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301	Mecanismos celulares envolvidos no relaxamento da aorta de ratos induzidos pelo composto doador de óxido nítrico cis-[Ru(bpy)2(py)(NO2)](PF6)(RuBPY) / Cellular mechanisms involved in the rat aorta relaxation induced by the nitric oxide donor cis-[Ru(bpy)2(py)(NO2)](PF6) (RuBPY). Amanda de Carvalho Pereira 31 August 2011 (has links) O óxido nítrico (NO) é o principal agente vasodilatador endógeno que regula o tônus e a homeostase vascular. Dentre os compostos doadores de NO, estão os complexos nitrosilos de rutênio. No presente estudo, o doador de NO estudado, RuBPY, não apresenta citotoxicidade para células do músculo liso vascular (MLV) ao contrário do NPS. O RuBPY apresenta eficácia semelhante ao NPS em relaxar o MLV de aorta de ratos, porém o NPS é mais potente. Ambos compostos liberam NO do tipo radicalar (NO) no meio intracelular, mas o NPS libera também íon nitroxil (NO-). O sequestrador da espécie NO (hidroxocobalamina) reduziu mais a resposta relaxante estimulada com RuBPY do que com o NPS. Nenhum dos dois compostos precisa ser reduzido quimicamente para liberar NO, uma vez que houve relaxamento quando utilizamos alta concentração de KCl como agente contrátil. Porém, este relaxamento foi inibido, o que mostra a importância dos canais para K+ no relaxamento induzido pelos doadores de NO. O bloqueador não seletivo de canais para K+ (TEA), inibiu somente o relaxamento ao RuBPY. A via NO-GCs-GK é ativada por ambos doadores de NO, para induzir relaxamento. A inibição da degradação do GMPc potencializou o relaxamento estimulado com RuBPY e NPS. O armazenamento de Ca+2 no retículo sarcoplasmático (RS) via ativação da SERCA é importante somente para o relaxamento induzido com RuBPY. O composto RuBPY inibiu a resposta contrátil estimulada com fenilefrina devido ao armazenamento de Ca+2 no RS e também por inibir o influxo capacitivo de Ca+2. A presença do endotélio vascular não alterou o relaxamento induzido pelo RuBPY, porém potencializou o relaxamento induzido pelo NPS. A análise da liberação de NO por amperometria demonstrou que o RuBPY libera NO somente em presença do tecido aórtico de ratos. Portanto, não houve liberação espontânea de NO, por fotólise pela luz visível ou por redução química. É necessária a presença de heme-proteínas como a guanilil-ciclase solúvel (GCs) inibida pelo ODQ, para haver a conversão do nitrito presente no RuBPY, a NO. Pela quantificação da fluorescência emitida pela sonda DAF-2DA, RuBPY liberou cerca de 3,5 vezes mais NO do que o NPS. Pela medida do potencial de membrana, demonstramos que o RuBPY induz hiperpolarização de membrana de células isoladas do MLV da aorta de rato. RuBPY tem efeito hipotensor dose-dependente, em ratos hipertensos renais, o que não ocorre em animais normotensos. A redução da pressão arterial em ratos hipertensos é maior do que nos normotensos. Em estudos iniciais de farmacocinética, verificamos que o composto RuBPY é absorvido por via oral e é distribuído entre alguns tecidos após ser administrado aos ratos, por gavagem. / Nitric oxide (NO) is the main endogenous vasodilator agent that regulates vascular tone. Among the compounds which are able of releasing NO, are the nitrosyl ruthenium complexes. The NO donor studied, RuBPY, does not present cytotoxicity in smooth muscle cells (SMC), in contrast to SNP. RuBPY has similar efficacy to SNP in inducing rat aorta relaxation, although SNP is more potent. Both compounds release intracellular radicalar NO (NO), and SNP also release ion nitroxyl (NO-). The NO scavenger (hydroxocobalamine) had greater effect on the relaxation induced by RuBPY than by SNP. Both compounds do not need to be chemically reduced to release NO, as demonstrated in aorta relaxation after pre-contraction with high concentrations of KCl. However, this relaxation was impaired, showing the importance of K+ channels to induce relaxation by NO released from these compounds. By using non-selective blocker for K+ channels (TEA), only the relaxation induced by RuBPY was inhibited. The NO-sGC-GK pathway is activated by NO donors to induce relaxation. Inhibition of cGMP degradation, potentiated the effect of RuBPY and SNP. Storage of Ca+2 in the sarcoplasmic reticulum (SR) via activation of SERCA is important only for the relaxation induced by RuBPY. The contractile response induced by phenylephrine was inhibited by RuBPY due to the storage of Ca+2 in RS and also by inhibiting the capacitive influx of Ca+2. The presence of endothelium