Global ETD Search

581	Purine Nucleoside Mediated Neuroprotection in the 6-Hydroxydopamine Rodent Model of Parkinson's Disease Terpstra, Brian T. 20 April 2011 (has links) No description available. Neurology Parkinson's Disease Inosine Allantoin Uric Acid Oxidative Stress
582	REGULATION OF OXIDATIVE-STRESS-RESPONSIVE GENES: INVOLVEMENT OF CYP1A1 AND RELATIONSHIP WITH GLUTATHIONE AND APOPTOSIS Dieter, Matthew Z. January 2000 (has links) No description available. Oxidative Stress Glutathione Antioxidant Response Element 14COS/14COS Mouse
583	DEVELOPMENT OF NOVEL SYNTHETIC ROUTES TO THE EPOXYKETOOCTADECANOIC ACIDS (EKODES) AND THEIR BIOLOGICAL EVALUATION AS ACTIVATORS OF THE PPAR FAMILY OF NUCLEAR RECEPTORS Eskandari, Roozbeh 27 January 2016 (has links) No description available. Chemistry
584	Novel Cell Killing Mechanism of Hydroxyurea in the Fission Yeast Schizosaccharomyces pombe and Its Implications in Improving Antifungal Therapy Singh, Amanpreet 16 May 2016 (has links) No description available. Biomedical Research
585	Slowly Digesting Starch Attenuates Oxidative Stress in a First Meal but Has No Effect on a Standardized Second Meal Knutson, Michael J. 11 September 2012 (has links) No description available. Nutrition Physiology oxidative stress second meal effect carbohydrates
586	Oxidant-Induced Cell Death Mediated By A Rho Gtpase In <i>Saccharomyces cerevisiae</i> Singh, Komudi 24 December 2008 (has links) No description available. Cellular Biology GTPase oxidative stress antioxidant thioredoxin reductase
587	Chronic Effects of Methylphenidate on Neuronal Viability and Plasticity Oakes, Hannah 01 December 2020 (has links) Methylphenidate (MPH) is the most commonly prescribed drug to treat Attention Deficit Hyperactivity Disorder (ADHD). ADHD is now considered a life-long disorder; therefore, patients take MPH from adolescence into adulthood, highlighting the need for research studying chronic MPH use. MPH increases dopamine and norepinephrine within the synaptic cleft; therefore, chronic use of MPH may lead to changes within important dopaminergic pathways. One pathway, the mesolimbic pathway, includes the hippocampus, an area where adult neurogenesis occurs. We investigated the effects of chronic low and high doses of MPH on neurogenesis and examined levels of a few key proteins linked to cell proliferation in the hippocampus. Low dose MPH appears to increase cell proliferation and cell survival in the hippocampus, and these effects are accompanied by increases in vascular endothelial growth factor (VEGF), the receptor for brain-derived neurotrophic factor (TrkB), and beta-catenin. While high dose MPH may initially increase neuronal proliferation, newly-generated neurons are unable to survive long-term, and decreases in VEGF, TrkB, and beta-catenin are observed with chronic high dose MPH. Another major dopaminergic pathway is the nigrostriatal pathway, which is involved in motor control and degenerates with Parkinson’s disease. Chronic use of MPH appears to sensitize dopaminergic neurons within this pathway to the Parkinsonian toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), but the cause of this sensitization is unknown. The autooxidation of excess dopamine forms dopamine-quinones that lead to free radical production, but the antioxidant, glutathione, can protect neurons. However, we showed that chronic MPH increases dopamine-quinone formation and causes a subsequent glutathione depletion within the striatum. Therefore, oxidative stress may sensitize dopamine neurons to MPTP. We also assessed the vulnerability of dopaminergic neurons in the nigrostriatal pathway to MPTP after chronic MPH in females. Interestingly, proestrus (high estrogen) females were more sensitive to MPTP than anestrus (low estrogen) females. Similar to males, chronic MPH caused a depletion in glutathione that was further decreased following MPTP exposure. However, chronic MPH did not significantly alter dopaminergic neuronal numbers or quinone formation in females. These studies highlight some of the potential effects of chronic MPH use. Methylphenidate Neurogenesis Hippocampus Oxidative Stress Striatum MPTP Medical Pharmacology Neurosciences
