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- Genre: Masters Thesis
Description
Synaptosomes are isolated nerve terminals that contain pre- and post-synapticproteins and can be used to model functionally intact synapses. While the quantification and characterization of synaptosomes have been used to study neurological conditions and diseases, relatively few studies have included the use of flow cytometry in the quantification and analytical processes. As such, this study highlights the use of flow cytometry in the synaptosomal quantification process and describes the adaptation of a previously performed synaptic flow protocol to find the optimal concentrations, protein- to-antibody ratios and gating strategies that meet the goals of this and future studies. To validate the protocol, three independent experiments measuring different treatments – traumatic brain injury (TBI), neurodevelopment, and ketamine - on synaptosomal quantity were conducted and compared to pre-existing literature. Despite the high standard deviation values between certain sample replicates, the synaptic flow protocol was validated by the right-skewed nature of the frequency distribution of the standard deviations between sample replicates and that most of the deviations fell below 40% of the maximum variance value. Further analysis showed significant differences (p < 0.05) between the ketamine and TBI groups compared to the control group while no significant differences were observed between the neurodevelopment (P30) group. This study validates the use of flow cytometry in synaptosomal quantification while providing insight to the potential of the synaptic flow protocol in future TBI and psychoplastogen studies.
ContributorsChua, Wan Rong (Author) / Lifshitz, Jonathan (Thesis advisor) / Balmer, Timothy (Thesis advisor) / Velazquez, Ramon (Committee member) / Arizona State University (Publisher)
Created2023