Molecular and Cellular Neuroscience Commons^™

Assessing The Morphology Of Vesicles In Inhibitory Symmetric Synapses In Safety And Fear Conditions In The Rat Lateral Amygdala, Valerie Kress

Honors Scholar Theses

There is a significant lack of research on vesicle morphology in inhibitory synapses in the rat lateral amygdala. Published research focuses heavily on excitatory synapses in different parts of the rat brain and even this research rarely focuses on the different vesicle types in axons. It is reported that in these axons, synaptic vesicles traditionally contain neurotransmitters while small dense core vesicles contain active zone proteins and large dense core vesicles contain neuropeptides. This study aims to find correlations between vesicle morphology, location, contents, and potential function of each of the different types of vesicle in inhibitory axons.

After reviewing …

Rejuvenation Of The Epigenetic Landscape Of The Aged Brain Through Manipulation Of Circulating Factors, Edward Koellhoffer

Dissertations & Theses (Open Access)

The aging population of the United States is expanding at an alarming rate. The Center for Disease Control and Prevention estimates that the population of those age 65 years and older will reach over 50 million by 2020 and will double to 100 million by 2060. This will not only put a massive strain on national healthcare resources, but will also increase the number of those who are not able to live and function independently. It is becoming increasingly vital to understand how the brain changes with age and mechanisms to possibly protect and rejuvenate the aged brain to a …

Glycine Receptor Expression Across Identified Retinal Ganglion Cell Types., Ian Scot Pyle

Electronic Theses and Dissertations

Retinal ganglion cells (RGCs) represent the culmination of all retinal signaling and their output forms the substrate for vision throughout the rest of the brain. About 40 different RGC types have been defined by differences in their visually evoked responses, morphology, and genetic makeup. These responses arise from interactions between inhibition and excitation throughout the retinal circuit (Franke et al., 2017; Masland, 2012; Sanes & Masland, 2015; Werblin, 2011). Unlike most other areas of the central nervous system (CNS), the retina utilizes both GABA and glycine inhibitory neurotransmitters to refine glutamatergic excitatory signals (Franke & Baden, 2017; Werblin, 2011; C. …

Development Of An Intrahippocampal Kindling Model Of Epilepsy, Carter F. Jones

Senior Theses and Projects

Epilepsy is a neurological condition that affects about 1% of the global population. This debilitating condition is associated with overexcitation and ineffective inhibition of neuronal pathways in the brain causing serious and a diverse set of symptoms, most prominently seizures. While some antiepileptic drug (AED) regimes have been proven to be effective in treating this condition, there are many cases where the drugs do not do enough. The ketogenic diet (KD) has been used for decades as an effective anticonvulsant. Its powerful and natural processes result in some patients becoming seizure-free. Sometimes, these patients remain free of seizures even after …

Mechanisms Of Microglia Mediated Apolipoprotien E Neurotoxicity, Pardeep Singh

Dissertations and Theses

No abstract provided.

Improving Dopamine Monitoring With Ncam And The Effects Of Intranasal Oxytocin On Dopamine Signaling In The Rat Brain, Darren Earl Ginder

EWU Masters Thesis Collection

Dopamine (DA) is a neurohormone highly involved in learning and memory. Oxytocin (OXT), another neurohormone, has also been implicated in learning and memory. Fast-scan cyclic voltammetry (FSCV) is a method used for the real-time examination of DA neurotransmission in the brain. Implanting FSCV electrodes is an invasive technique that likely results in an inflammatory response (i.e. gliosis) that can restrict FSCV recording of DA signals. Neural cell adhesion molecule (NCAM) may reduce gliosis and potentially improve the ability of FSCV electrodes to monitor DA signaling. Chapter 1 Methods: FSCV electrodes were coated with NCAM and implanted in the rat brain. …

Sodium Channel Distribution In The Apical Dendrites Of Pyramidal Cells Vary In The Hindbrain Of Apteronotus Leptorhynchus., Sree Indrani Motipally

Graduate Theses, Dissertations, and Problem Reports

Apteronotid weakly electric fish heavily rely on their electrosensory system for behaviors like spatial navigation, communication and prey capture. Since the behaviorally important information about their environment is contained in the spatial and temporal modulations of the electrosensory signal, efficient mechanisms to process this information with great fidelity are of the utmost importance. Efficient sensory processing often involves having multiple parallel processing streams so that each stream can specialize to treat signals with different properties. This strategy requires the response properties and neural dynamic to be adjusted in each pathway to implement different neural coding strategies. One of the neural …

M1 Melanopsin Ganglion Cells In The ​Mus Musculus​ Retina Are Similar In Shape And Size, Geoffrey K. Sarpong

Williams Honors College, Honors Research Projects

An M1 melanopsin retinal ganglion cell (mRGC) is a subtype of the five melanopsin ganglion cells. The M1-type mRGC is distributed on the dorsal retina of a mouse and has an extensively overlapping dendritic network in both the sublamina a (OFF) and sublamina b (ON) layers of the inner plexiform layer. In the dorsal retina, the M1-type mRGCs are distinct and asymmetric.

The aim of this study was to examine the morphological similarity (shape and size) of M1-type mRGCs. The study traced 20 neurons in the first four months of a glaucoma retina of a DBA mouse, made measurements of …

The Progression Of Aβ Proteins In The Retrosplenial Cortex Using An App/Ps1 Alzheimer’S Disease Transgenic Rodent Model, Maha H. Rashid

Senior Independent Study Theses

Alzheimer’s disease is the most common form of dementia in the world with a new case of dementia diagnosed every 3.2 seconds. For over 25 years the amyloid cascade hypothesis has existed as a mechanism of understanding and diagnosing Alzheimer’s Disease. The amyloid cascade hypothesis suggests that Alzheimer’s Disease is sequential in protein progression and proliferative from the medial temporal lobe to the rest of the brain. Hypometabolism of brain regions has also been correlated to plaque deposition and hypometabolism is observed in brain regions that make up the default mode network, specifically the retrosplenial cortex, which is not accounted …