Life Sciences Commons^™

Pharmaceutical And Natural (Exercise) Mechanisms To Mitigate The Negative Impact Of Ptsd And Chronic Stress On Synaptic Plasticity And Memory, Roxanne M. Miller

Theses and Dissertations

Synapses can be altered due to experiences in a process called synaptic plasticity, which causes memory formations. Synapses can be strengthened through methods known as long-term potentiation (LTP) or weakened through long-term depression (LTD). Stresses can cause changes by altering synapses through either LTP or LTD. Rats were used to study the effects of post-traumatic stress disorder (PTSD)-like symptoms and a prophylactic treatment using pharmaceuticals. The first model used was the single prolonged stress (SPS) with two weeks of chronic light, which was not as effective for causing changes in synaptic plasticity. The second model, seven days of social defeat …

Pharmaceutical And Natural (Exercise) Mechanisms To Mitigate The Negative Impact Of Ptsd And Chronic Stress On Synaptic Plasticity And Memory, Roxanne M. Miller

Theses and Dissertations

Synapses can be altered due to experiences in a process called synaptic plasticity, which causes memory formations. Synapses can be strengthened through methods known as long-term potentiation (LTP) or weakened through long-term depression (LTD). Stresses can cause changes by altering synapses through either LTP or LTD. Rats were used to study the effects of post-traumatic stress disorder (PTSD)-like symptoms and a prophylactic treatment using pharmaceuticals. The first model used was the single prolonged stress (SPS) with two weeks of chronic light, which was not as effective for causing changes in synaptic plasticity. The second model, seven days of social defeat …

Mri T2 Signal Changes Indicate Tau Pathophysiology In A Murine Alzheimer's Disease Model, Rajan Deep Adhikari

Theses and Dissertations

Pathogenesis, diagnosis and treatment, the essential domains in medical practice, seem helpless to address Alzheimer's disease (AD). With a huge mortality rate, it is looming and threatening the socioeconomic barrier. Despite many different studies, the pathogenesis of AD remains inconclusive. However, growing numbers of studies suggest oxidative stress to contribute to the initiation and progression of AD. We propose an iron hypothesis: iron mediated oxidative damage by reactive oxygen species (ROS), which induces protective roles of amyloid beta and hyper-phosphorylated tau (HP-tau) to sequester iron and limit the disease. We propose to study such mechanism using transgenic mice models for …

Synaptic Modification Of Inhibitory Inputs To Gaba Neurons In The Ventral Tegmental Area: A Novel Potential Target Mediating Reward And Addiction In The Brain, Jeff Edwards

Journal of Undergraduate Research

The objectives of this award were met, especially in regard to the mentoring focus of the award. The students have been mentored and trained in an effective manner as outlined in my Mentoring Plan (abbreviated below). This includes mentoring students in research, writing, publishing, presenting at conferences, etc. Indeed, one measure of the success of mentoring is demonstrated by the fact that all the students graduating from my lab during this time were accepted to the professional school of their choice (see students listed below). Research, especially where the students are actually involved in all aspects of it including data …

The Role Of Lkb1 In Obesity-Induced Skeletal Muscle Inflammation And Insulin Resistance, David Thomson

Journal of Undergraduate Research

The incidence of obesity and the health consequences that accompany it have increased rapidly over the past decade. Understanding the molecular pathways involved in its development will be crucial in developing novel treatment strategies for obesity and associated disorders. Low-grade inflammation likely plays a major role in many of the complications of obesity. We proposed to study the role of liver kinase B1 (LKB1) in the development of inflammation and insulin resistance in obese mice and saturated fatty acid-induced insulin-resistant cells.

Modulation Of Synaptic Plasticity: Endocannabinoids And Novel G-Protein Coupled Receptors Expression And Translational Effects In Interneurons, Katrina M. Hurst

Theses and Dissertations

Learning and memory are important processes that occur in the brain. The brain is comprised of neurons that make connections with each other known as synapses. Synaptic plasticity is widely believed to be the physiologic mechanism by which learning and memory occur. Synapses can either be strengthened through a process known as long-term potentiation (LTP) or weakened through long-term depression (LTD). The area of the brain that is most studied for its role in learning and memory is the hippocampus, which has been shown to be involved in memory consolidation. The detection of endocannabinoids and their receptors has opened a …

A Microfluidic Approach To Measuring Endothelial Cell Migration

Journal of Undergraduate Research

Pathological angiogenesis or new vessel growth plays a key role in a number of diseases including tumor growth and several eye diseases that can lead to blindness. While antiangiogenic therapies have been developed for many of these pathologies, there remains a pressing need for more effective anti-angiogenic therapy with fewer side-effects. Capillary morphogenesis gene 2 (CMG2) has been shown to play an important role in angiogenesis and is a potential target for future anti-angiogenic therapies. To better understand the physiological role of CMG2 and to accurately compare how well different CMG2 antagonists inhibit endothelial cell migration (the putative mechanism for …

