therapeutic applications
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Effects of Apolipoprotein A4 on Lipid Metabolism via Sympathetic Regulation
Obesity increases the risks and progression of hypertriglyceridemia, metabolic dysfunction- associated steatotic liver disease (MASLD), and cardiovascular diseases. Previous studies demonstrate that a single injection of apolipoprotein A4 (APOA4) elevates sympathetic neural activity and fatty acid β-oxidation in adipose tissues; and consistent infusion of APOA4 in obese mice fed a high-fat diet lowers fat mass, reduces hypertriglyceridemia, elevates brown adipose tissue thermogenesis, and attenuates steatosis and enhances sympathetic neural activity in the liver. This project hypothesizes that APOA4 reduces hypertriglyceridemia by regulating lipid metabolism through sympathetic stimulation in adipose tissues (Specific Aim 1) and sympathetic action in the liver (Specific Aim 2). The role of sympathetic action via the neurotransmitter norepinephrine and adrenergic receptor-mediated pathways will be investigated, and their necessity in APOA4-mediated lipid metabolism will be tested. A strength of this project is the interdisciplinary collaboration between investigators with established successful collaboration and publications. The project will provide physiological, molecular, and neurochemical mechanisms underlying how APOA4 differentially regulates metabolism through sympathetic activation in various types of adipose tissues and the liver in male and female obese mice. Findings would provide impetus to develop unique, novel, targeted therapeutic applications against hypertriglyceridemia and MASLD. Importantly, this project will expose undergraduates and graduate students to meritorious research, provide students with hands-on biomedical research experience, and strengthen research environment at R15 eligible institutions.
Mechanisms of sleep-seizure interactions in tuberous sclerosis and other mTORpathies
An intriguing, relatively unexplored therapeutic avenue to investigate epilepsy is the interaction of sleep mechanisms and seizures. Multiple lines of clinical observations suggest a strong, bi-directional relationship between epilepsy and sleep. Epilepsy and sleep disorders are common comorbidities. Seizures occur more commonly in sleep in many types of epilepsy, and in turn, seizures can cause disrupted sleep. Sudden unexplained death in epilepsy (SUDEP) is strongly associated with sleep. The biological mechanisms underlying this relationship between seizures and sleep are poorly understood, but if better delineated, could offer novel therapeutic approaches to treating both epilepsy and sleep disorders. In this presentation, I will explore this sleep-seizure relationship in mouse models of epilepsy. First, I will present general approaches for performing detailed longitudinal sleep and vigilance state analysis in mice, including pre-weanling neonatal mice. I will then discuss recent data from my laboratory demonstrating an abnormal sleep phenotype in a mouse model of the genetic epilepsy, tuberous sclerosis complex (TSC), and its relationship to seizures. The potential mechanistic basis of sleep abnormalities and sleep-seizure interactions in this TSC model will be investigated, focusing on the role of the mechanistic target of rapamycin (mTOR) pathway and hypothalamic orexin, with potential therapeutic applications of mTOR inhibitors and orexin antagonists. Finally, similar sleep-seizure interactions and mechanisms will be extended to models of acquired epilepsy due to status epilepticus-related brain injury.
Brain-Body Music Interfaces for Creativity, Education and Well-being
The Georgia Tech Brain Music Lab is a community gathered around a unique facility combining EEG and other physiological measurement techniques with new music technologies. Their mission is to engage in research and creative practice that brings health and well-being. This talk will present an overview of the activities at the Brain Music Lab, including sonification of physiological signals, acoustic design for health and well-being, therapeutic applications of musical stimulation, and brain-body music performance.
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