Life Sciences Commons^™

Flavonoid And Cannabidiol Neural Glyoxalase Pathway Enhancement Against Aging And Alzheimer’S Disease, Joel R. Frandsen

Theses & Dissertations

Alzheimer’s Disease is a neurodegenerative condition featuring neural cell death and a decline in cognitive capacity caused by elevated inflammation and production of reactive oxygen species. The glyoxalase pathway is an endogenous antioxidant system that neutralizes reactive methylglyoxal through sequential reactions. Dysfunction of the glyoxalase pathway contributes to oxidative stress and the accumulation of inflammatory metabolic byproducts. Plant-produced compounds with antioxidant activity can enhance endogenous antioxidant pathways and protect cells from elevated ROS production. We hypothesize that flavonoids and limited Cannabis Sativa-produced cannabidiol can enhance glyoxalase pathway function through regulation of antioxidant and pro-apoptotic signaling pathways to prevent methylglyoxal-mediated …

Dynamic Oscillatory Interactions Between Neural Attention And Sensorimotor Systems, Alex Wiesman

Theses & Dissertations

The adaptive and flexible ability of the human brain to preference the processing of salient environmental features in the visual space is essential to normative cognitive function, and various neurologically afflicted patient groups report negative impacts on visual attention. While the brain-bases of human attentional processing have begun to be unraveled, very little is known regarding the interactions between attention systems and systems supporting sensory and motor processing. This is essential, as these interactions are dynamic; evolving rapidly in time and across a wide range of functionally defined rhythmic frequencies. Using magnetoencephalography (MEG) and a range of novel cognitive paradigms …

Molecular And Behavioral Studies In Cdkl5 Deficiency Disorder, Ethan Schroeder

Theses & Dissertations

CDKL5 Deficiency Disorder (CDD) is an X-linked neurodevelopmental disorder associated with epilepsy, developmental retardation, autism, and related phenotypes. Currently, there is no cure available for the disorder. Thus, the identification of cellular and molecular aberrations in this disorder and the generation and validation of mouse models that recapitulate core aspects of the disorder are a pressing need in the field. Our studies are aimed at filling this gap.

Mutations in the CDKL5 gene, encoding CDKL5, have been identified in this disorder. CDKL5 is a protein with homology to the serine-threonine kinases and incompletely characterized function. Mutations in CDKL5 are predominately …