Elucidation Of Mechanisms Whereby Embryonic Chicken Limbs Develop, James Broadbent, Jeffery Barrow

Journal of Undergraduate Research

As established by John Saunders 60 years ago, the AER is required for limb growth and patterning. However, the mechanisms whereby the AER regulates these processes remain poorly understood. My professor and I propose that one of the primary roles of the AER is to regulate directional growth of the adjacent limb mesenchyme. Over time, the AER extends along the anteroposterior (AP) and thins along the dorsoventral (DV) axes. These results highlight a morphogenetic paradigm: the dimensions of recruitment signaling centers ultimately shape organs. This model also provides mechanistic insight for evolutionary change. We also show that sonic hedgehog (Shh) …

Development Of A Directed Forward Genetic Screen Using Crispr Libraries, Robert C. Russell, Johnathon Hill

Journal of Undergraduate Research

Thousands of genes control the development of our bodies. These genes must be activated at the proper place and time in order for development to proceed correctly. The technique that we are developing will improve our ability to identify such genes, thus providing insights to the mechanisms underlying development processes. One in 33 live births in the United States is impacted by a birth defect. Of these, congenital heart defects (CHDs) are the most common, affecting nearly 1% of births in the United States.1 For this reason, we are developing a technique that will identify key contributors in heart development.

Understanding Birth Defects By Establishing Glutathione Ontogeny In A Chick Embryo Model, Ryan Mackay, Dr. Jason Hansen

Journal of Undergraduate Research

Most chemicals known to cause birth defects have been shown to induce oxidative stress – a disruption in intracellular redox signaling. The overall purpose of this research is to better understand how environmental/chemical insults that cause oxidative stress result in specific malformations. Since the tripeptide glutathione (GSH) is an abundant antioxidant and important mediator in redox state and signaling, the goal of this project was to measure levels of glutathione during early embryonic development in order to determine when embryos are more susceptible to environmental and chemical stresses. Changes in the amount of GSH will affect the sensitivity of cells …

Combating Anemia And Other Iron Related Deficiencies Through Iron- Efficiency In Soybeans, Miranda Ruth, Bryan Hopkins

Journal of Undergraduate Research

Plants uptake iron from the soil in a variety of ways. Dicots, like soybeans, primarily exude hydrogen (H+) ions and chemical reductants from their roots, which acidify the root zone and reduce Fe³⁺ to Fe²⁺ that can then be utilized by the plant (Brown and Jolley 1989). Iron efficiency in soybeans results in increased dietary iron for those eating the beans. Anemia, which is due to a dietary lack of iron, is an extremely serious health problem that affects much of the world, especially developing countries. Globally, over 30% of the world suffers from this lack of dietary …

Soil Water And Temperature Effects On Resilience Resistance Of Sagebrush Steppe Plant Communities, Trevor Gruwell, Bruce Roundy

Journal of Undergraduate Research

Project Purpose-The purpose of this project was to evaluate the effects of environmental factors on overall resistance and resilience of the sagebrush steppe community. Resistance is defined as a system’s ability to avoid change after a disturbance has taken place and resilience is defined as the ability of a system to return to its natural state after a disturbance has taken place.

The Efficacy Of Tgfβ Inhibition Via Sgi-1252 In The Prevention And Reversal Of Diet-Induced Obesity And Diabetes, Blake Dallon, Benjamin Bikman

Journal of Undergraduate Research

The growing worldwide incidence of obesity and its associated pathologies, like type 2 diabetes, has received much deserved attention. However, despite this attention and substantial research efforts, little meaningful progress has been made in slowing or reversing the growing cost and trends of obesity worldwide.

As of 2008, almost 10% of medical costs in the United States were incurred due to obesity or other obesity-related diseases¹, with a substantial amount of this cost stemming from the dramatically increased risk of diabetes with excess fat mass². According to the US Centers for Disease Control and Prevention, more …

Effects Of Muscle Cooling On Ampk And Protein Synthesis In Skeletal Muscle, Kyle Lyons, David Thomson, Pdbio

Journal of Undergraduate Research

AMP-activated protein kinase (AMPK) is an intracellular protein that regulates many signaling responses including the mechanistic target of rapamycin (mTOR) pathway, which increases protein synthesis1. Recent research suggests that cold-water immersion of the leg activates AMPK in skeletal muscle. It is not known whether cold directly activates AMPK in skeletal muscle or if the aforementioned results are due to systemic or hormonal responses. Furthermore, the direct effect of cooling on protein synthesis-related signaling in skeletal muscle has not been established. If cooling affects the activation of AMPK, then it could also affect mTOR. Therefore, the purpose of this study was …

Using A Tnp Fluorophore To Identify Adenosine Binding In The Snap25b Snare Binding Protein, David Hallan, Dixon Woodbury

Journal of Undergraduate Research

Vesicle fusion is a key step in the cellular process of exocytosis and is at the center of neurotransmitter release by neurons. Fusion is driven by a set of proteins known as SNAREs which includes the protein SNAP25B.

