
Role Of Reactive Oxygen Species Peroxynitrite In Traumatic Spinal Cord Injury, Yiqin Xiong
University of Kentucky Doctoral Dissertations
Peroxynitrite (PN, ONOO-), formed by nitric oxide radical (•NO) and superoxide radical (O2•-), plays an important role in post-traumatic oxidative damage. In the early work, we determined the temporal characteristics of PN-derived oxidative damage in a rat spinal cord injury (SCI) model. Our results showed 3-nitrotyrosine (3-NT), a specific marker for PN, rapidly accumulated at early time points (1 hr, 3 hrs), after when it plateaued and the high level was sustained to 1 week post injury. The co-localization of 3-NT and lipid peroxidation derived-4-HNE observed in immunohistochemistry indicates PN is involved in lipid peroxidative as …