A mitohormetic response to pro-oxidant exposure in the house mouse.

Mitochondria are hypothesized to display a biphasic response to reactive oxygen species (ROS) exposure. In this study, we evaluated the time course changes in mitochondrial performance and oxidative stress in house mice following X-irradiation. Forty-eight mice were equally divided among six groups, including a nonirradiated control and five experimental groups that varied in time between X-ray exposure and euthanasia (1 h and 1, 4, 7, and 10 days after X-irradiation). We measured parameters associated with mitochondrial respiratory function and ROS emission from isolated liver and skeletal muscle mitochondria and levels of oxidative damage and antioxidants in liver, skeletal muscle, and heart tissues. Mitochondrial function dropped initially after X-irradiation but recovered quickly and was elevated 10 days after the exposure. Hydrogen peroxide production, lipid peroxidation, and protein carbonylation showed inverse U-shaped curves, with levels returning to control or lower than control, 10 days after X-irradiation. Enzymatic antioxidants and markers for mitochondrial biogenesis exhibited a tissue-specific response after irradiation. These data provide the first chronological description of the mitohormetic response after a mild dose of irradiation and highlight the protective response that cells display to ROS exposure. This study also provides valuable information and application for future mitochondrial and oxidative stress studies in numerous physiological settings.

Electrokinetic convection-enhanced delivery for infusion into the brain from a hydrogel reservoir.

Electrokinetic convection-enhanced delivery (ECED) utilizes an external electric field to drive the delivery of molecules and bioactive substances to local regions of the brain through electroosmosis and electrophoresis, without the need for an applied pressure. We characterize the implementation of ECED to direct a neutrally charged fluorophore (3 kDa) from a doped biocompatible acrylic acid/acrylamide hydrogel placed on the cortical surface. We compare fluorophore infusion profiles using ECED (time = 30 min, current = 50 µA) and diffusion-only control trials, for ex vivo (N = 18) and in vivo (N = 12) experiments. The linear intensity profile of infusion to the brain is significantly higher in ECED compared to control trials, both for in vivo and ex vivo. The linear distance of infusion, area of infusion, and the displacement of peak fluorescence intensity along the direction of infusion in ECED trials compared to control trials are significantly larger for in vivo trials, but not for ex vivo trials. These results demonstrate the effectiveness of ECED to direct a solute from a surface hydrogel towards inside the brain parenchyma based predominantly on the electroosmotic vector.

Rigor and reproducibility in analysis of rodent behavior utilizing the forelimb reaching task following a cervical spinal cord injury.

Spinal cord injury (SCI) research with animals aims to understand the neurophysiological responses resultant of injury and to identify effective interventions that can translate into clinical treatments in the future. Consistent and reliable assessments to properly measure outcomes are essential to achieve this aim and avoid issues with reproducibility. The objective of this study was to establish a baseline for implementing the forelimb reaching task (FRT) assessment and analysis that increased reproducibility of our studies. For this study, we implemented a weekly FRT training program for six weeks. During this time the language of the scoring rubric for movement elements that comprise a reaching task was simplified and expanded. We calculated intra- and inter-rater variability among participants of the study both before and after training to determine the effect changes made had on rigor and reproducibility of this behavioral assessment in a cervical SCI rodent model. All animals (n = 19) utilized for FRT behavioral assessments received moderate contusion injuries using the Ohio State University device and were tested for a period of 5 weeks post-SCI. Videos used for scoring were edited and shared with all participants of this study to test FRT score variability and the effect simplification of the scoring rubric had on overall inter-rater reliability. From our results we determined training for a minimum of three weeks in FRT analysis is necessary for rigor and reproducibility of our behavioral studies, as well as the need for two raters to be assigned per animal to ensure accuracy of results.