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Retinopathy of Prematurity: An Oxidative Stress Neonatal DiseaseStone, William L., Shah, Darshan, Hollinger, Shawn M. 01 January 2016 (has links)
Proteomics is the global study of proteins in an organism or a tissue/fluid and is clinically relevant since most disease states are accompanied by specific alterations in an organism's proteome. This review focuses on the application of proteomics to neonatology with particular emphasis on retinopathy of prematurity (ROP), which is a disease in which oxidative stress plays a key pathophysiological role. Oxidative stress is a physiologically relevant redox imbalance caused by an excess of reactive oxygen (ROS) or reactive nitrogen oxide species (RNOS). A major conclusion of this review is that proteomics may be the optimal technology for studying neonatal diseases such as ROP, particularly in the setting of a neonatal intensive care unit (NICU). Proteomics has already identified a number of ROP serum biomarkers. This review will also suggest novel therapeutic approaches to ROP and other neonatal oxidative stress diseases (NOSDs) based on a systems medicine approach.
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RNAi Knockdown of Par-4 Inhibits Neurosynaptic Degeneration in ALS-Linked MiceXie, Jun, Awad, Keytam S., Guo, Qing 01 January 2005 (has links)
Evidence from human amyotrophic lateral sclerosis (ALS) patients and ALS-linked Cu/Zn superoxide dismutase (Cu/Zn-SOD) transgenic mice bearing the mutation of glycine to alanine at position 93 (G93A) suggests that the pro-apoptotic protein prostate apoptosis response-4 (Par-4) might be a critical link in the chain of events leading to motor neuron degeneration. We now report that Par-4 is enriched in synaptosomes and post-synaptic density from the ventral horn of the spinal cord. Levels of Par-4 in synaptic compartments increased significantly during rapid and slow declining stages of muscle strength in hSOD1 G93A mutant mice. In the pre-muscle weakness stage, hSOD1 G93A mutation sensitized synaptosomes from the ventral horn of the spinal cord to increased levels of Par-4 expression following excitotoxic and apoptotic insults. In ventral spinal synaptosomes, Par-4-mediated production of pro-apoptotic cytosolic factor(s) was significantly enhanced by the hSOD1 G93A mutation. RNA interference (RNAi) knockdown of Par-4 inhibited mitochondrial dysfunction and caspase-3 activation induced by G93A mutation in synaptosomes from the ventral horn of the spinal cord, and protected spinal motor neurons from apoptosis. These results identify the synapse as a crucial cellular site for the cell death promoting actions of Par-4 in motor neurons, and suggest that targeted inhibition of Par-4 by RNAi may prove to be a neuroprotective strategy for motor neuron degeneration.
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Development of solution NMR method for observation and analysis of proteins inside cells / 核磁気共鳴法による細胞内タンパク質の観測及び手法開発Murayama, Shuuhei 23 March 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19003号 / 工博第4045号 / 新制||工||1622(附属図書館) / 31954 / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 白川 昌宏, 教授 佐藤 啓文, 教授 梶 弘典 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM
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NEUROPROTECTIVE STUDIES ON THE MPTP AND SOD1 MOUSE MODELS OF NEURODEGENERATIVE DISEASESFontanilla, Christine V. 29 February 2012 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / The main, underlying cause of neurodegenerative disease is the progressive loss of neuronal structure or function, whereby central and/or peripheral nervous system circuitry is severely and irreversibly damaged, resulting in the manifestation of clinical symptoms and signs. Neurodegenerative research has revealed many similarities among these diseases: although their clinical presentation and outcomes may differ, many parallels in their pathological mechanisms can be found. Unraveling these relationships and similarities could provide the potential for the discovery of therapeutic advances such that a treatment for one neurologic disease may also be effective for several other neurodegenerative disorders. There is growing awareness that due to the complexity of pathophysiological processes in human disease, specifically targeting or inactivating a single degenerative process or a discrete cellular molecular pathway may be ineffective in the treatment of these multifaceted disorders. Rather, potential therapeutics with a multi-target approach may be required to successfully and effectively control disease progression. Recent advances in neurodegenerative research involve the creation of animal disease models that closely mimic their human counterparts. The use of both toxin- exposure and genetic animal models in combination may give insight into the underlying pathologic mechanisms of neurodegenerative disorders (target identification) leading to the development and screening of prospective treatments and determination of their neuroprotective mechanism (target validation). Taken together, ideal candidates for the treatment of neurodegenerative disease would need to exert their neuroprotective effect on multiple pathological pathways. Previous studies from this laboratory and collaborators have shown that the naturally-occurring compound, caffeic acid phenethyl ester (CAPE), is efficacious for the treatment against neurodegeneration. Because of its versatile abilities, CAPE was chosen for this study as this compound may be able to target the pathogenic pathways shared by two different animal models of neurodegeneration and may exhibit neuroprotection. In addition, adipose-derived stem cell conditioned media (ASC-CM), a biologically-derived reagent containing a multitude of neuroprotective and neurotrophic factors, was selected as ASC-CM has been previously shown to be neuroprotective by using both animal and cell culture models of neurodegeneration.