588	Race-Dependent Modulation of Endothelial Cell Responses to Shear Stress: Implications for Vascular Health in African Americans Feairheller, Deborah Lynn January 2011 (has links) It is known that African American ethnicity is an independent risk factor for exaggerated oxidative stress which is intricately intertwined with inflammation, hypertension (HT), and cardiovascular disease (CVD). The purpose of this dissertation study was to examine the racial differences that exist between African Americans and Caucasians in oxidative stress levels at the molecular level using an in vitro model of Human Umbilical Vein Endothelial Cells (HUVECs). African American HUVECs were found to have significantly higher baseline levels of oxidative stress in vitro compared to Caucasian HUVECs. In order to establish proof of concept, three preliminary studies were conducted. The first preliminary study, an acute exercise protocol was conducted in young healthy adults in order to measure plasma oxidative stress markers in response to a single moderate intensity treadmill exercise bout. In this study, it was found that the treadmill exercise did not elicit a race-dependent responses, but that African American adults had higher level of oxidative stress at all sample times when compared to the Caucasians. A second preliminary study was conducted using a parallel cell culture design to measure basal oxidative stress levels in African American and Caucasian HUVECs without stimulation. These data were shown in relation to the plasma levels of oxidative stress in resting African American and Caucasian adults. This was done in order to show that the common oxidative stress markers measured in human plasma can also be measured in cell culture supernatant and lysate. It was found that both African American adults and HUVECs had heightened oxidative stress and inflammatory markers when compared to their Caucasian counterparts. The third preliminary study was conducted using tumor Necrosis Factor-#945; (TNF-#945;) as an inflammatory stimulant and measuring the oxidative stress response in both African American and Caucasian HUVECs. This was done in order to show that cells of different race respond differently to stimuli. It was found that the response to TNF-α was blunted in African American HUVECs. The final step was to use laminar shear stress (LSS) as an exercise mimetic in order to examine whether HUVECs from different race respond differently. HUVECs from both race were harvested under static condition (no LSS), with low LSS at 5 dyne/cm2, and with a moderate level of LSS at 20 dyne/cm2. It was found that despite the fact that African American HUVECs had higher levels of oxidative stress under static conditions, when LSS was applied, protein expressions and oxidative stress biomarkers adjusted to levels that were similar to the Caucasian HUVEC adaptations to LSS. From this, it appears that African American HUVECs have a larger response to LSS stimulus indicating that aerobic exercise prescriptions may be valuable for this population since the potential exists for large improvements in oxidative stress levels for this population. / Kinesiology Cellular Biology Exercise Huvec Nadph Oxidase Oxidative Stress Shear Stress
589	DNA Mutation Frequency in Vitamin C Deficient Mice Using Big Blue Mice Shaban, Thuraya January 2007 (has links) <p> Gulonolactone oxidase enzyme is important in the final stage of ascorbic acid biosynthesis. Gulonolactone oxidase is encoded by the Gulo gene. Most animals, such as mice, have the Gulo gene, through which they produce ascorbic acid from glucose, while humans, guinea pigs and primate animals carry a non functional Gulo gene. Ascorbic acid plays an important role in many biological processes. However, it is primarily essential as an antioxidant. Ascorbic acid protects genomic DNA from free radicals resulting from oxidative stress that might otherwise cause a variety of diseases such as cancer or heart disease. This thesis focuses on investigating the role of ascorbic acid in the elimination of oxidative stress-induced mutagenesis.</p> <p> To investigate how vitamin C decreases level of the DNA mutation frequency and protects DNA from free radicals, knockout Gulo and Big Blue mice were used as models to determine the ability of vitamin C to minimize oxidative stress. The Big Blue mice carry the cll gene which is a reporter gene through which DNA mutation rate can be detected in any part of body. Therefore, we generated double transgenic mice which are Gulo deficient or a Big Blue background. Homozygote Gulo cll positive (Gulo-/- cll+) were obtained by crossing heterozygote Gulo cll Positive and homozygote Gulo mice. Five Gulo-/-cll mice were placed under vitamin C deficient diet and another five were supplemented with vitamin C. DNA mutation frequency was analyzed in the two groups. There were no significant differences in mutation frequencies between homozygote Gulo-/- cll mice on vitamin C deficient diet and homozygote Gulo-/- cll+ mice fed vitamin C rich diet. One treatment mouse showed increased frequency in mutations but a second did not. Further tests can be done on other treated knockout mice to identify the mutation types generated by oxidative stress in the absence of vitamin C.</p> / Thesis / Master of Science (MSc)
590	Oxidative and nitrative stress biomarkers in amniotic fluid and their association with fetal growth and pregnancy outcomes El-Halabi, Dima. January 2007 (has links) No description available. Fetus -- Growth. Oxidative stress. Birth weight. Amniotic liquid -- Analysis.

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