In the synthesis and spectroscopic analysis of the SNAP25B protein, a strong, unexpected 260 nm peak has been seen. This 260 nm peak might correspond to DNA, RNA, or any other adenosine-containing molecule binding to SNAP25B. Previous work indicated that the 260 peak was not due to DNA or RNA. SNAP25B binding to an adenosine-containing substance could be the basis of an …

Drunken Membranes: Short-Chain Alcohols Alter Fusion Of Liposomes To Planar Lipid Bilayers, Jason Paxman, Dixon Woodbury

Journal of Undergraduate Research

The focus of my project was on understanding the effect of alcohol on the complex process of neural transmission, or how the body sends and receives signals through neurons. This essential communication occurs at junctions where neurons meet known as synapses. Essential to the process of sending any signal is the releasing of neurotransmitters into the synapse where they bind to receptors on the adjacent neuron. This releasing of neurotransmitter occurs through a process known as exocytosis. Exocytosis can only occur when neurotransmitter-containing vesicles fuse to the cell membrane. Alterations to the process of exocytosis can result in drastic consequences, …

Diverse Tissue And Organ Systems Differs Following Exposure To Secondhand Cigarette Smoke, Jason Gassman, Dr. Paul R. Reynolds

Journal of Undergraduate Research

The receptor for advanced glycation end-products (RAGE) is a pattern recognition receptor expressed in many cell types, including smooth muscle cells, fibroblasts, macrophages, and epithelial cells (1). RAGE is capable of binding a variety of endogenous ligands, included advanced glycation end-products (AGEs), S100/calgranulins, amyloid-beta peptides, and HMGB1 (2). RAGE signaling has been identified as a primary mediator in a variety of feed-forward inflammatory pathways and, as such, has been implicated in a variety of chronic conditions of inflammation such as chronic obstructive pulmonary disease (COPD), pancreatitis, and diabetic cardiomyopathy (3-5).

Localization Of Cell Bodies Of The Stellate And Superior Cervical Ganglia In Relation To Innervation Of Cardiac Muscle And Vasculature Of The Brain, Alistair Hilton, Jonathan J. Wisco

Journal of Undergraduate Research

Introduction: Arrhythmia is a serious heart defect that effects 14 million people in the United States.i When the impulse rhythm becomes irregular or the frequency of atrial and ventricular beats are different it is called arrhythmia.ii The most serious effects of arrhythmia include sudden cardiac arrest and stroke.iii Sympathetic nerve activity from the stellate ganglia increases prior to arrhythmia events leading to sudden cardiac death.iv About 383,000 cases of cardiac arrest are recorded annually in the United States alone.v Current treatment for arrhythmia consists of ablation or intentional, permanent scarring of the heart tissue, rather than a more targeted block …

Insulin And Ketones: Their Roles In Brain Mitochondrial Function, Sheryl Teresa Carr

Theses and Dissertations

The prevalence of both Type 2 diabetes mellitus (T2DM) and Alzheimer's disease (AD) is increasing worldwide, and the trends are unfortunately expected to continue. AD has recently been tied with mitochondrial dysfunction and insulin resistance, creating a mechanistic tie between AD and T2DM. Unfortunately, insulin resistance is often increased with aging and therefore, all individuals are at risk of brain mitochondrial dysfunction. Without proper mitochondrial function, the brain will degenerate, causing impaired cognitive function and reduced quality of life. The purpose of this study is two-fold: first, to understand the role of ceramides in insulin-induced brain mitochondrial dysfunction, and; second, …

Insulin And Ketones: Their Roles In Brain Mitochondrial Function, Sheryl Teresa Carr

Theses and Dissertations

The prevalence of both Type 2 diabetes mellitus (T2DM) and Alzheimer's disease (AD) is increasing worldwide, and the trends are unfortunately expected to continue. AD has recently been tied with mitochondrial dysfunction and insulin resistance, creating a mechanistic tie between AD and T2DM. Unfortunately, insulin resistance is often increased with aging and therefore, all individuals are at risk of brain mitochondrial dysfunction. Without proper mitochondrial function, the brain will degenerate, causing impaired cognitive function and reduced quality of life. The purpose of this study is two-fold: first, to understand the role of ceramides in insulin-induced brain mitochondrial dysfunction, and; second, …

