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Full-Text Articles in Physiology
Apolipoprotein E4 Mediates Insulin Resistance-Associated Cerebrovascular Dysfunction And The Post-Prandial Response, Lance A. Johnson, Eileen Ruth Torres, Sydney Weber Boutros, Esha Patel, Tunde Akinyeke, Nabil J. Alkayed, Jacob Raber
Apolipoprotein E4 Mediates Insulin Resistance-Associated Cerebrovascular Dysfunction And The Post-Prandial Response, Lance A. Johnson, Eileen Ruth Torres, Sydney Weber Boutros, Esha Patel, Tunde Akinyeke, Nabil J. Alkayed, Jacob Raber
Physiology Faculty Publications
Metabolic dysfunction, commonly a result of diets high in saturated fats and sugar, is associated with impaired cognitive function and an increased risk of age-related cognitive decline (ACD) and Alzheimer’s disease (AD). Compared to the E3 isoform of apolipoprotein (apoE), the E4 isoform is a major genetic risk factor for ACD, AD, and for developing cognitive impairments following various environmental challenges, including dietary challenges such as a high-fat diet (HFD). Both insulin resistance (IR) and E4 are associated with metabolic and vascular impairments. Deficits in cerebral metabolism and cerebrovascular function have been proposed as initiating events leading to these impairments. …
A Hindbrain Inhibitory Microcircuit Mediates Vagally-Coordinated Glucose Regulation, Carie R. Boychuk, Katalin Cs. Smith, Laura E. Peterson, Jeffery A. Boychuk, Corwin R. Butler, Isabel D. Derera, John J. Mccarthy, Bret N. Smith
A Hindbrain Inhibitory Microcircuit Mediates Vagally-Coordinated Glucose Regulation, Carie R. Boychuk, Katalin Cs. Smith, Laura E. Peterson, Jeffery A. Boychuk, Corwin R. Butler, Isabel D. Derera, John J. Mccarthy, Bret N. Smith
Physiology Faculty Publications
Neurons in the brainstem dorsal vagal complex integrate neural and humoral signals to coordinate autonomic output to viscera that regulate a variety of physiological functions, but how this circuitry regulates metabolism is murky. We tested the hypothesis that premotor, GABAergic neurons in the nucleus tractus solitarius (NTS) form a hindbrain micro-circuit with preganglionic parasympathetic motorneurons of the dorsal motor nucleus of the vagus (DMV) that is capable of modulating systemic blood glucose concentration. In vitro, neuronal activation or inhibition using either excitatory or inhibitory designer receptor exclusively activated by designer drugs (DREADDs) constructs expressed in GABAergic NTS neurons increased …