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Synthesis and Characterization of Novel Polyethers and Polypeptides for Use in Biomedicine and Magnetic Resonance ImagingLiang, Jue 24 January 2014 (has links)
Copolymers that contain terminal or pendent functional groups have great potential in the biomedical area due to their biocompatibility and tunable properties.1-3 In this research, two vinyl functional epoxides, vinyldimethylsilylpropyl glycidyl ether (VSiGE) and ethoxy vinyl glycidyl ether (EVGE), were synthesized. These heterobifunctional monomers were polymerizable via the epoxide groups and can be functionalized via thiol-ene reactions through the pendent vinyl groups. A series of amphiphilic block copolyethers based on poly(ethylene oxide) and poly(1,2-butylene oxide) that incorporate VSiGE or EVGE were synthesized and characterized. The vinyl ether and vinyl silane functional groups were functionalized after polymerization and the functional polymers formed pH-sensitive micelles in aqueous medium. The copolyethers were loaded with ritonavir yielding well-controlled nanoparticles.
Poly(L-glutamic acid) is comprised of naturally occurring L-glutamic acid repeating units that are linked together with amide bonds. In this research, we have prepared magnetic block ionomer complexes based on poly(ethylene oxide)-b-poly(L-glutamic acid) copolymers. This is of interest due to the biocompatibility and biodegradable nature of the poly(L-glutamic acid) component of the backbone. Allyl- and thiol-functional poly(ethylene oxide)-b-poly(L-glutamic acid) copolymers were also synthesized and coated onto the surface of iron oxide nanoparticles. Allyl- and thiol-tipped single particles were reacted with each other to prepare magnetic clusters. Transverse relaxivities of the clusters were found to be significantly higher than that of single particles.
One major problem in commercial development of therapeutic proteins is their poor transport across cellular membranes and biological barriers such as the blood-brain barrier (BBB). One solution to this problem is to modify proteins with amphiphilic block copolymers such as PEO-b-PPO-b-PEO, Pluronics®. However, it isn't possible to independently tune the two PEO block lengths with commercial Pluronics® since a difunctional PPO macroinitator is utilized to grow both PEO blocks simultaneously (HO-EOn-b-POm-b-EOn-OH). Another challenge is introducing functional group which allows post-polymerization functionalization for specific applications. In this study, a series of heterobifunctional asymmetric amino-EOn1-b-POm-b-EOn2-OH block copolymers (APs) with different molecular weights of each block were synthesized and the amino terminal group was conjugated to an antioxidant enzyme, Cu/Zn superoxide dismutase (SOD1). The conjugates were characterized and their cellular uptake was investigated. / Ph. D.
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Le rôle de l'inflammation et des microglies dans la sclérose latérale amyotrophique = : The role of inflammation andm microglia in amyotrophic lateral sclerosis / Role of inflammation and microglia in amyotrophic lateral sclerosisGowing, Geneviève 16 April 2018 (has links)
La sclérose latérale amyotrophique (SLA) est une maladie mortelle caractérisée par la dégénénérescence des neurones moteurs. La majorité des cas de SLA ont une origine sporadique (SLAs) et les autres sont des cas familiaux (SLAf) étant hérités génétiquement. Une portion des cas de SLAf est associée à des mutations dans le gène codant pour la Cu/Zn superoxyde dismutase (SOD1). La microgliose est une caractéristique pathologique observée dans les tissus des patients atteints de maladies du système nerveux incluant la SLA. La microgliose et la réponse inflammatoire dans le SNC peuvent avoir des effets bénéfiques ou néfastes. Ainsi, l'activation microgliale dans la pathologie de la SLA pourrait promouvoir la survie neuronale mais aussi causer ou exacerber la dégénérescence des motoneurones. Pour déterminer le rôle des microglies et des médiateurs inflammatoires dans la dégénérescence des motoneurones causée par des mutations dans la SOD1, nous avons utilisé les souris 5001 mutantes, modèles de la SLA. Dans un premier temps (chapitre 2), afin de déterminer le rôle de la cytokine TNF-a dans la SLA, nous avons généré des souris exprimant les mutants 5001 G37R ou 5001 G93A dans un contexte où l'expression du TNF-a a été supprimée (souris knock-out). Dans une seconde approche (chapitre 3), par cytométrie de flux, nous avons caractérisé les populations de cellules microgliales dans la moelle épinière des souris transgéniques mutantes 5001 G93A. Dans cette étude, nous avons démontré que l'augmentation du nombre de cellules microgliales dans ce modèle murin est largement attribuable à la prolifération de celles-ci. Subséquemment, nous avons utilisé des souris transgéniques CD11b-TKmut-30, chez lesquelles les microglies en prolifération peuvent être sélectivement éliminées, afin de déterminer le rôle des microglies en prolifération dans la SLA causée par des mutations dans la SOD1. Dans une dernière étude, nous avons tenté d'induire un phénotype neuroprotecteur aux cellules microgliales via l'administration de la cytokine macrophage colony stimulating factor (M-CSF) chez des souris transgéniques 5001 G37R et chez des souris chimériques 5001 G37R ayant subi une transplantation de moelle osseuse sauvage.