Chemogenetic Stimulation Of Electrically Coupled Midbrain Gaba Neurons In Alcohol Reward And Dependence, Stephanie Suzette Pistorius

Theses and Dissertations

The prevailing view is that enhancement of dopamine (DA) transmission in the mesolimbic system leads to the rewarding properties of alcohol. The mesolimbic DA system, which plays an important role in regulating reward and addiction, consists of DA neurons in the midbrain ventral tegmental area (VTA) that innervate the nucleus accumbens (NAc). It is believed that VTA DA neurons are inhibited by local gamma-aminobutyric acid (GABA) interneurons that express connexin-36 (Cx36) gap junctions (GJs). We have previously demonstrated that blocking Cx36 GJs suppresses electrical coupling between VTA GABA neurons and reduces ethanol intoxication and consumption suggesting that electrical coupling between …

Chemogenetic Stimulation Of Electrically Coupled Midbrain Gaba Neurons In Alcohol Reward And Dependence, Stephanie Suzette Pistorius

Theses and Dissertations

The prevailing view is that enhancement of dopamine (DA) transmission in the mesolimbic system leads to the rewarding properties of alcohol. The mesolimbic DA system, which plays an important role in regulating reward and addiction, consists of DA neurons in the midbrain ventral tegmental area (VTA) that innervate the nucleus accumbens (NAc). It is believed that VTA DA neurons are inhibited by local gamma-aminobutyric acid (GABA) interneurons that express connexin-36 (Cx36) gap junctions (GJs). We have previously demonstrated that blocking Cx36 GJs suppresses electrical coupling between VTA GABA neurons and reduces ethanol intoxication and consumption suggesting that electrical coupling between …

Computational Predictions Of Β-Hairpins Containing Bulky Dehydroamino Acids, David W. Kastner, Ankur Jalan, Steven L. Castle

Library/Life Sciences Undergraduate Poster Competition 2017

Bulky α,β-dehydroamino acids (ΔAAs) can improve the proteolytic stability of peptides that contain them, presumably by altering the shape of the backbone of the peptide and by stabilizing folded states through their rigidifying effect. The stabilizing effects of ΔAAs that contain at least one hydrogen atom at the β-carbon are well-known, but the role of bulky ΔAAs that contain fully substituted β-carbons in the stability of larger peptides is less explored. To better explore the conformational contribution of α,β-dehydroamino acids in β-hairpins we performed NMR-based structural calculations to confirm our experimental observations. We used the simulated annealing program CYANA to …

Lkb1 Regulation Of High-Fat Diet-Induced Adaptation In Mouse Skeletal Muscle, Ting Chen

Theses and Dissertations

Ad libitum high-fat diet (HFD)-induced obesity leads to insulin resistance in skeletal muscle, altered gene expression, and altered growth signaling, all of which contributes to pathological changes in metabolism. Liver kinase B1 (LKB1) is an important metabolism regulator. The purpose of this dissertation was to understand how knocking out LKB1 influences HFD induced adaptations in mouse skeletal muscle. To do so, control and skeletal muscle LKB1 knock-out (LKB1-KO) mice were put on either standard diet (STD) or HFD for 1 week or 14 weeks, or put on the HFD for 14 weeks and then switched to STD for 1 week …

Alterations In Tight Junctional Proteins And Their Effects On Pulmonary Inflammation, Joshua B. Lewis

Theses and Dissertations

The lungs represent one of the earliest interfaces for pathogens and noxious stimuli to interact with the body. As such, careful maintenance of the permeability barrier is vital in providing homeostasis within the lung. Essential to maintaining this barrier is the tight junction, which primarily acts as a paracellular seal and regulator of ionic transport, but also contributes to establishing cell polarity, cell-to-cell integrity, and regulating cell proliferation and differentiation. The loss of these tight junctions has been documented to result in alterations in inflammation, and ultimately the development of many respiratory disorders such as COPD, Asthma, ARDS, and pulmonary …

Serum Comp And The Inflammatory Environment Of The Knee Before And After Exercise-Induced Load, Alyssa Evans, Robert D. Hyldahl, Sarah T. Ridge, Sunku Kwon, Ty J. Hopkins, Eric R. Robinson, Matthew K. Seeley

Biomedical Engineering Western Regional Conference

The purpose of this study was to determine how accurately serum COMP represents inflammatory cytokine levels, within the knee, before and after exercise.

Cytokines included: GM-CSF, IFNa2, IL-10, IL-12p40, IL-13, IL-15, IL-1ra, IL1b, IL1a, IL-4, IL-6, IL-8, IP-10, MCP-1, MIP-1a, MIP-1b and IL-17.