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Characterizing Rat Lateral Amygdala Interneurons By Colocalization Of Calcium-Binding Proteins Via Serial Multiplex Immunohistochemistry, Ethan Gasteyer

Honors Scholar Theses

The lateral amygdala is a brain structure that plays an important role in regulating fear and anxiety. Some anxiety disorders are hypothesized to develop from failures in this local inhibitory circuit. Distinct populations of these inhibitory neurons express patterns of calcium- binding proteins and neuropeptides that suggest differences in functionality within the lateral amygdala. Furthermore, these patterns of expression are compared between male and female rats to identify sex differences in the lateral amygdala. Previous studies have reported sex differences in amygdala activation and connectivity, but very little is known about the sexual dimorphism of calcium-binding protein and neuropeptide expression. …

Microglia-Neuron Interactions In A Mouse Model Of Low Grade Neuroepithelial Tumors, Veolette Hanna

Honors Scholar Theses

Microglia are the macrophages of the brain and spinal cord, playing an important role in the immune response to disease states of the nervous system. This study conducts an investigation on the activity of microglia in response to low grade neuroepithelial tumors. Using mouse models and microglial markers, a qualitative and quantitative analysis of microglia activation, migration, and invasion within the brain cortex during early stages of tumor development was conducted. It was found that the presence of a low grade neuroepithelial tumor in the cortex of one hemisphere of the brain causes significant microglia activation in comparison to the …

Neurostructural Organization And Neocortical Projecting Neuron Distribution In A Mouse Model Of Timothy Syndrome-Mediated Autism Spectrum Disorder, Aiden L. Ford

Honors Scholar Theses

Aims: This study investigates the nuanced effect of the CACNA1C mutation on neurocognition and neurodevelopment via an extended study of the Timothy Syndrome (TS) mediated Autism Spectrum Disorder (ASD) mouse model – TS2-neo. It includes: (1) an expanded assessment of the TS2-neo behavioral phenotype, and (2) a comprehensive histological analysis of cortical structural and laminar features.

Methods: 24 age-matched male mice – 12 TS2-neo (B6.Cg-Cacna1c^tm2Itl, knock-in G406R mutation), 12 WT (C57BL/6J) – were tested on paradigms examining motor, socio-communicative and cognitive abilities. Neural tissue was processed for either volumetric analysis through Nissl stain (8 TS2-neo, 8 WT) or …