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Mécanismes de l'hypertension artérielle causée par le traitement à l'érythropoïétine : rôle du stress oxydatifRancourt, Marie-Eve 13 April 2018 (has links)
La correction de l'anémie par l'érythropoïétine recombinante humaine (rhEPO) en insuffisance rénale chronique (IRC) s'accompagne d'une élévation de la pression artérielle. Les mécanismes presseurs de l'rhEPO en IRC sont encore mal définis. Des études récentes indiquent que le traitement à l'rhEPO accentue la dysfonction endothéliale déjà présente en urémie. On note une élévation de la production endothéliale d'endothéline-1 (ET-1) et une diminution de la relâche de monoxyde d'azote (NO). Ces changements pourraient aussi être associés à une augmentation de la formation d'espèces réactives de l'oxygène (ROS) qui peut accentuer ces changements. Notre étude a pour objectif d'évaluer l'effet d'un antioxydant, le tempol (un mimétique de la superoxide dismutase (SOD)), sur la pression artérielle et la progression de l'insuffisance rénale chez le rat urémique traité à l'rhEPO. Pour ce faire, des rats Wistar rendus urémiques par néphrectomie subtotale 5/6 sont divisés en quatre goupes : urémique (Nx) + véhicule; Nx + rhEPO; Nx + tempol (lmmol/1/jour dans l'eau à boire); et Nx + rhEPO + tempol, pendant quatre semaines. Les rats développent de l'urémie, de l'anémie et de l'hypertension artérielle. Ces derniers effets sont associés à une élévation des concentrations d'ET-1 et de la production de fanion superoxyde. Le traitement à l'rhEPO chez les rats urémiques corrige l'anémie, mais aggrave l'hypertension artérielle et l'insuffisance rénale de même que l'augmentation d'ET-1 et de fanion superoxyde. Le traitement au tempol, chez les deux groupes urémiques, atténue le développement de l'hypertension et la progression des dommages histologiques rénaux qui sont d'ailleurs associés à une réduction des concentrations ET-1 plasmatique, urinaire et rénale ainsi qu'une diminution de la production de fanion superoxyde. En conclusion, le développement de l'hypertension et la progression de l'insuffisance rénale chez le rat urémique sont causés, en partie, par la présence d'un stress oxydatif. Le traitement à l'rhEPO accentue d'avantage le stress oxydatif, et ce dernier serait impliqué dans l'aggravation de l'hypertension et de la progression de l'insuffisance rénale.
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Étude des superoxyde dismutases (SOD) dans l'oviducte bovinRoy, Monica 13 April 2018 (has links)
L'oviducte est important dans le transport, la maturation et la fécondation des gamètes mâles et femelles. Il est connu qu'un équilibre entre les antioxydants et les dérivés actifs de l'oxygène (ROS) est essentiel à la réalisation de ces processus reproducteurs. Cependant, peu de connaissances sont acquises sur les antioxydants présents dans l'oviducte. Les superoxyde dismutases, soit la forme cytosolique (Cu, ZnSOD), la forme mitochondriale (MnSOD) et la forme extracellulaire (EC-SOD) sont des antioxydants enzymatiques qui neutralisent l'anion superoxyde (O2"), un ROS. Mon hypothèse est que les SOD sont régulées de façon précise dans l'oviducte ainsi que durant le cycle oestral bovin pour assurer le succès reproducteur. L'immunobuvardage et l'immunohistochimie ont servi à caractériser les formes protéiques de la MnSOD et de la Cu, ZnSOD. Nos résultats montrent que ces deux formes de SOD ont des patrons d'expression qui varient de façon spatio-temporelle dans l'oviducte bovin. Cela suggère que la forme cytosolique (Cu, ZnSOD) et mitochondriale (MnSOD) de la superoxyde dismutase jouent des rôles essentiels dans l'oviducte et fort probablement dans le processus de la maturation finale des gamètes mâles ainsi que dans la fécondation.
