Molecular and Cellular Neuroscience Commons^™

Investigation Of Sox9 Ablation On Neural Stem Cell Behaviour After Spinal Cord Injury, Stephen Mcdonald

Electronic Thesis and Dissertation Repository

After spinal cord injury neural stem cells are activated to proliferate and differentiate primarily into astrocytes, but are unable to replace lost neurons or aid in neurological recovery. Recent research shows that the transcription factor Sox9 promotes gliogenesis while inhibiting neurogenesis, and that Sox9 ablation causes improved recovery after spinal cord injury. The purpose of this study was to determine how Sox9 ablation alters neural stem cell behaviour after spinal cord injury and whether it leads to neurological improvements. We used BrdU and YFP to label and track neural stem cells and a neural stem cell-specific Sox9 knockout mouse model …

Investigating Potential Target Genes Of The Rfx Transcription Factor Daf-19 In Caenorhabditis Elegans, He Zhang

Lawrence University Honors Projects

Neurodegenerative diseases, such as Alzheimer’s disease, are characterized by an age-related decrease in the synaptic activity of the patient’s brain. Previous research suggested that a RFX transcription factor DAF-19 in the nematode Caenorhabditis elegans (C. elegans) may be involved in the maintenance of synaptic protein levels. Particularly, worms that were DAF-19A/B defective showed reduced synaptic activities when compared to their age-matched controls.

This study investigated the role of DAF-19A/B isoforms in the C. elegans nervous system. Three genes, F46G11.3, F57B10.9, and F58E2.3 were selected as potential downstream targets of DAF-19A/B based on their potential neuronal expression. …

Aβ Alters The Dna Methylation Status Of Cell-Fate Genes In An Alzheimer’S Disease Model, Gary D. Isaacs, Noor Taher, Courtney Mckenzie, Rebecca Garrett, Matthew Baker, Nena Fox

Faculty Publications and Presentations

Alzheimer’s disease (AD) is characterized by neurofibrillary tangles and extracellular amyloid-β plaques (Aβ). Despite ongoing research, some ambiguity remains surrounding the role of Aβ in the pathogenesis of this neurodegenerative disease. While several studies have focused on the mutations associated with AD, our understanding of the epigenetic contributions to the disease remains less clear. To that end, we determined the changes in DNA methylation in differentiated human neurons with and without Aβ treatment. We isolated the DNA from neurons treated with Aβ or vehicle, and digested the two samples with either a methylation-sensitive (HpaII) or a methylation-insensitive (MspI) restriction endonuclease. …