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Systemic inflammation in regulating the onset and progression of brain aging

$307,500R01FY2015AGNIH

University Of Florida, Gainesville FL

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Abstract

? DESCRIPTION (provided by applicant): The goal of the proposed work is to provide an understanding the role of chronic inflammation in promoting an early onset memory impairment and progression of cognitive decline during aging. Impaired episodic memory, an early indicator of cognitive decline, is due to a redox-mediated decrease in the function of synaptic NMDA receptors. The mechanism involves reactive oxygen species (ROS), possibly from activated microglia, providing a potential link between inflammation and the emergence of impaired memory. Aim 1 will test the hypothesis that the onset of cognitive decline is influenced by an inflammation induced increase in oxidative stress, resulting in a redox-mediated decrease in NMDAR function. LPS will be used to induce low- grade systemic inflammation. Studies employ sensitive behavioral tests for different cognitive processes, and can detect changes in motor function or motivation. Impaired cognitive function will be associated with measures of serum and local brain cytokines, oxidative stress, and redox regulation of NMDA receptor function. We predict that inflammatory markers in the serum correlated with the emergence of memory decline and that for specific neural systems, inflammation markers and impaired NMDA receptor function is diagnostic of cognitive impairment phenotypes. Aim 2 examines the progression of cognitive decline. Systemic inflammation induces long-term effects on microglia and synaptic function that outlast systemic markers. To examine long-term effects we will characterize cognition, redox regulation of NMDA receptors, and RNA sequencing to obtain a picture of the transcriptional profile associated with chronic inflammation and cognitive impairment. Research indicates that decreased activity of synaptic NMDA receptors results in a transcriptional profile similar to that associated with aging and memory impairment suggesting that a decrease in NMDAR synaptic activity, due to chronic inflammation, alters transcription of neurotrophic, neuroprotective, and synapse specific genes. We predict that long-lasting changes due to inflammation involve a redox-mediated decrease in synaptic NMDAR activity resulting in a senescent transcription, which increases cellular vulnerability to age-related stressors, and decreases connectivity in specific neural circuits. Aim 3 will examine the effect of anti-inflammatory drugs on cognitive and biological changes associated with inflammation.

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