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Asociace vybraných polymorfismů genů oxidativního stresu s diabetes mellitus 1. a 2. typu / Association of genetic polymorphism of oxidative stress with diabetes mellitus type 1 and 2Kloboučková, Lucie January 2015 (has links)
Diabetes mellitus is a chronic autoimmune disease in which the immune system attacks the insulin-secreting ß-cells in the pancreas. It leads to an absolute deficiency of insulin. Chronic hyperglycemia induces increased production of reactive oxygen species, which leads to a decrease of natural antioxidant level in blood, and it contributes to genesis of diabetes complications (e.g. vascular or pulmonic). Moreover, the oxidative stress results in onset of pancreas inflammations and the damage of its ß-cells. Aims: Our aim was to assess whether or not certain genotypes or their combinations occur with higher frequency among groups of patients of type 1 diabetes (T1D) and type 2 diabetes and in a control group of healthy individuals. Methods: The study included groups of 40 T1D patients, 40 T2D patients and 45 healthy individuals. The polymorphisms of genes involved in the oxidative stress response were analyzedby using RFLP, PCR with TaqMan probes and allele specific PCR. The target genes involved superoxide dismutase SOD1 and SOD3 genes; glutathione-S-transferase GSTM1, GSTT1, GSTP1 genes; glutathioneperoxidase gene GPX1 and catalase gene CAT. The levels of plasma malondialdehyde were measured by using liquid chromatography. Results: Statistically significant differences were found in the...
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Die Bedeutung der toxischen Sauerstoffradikale beim Ischämie/Reperfusionsschaden nach Lebertransplantation in der RatteLehmann, Thorsten 04 November 2004 (has links)
Einleitung: Der Ischämie/Reperfusionsschaden (I/R) ist die wesentliche Ursache des frühen Transplantatversagens nach Lebertransplantation (LTx). Fettlebern sind dabei besonders betroffen. Freie Sauerstoffradikale spielen bei der Pathogenese eine zentrale Rolle. Die Morphologie der so versagenden Transplantatleber ist charakterisiert durch Entzündung, Nekrose und Apoptose. Endogene Radikalfänger wie die Superoxiddismutase (SOD), nicht aber exogen zugefuhrte, bauen freie Radikale ab. Das Ziel der vorgelegten Studien war es, im Modell der LTx von gesunden und verfetteten Lebern in der Ratte mittels adenoviralem Gentransfer von SOD den I/R zu vermindern, die Überlebensrate zu erhöhen und zugrunde liegende Mechanismen aufzuzeigen. Methoden: Bei Experimenten mit verfetteten Lebern wurde eine ausgeprägte Steatose der Spenderlebern durch Füttern einer Ethanol- und fettreichen Diät (Lieber-DiCarli) erzeugt. Explantierte Lebern wurden für 24 h konserviert und orthotop transplantiert. Einigen Spendern wurde 72 h vor Organentnahme Cu/Zn-SOD enthaltendes Adenovirus (Ad.SOD1) i.v. appliziert. Als Kontrollen dienten Fettlebern, welche mit dem Gen von b-Galaktosidase (Ad.lacZ) transfiziert wurden, oder aber gesunde Lebern. Untersuchungsparameter waren neben Transfektionsparametern die Transaminasen, histopathologische Morphologie, Überlebensraten, sowie die Aktivierung von Transkriptionsfaktoren und deren Kinasen. Freie Radikale wurden in der Galle mittels Elektronenspin-Resonanz-Spektroskopie nachgewiesen. In weiteren Experimenten wurden auch die mitochondriale und die extrazelluläre Isoform hinsichtlich ihrer protektiven Wirkung untersucht. Ebenso wurde die Auswirkung der freien Radikale auf die Regeneration nach Teillebertransplantation untersucht. Ergebnisse: 72 h nach Injektion von Ad.lacZ exprimierten etwa 80% aller Hepatozyten die b-Galaktosidase. In der Ad.SOD1 Gruppe war die Genexpression 3-fach, die Aktivität 12-fach erhöht. Im Vergleich zu den unbehandelten oder Ad.lacZ infizierten Empfängern von Fettlebern, stiegen die Transaminasen um etwa 50% bei der Ad.SOD1 Gruppe an. Alle Empfänger von Ad-SOD1 behandelten Fettlebern überlebten, hingegen nur 10% der Ad.lacZ Gruppe. Etwa 35% der Hepatozyten von Fettlebern waren nekrotisch, jedoch nur 10% in Ad.SOD1-behandelten Fettlebern. Ad.SOD1 