THE UNDERLYING MECHANISM(S) OF FASTING INDUCED NEUROPROTECTION AFTER MODERATE TRAUMATIC BRAIN INJURY

Traumatic brain injury (TBI) is becoming a national epidemic, as it accounts for 1.5 million cases each year. This disorder affects primarily the young population and elderly. Currently, there is no treatment for TBI, which means that ~2% of the U.S. population is currently living with prolonged neurological damage and dysfunction. Recently, there have been many studies showing that TBI negatively impacts mitochondrial function. It has been proposed that in order to save the cell from destruction mitochondrial function must be preserved. The ketogenic diet, originally designed to mimic fasting physiology, is effective in treating epilepsy. Therefore, we have used fasting as a post injury treatment and attempted to elucidate its underlying mechanism. 24 hours of fasting after a moderate TBI increased tissue sparing, cognitive recovery, improved mitochondrial function, and decreased mitochondrial biomarkers of injury. Fasting results in hypoglycemia, the production of ketones, and the upregulation of free fatty acids (FFA). As such, we investigated the neuroprotective effect of hypoglycemia in the absence of fasting through insulin administration. Insulin administration was not neuroprotective and increased mortality in some treatment groups. However, ketone administration resulted in increased tissue sparing. Also, reduced reactive oxygen species (ROS) production, increased the efficiency of NADH utilization, and increased respiratory function. FFAs and uncoupling proteins (UCP) have been implicated in an endogenously regulated anti-ROS mechanism. FFAs of various chain lengths and saturation were screened for their ability to activate UCP mediated mitochondrial respiration and attenuate ROS production. We also measured FFA levels in serum, brain, and CSF after a 24 hour fast. We also used UCP2 transgenic overexpressing and knockout mice in our CCI injury model, which showed UCP2 overexpression increased tissue sparing, however UCP2 deficient mice did not show a decrease in tissue sparing, compared with their wild type littermates. Together our results indicate that post injury initiated fasting is neuroprotective and that this treatment is able to preserve mitochondrial function. Our work also indicates ketones and UCPs may be working together to preserve mitochondrial and cellular function in a concerted mechanism, and that this cooperative system is the underlying mechanism of fasting induced neuroprotection

ShoWorks, There\u27s an App for That!

The county fair is a large part of the traditional 4-H program. The ShoWorks 2012 update includes an app for iPads that allows staff to use volunteers in new ways, recruit new volunteers, and significantly reduces post-show data entry time. Using technology greatly increases staff efficiency and organizational ability, a requirement during the packed schedule and quick turn-around times of county fair

Microbial communities in dark oligotrophic volcanic ice cave ecosystems of Mt. Erebus, Antarctica.

The Earth's crust hosts a subsurface, dark, and oligotrophic biosphere that is poorly understood in terms of the energy supporting its biomass production and impact on food webs at the Earth's surface. Dark oligotrophic volcanic ecosystems (DOVEs) are good environments for investigations of life in the absence of sunlight as they are poor in organics, rich in chemical reactants and well known for chemical exchange with Earth's surface systems. Ice caves near the summit of Mt. Erebus (Antarctica) offer DOVEs in a polar alpine environment that is starved in organics and with oxygenated hydrothermal circulation in highly reducing host rock. We surveyed the microbial communities using PCR, cloning, sequencing and analysis of the small subunit (16S) ribosomal and Ribulose-1,5-bisphosphate Carboxylase/Oxygenase (RubisCO) genes in sediment samples from three different caves, two that are completely dark and one that receives snow-filtered sunlight seasonally. The microbial communities in all three caves are composed primarily of Bacteria and fungi; Archaea were not detected. The bacterial communities from these ice caves display low phylogenetic diversity, but with a remarkable diversity of RubisCO genes including new deeply branching Form I clades, implicating the Calvin-Benson-Bassham (CBB) cycle as a pathway of CO2 fixation. The microbial communities in one of the dark caves, Warren Cave, which has a remarkably low phylogenetic diversity, were analyzed in more detail to gain a possible perspective on the energetic basis of the microbial ecosystem in the cave. Atmospheric carbon (CO2 and CO), including from volcanic emissions, likely supplies carbon and/or some of the energy requirements of chemoautotrophic microbial communities in Warren Cave and probably other Mt. Erebus ice caves. Our work casts a first glimpse at Mt. Erebus ice caves as natural laboratories for exploring carbon, energy and nutrient sources in the subsurface biosphere and the nutritional limits on life

UAS Integration in the NAS Project - FY 14 Annual Review

This briefing gives insight into the research activities and efforts being executed in order to integrate unmanned aircraft systems into the national airspace system. This briefing is to inform others of the UAS-NAS Projects progress and future directions

UAS Integration in the NAS FY15 Annual Review

This presentation gives insight into the research activities and efforts being executed in order to integrate unmanned aircraft systems into the national airspace system. This briefing is to inform others of the UAS-NAS progress and future directions