halbierte die Freisetzung von freien Radikalen und minimierte die Aktivierung von NF-kB. Die Aktivität der Kinase IKK wurde nicht reduziert, der Anstieg der Aktivität von JNK jedoch komplett inhibiert. Die Freisetzung von TNFa wurde nicht beeinflußt. Als wirksamste Isoform hat sich die zytosolische erwiesen, die extrazelluläre ist nach Überexpression ohne protektive Wirkung. Die Leberregeneration läßt sich nach Transplantation durch SOD-Überexpression massiv anregen und das Organversagen bei kritischer Leberzellmasse vermeiden. Schlußfolgerung: Diese Studie zeigt erstmals die Wirksamkeit einer neuen Strategie zur Organprotektion fur gesunde Lebern und Fettlebern. Die Eliminierung von Sauerstoffradikalen spielt bei der Pathogenese eine Schlüsselrolle. Der adenoviraler Gentransfer von SOD stellt ein gangbares therapeutisches Verfahren für die Zukunft dar, um auch marginale, verfettete Organe vor reperfusionsbedingtem Versagen zu schützen. Dabei ist die zytosolische SOD am effektivsten. Auch bei der Teilleber-Transplantation ist diese Therapieform erfolgversprechend. / Background: Oxygen-derived free radicals play a central role in pathomechanisms of reperfusion injury after organ transplantation, and fatty livers are particularly susceptible. Endogenous radical scavenger systems such as superoxide dismutase (SOD) degrade toxic radicals; however, SOD is degraded rapidly when given exogenously. Therefore, the hypothesis that treatment of the donor liver with an adenoviral vector encoding the Cu/Zn-SOD gene (Ad.SOD1), or the Mn-SOD gene or the ec-SOD gene would lead to permanent gene expression and therefore protect the organ against injury and increase survival in a rat model of liver transplantation including fatty livers was tested. Transplantation of reduced-size livers may lead to a hypermetabolic state and increased production of oxygen radicals. Since oxygen radicals may cause liver injury and impair liver regeneration, we tested the hypothesis that overexpression of superoxide dismutase (SOD) in reduced-size livers (RSL) would accelerate regeneration and reduce injury in a rat model of transplantation of RSL. Methods: Donors received chow diet (untreated), high-fat diet, or ethanol-containing high-fat diet. Some donors were infected with Ad-SOD1, while untreated grafts and livers infected with the indicator gene lacZ encoding bacterial b-galactosidase (Ad.lacZ) served as controls. Some livers were harvested 72 hours later, reduced to 45% of weight, and transplanted. After liver transplantation, SOD activity and protein expression in liver, survival, histopathology, release of transaminases, free radical adducts in bile and activation of NF-kB, IkB kinase (IKK), Jun-N-terminal kinase (JNK) and TNFa were evaluated. Moreover, in transplanted split-livers regeneration was evaluated by Brdu-staining, and measurement of cyclinD1 and p21. Results: Approximately 80% of hepatocytes expressed b-galactosidase 72h after injection of Ad-lacZ. Moreover, SOD1 gene expression and activity were increased 3- and 10-fold in the Ad-SOD1 group, respectively. Following transplantation, 20-25% of rats treated with Ad.lacZ survived. In contrast, all SOD1-treated animals survived. Transaminases measured 8h after transplantation in Ad-SOD1 rats were only 40% of those in controls which increased 40-fold above normal values. Approximately 20% of hepatocytes in untreated and Ad.lacZ-infected organs were necrotic 8h after reperfusion, whereas necrosis was nearly undetectable in grafts from rats treated with Ad.SOD1. Free radical adducts were increased 2-fold in the ethanol group compared to untreated controls. Ad.SOD1 blunted this increase and reduced the activation of NF-kB, which was similar in untreated and ethanol-treated groups. Ad.SOD1 did not affect activity of IKK, but JNK activity was blunted. Release of TNFa was not affected. In recipients of Ad.SOD1-RSL survival was dramatically increased (100% vs. 20% in Ad.lacZ-RSL), and peak levels of AST/ALT and bilirubin levels were reduced by 75% and 87.5%, respectively (p
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