had no effect on the relaxation induced by RuBPY, but it potentiated the relaxation induced by SNP. RuBPY released NO only in the presence of the rat aorta. The complex RuBPY did not spontaneously release NO, by photolysis by visible light, or by chemical reduction. RuBPY requires the presence of heme-protein such as guanylyl-cyclase, inhibited by ODQ, to convert nitrite to NO. The amount of NO released from RuBPY was about 3.5 times greater than that released from SNP. RuBPY induced membrane hyperpolarization of SMC. RuBPY has hypotensive effect in renal hypertensive rats in a dose-dependent way, which does not occur in normotensive rats. The decreased of blood pressure in hypertensive rats was greater than in normotensive rats. Initial studies of pharmacokinetics demonstrated that RuBPY is orally absorbed and it is also distributed in some tissues after being administered by gavage to rats. aorta doador de óxido nítrico nitrito óxido nítrico vasodilatação aorta nitric oxide nitric oxide donor nitrite vasodilatation
302	Redox Regulation of Ischemic Preconditioning Is Mediated by the Differential Activation of Caveolins and Their Association With ENOS and GLUT-4 Koneru, Srikanth, Penumathsa, Suresh Varma, Thirunavukkarasu, Mahesh, Samuel, Samson Mathews, Zhan, Lijun, Han, Zhihua, Maulik, Gautam, Das, Dipak K., Maulik, Nilanjana 01 January 2007 (has links) Reactive oxygen species (ROS) generated during ischemia-reperfusion (I/R) enhance myocardial injury, but brief periods of myocardial ischemia followed by reperfusion [ischemic preconditioning (IP)] induce cardioprotection. Ischemia is reported to stimulate glucose uptake through the translocation of GLUT-4 from the intracellular vesicles to the sarcolemma. In the present study we demonstrated involvement of ROS in IP-mediated GLUT-4 translocation along with increased expression of caveolin (Cav)-3, phospho (p)-endothelial nitric oxide synthase (eNOS), p-Akt, and decreased expression of Cav-1. The rats were divided into the following groups: 1) control sham, 2) N-acetyl-L-cysteine (NAC, free radical scavenger) sham (NS), 3) I/R, 4) IP + I/R (IP), and 5) NAC + IP (IPN). IP was performed by four cycles of 4 min of ischemia and 4 min of reperfusion followed by 30 min of ischemia and 3, 24, 48 h of reperfusion, depending on the protocol. Increased mRNA expression of GLUT-4 and Cav-3 was observed after 3 h of reperfusion in the IP group compared with other groups. IP increased expression of GLUT-4, Cav-3, and p-AKT and p-eNOS compared with I/R. Coimmunoprecipitation demonstrated decreased association of Cav-1/eNOS in the IP group compared with the I/R group. Significant GLUT-4 and Cav-3 association was also observed in the IP group. This association was disrupted when NAC was used in conjunction with IP. It clearly documents a significant role of ROS signaling in Akt/eNOS/Cav-3-mediated GLUT-4 translocation and association in IP myocardium. In conclusion, we demonstrated a novel redox mechanism in IP-induced eNOS and GLUT-4 translocation and the role of caveolar paradox in making the heart euglycemic during the process of ischemia, leading to myocardial protection in a clinically relevant rat ischemic model. Akt Caveolin-1 Caveolin-3 endothelial nitric oxide synthase glucose transporter 4 nitric oxide redox signaling
303	Kinetic Study of the Reactions of Oxygen Atoms with Nitric Oxide and Silane Taylor, Craig A. (Craig Allan) 08 1900 (has links) The rate constant for the reactions of oxygen atoms with nitric oxide and silane were determined using a discharge flow apparatus. A microwave discharge through O2N2 and Ar was used to produce oxygen atoms. The rate constant for the reaction O + NO + Ar was determined to be (7.0+0.4) x 10^32 cm^6 s^-1 and is in good agreement with previous measurements. Modeling of the O +SiH₄ reaction was performed to determine the correction to the rate constant due to secondary reactions. The rate constant for the reaction O + SiH₄ was determined to be (3.3 +/- 0.3) x 10⁻¹³ cm³ s⁻¹ and is in good agreement with previous measurements. Previous literature, thermochemistry, and spin conservation were used to determine a probable mechanism for the O + SiH₄ reaction. chemical kinetics oxygen nitric oxide silane Chemical kinetics. Oxygen. Nitric oxide. Silane.
304	Nitric Oxide Synthase in Confined Environments: Detection and Quantification of Nitric Oxide Released From Cells and Modified Liposomes Using a Sensitive Metal Catalyst-PEDOT Modified Carbon Fiber Electrode Perera, Reshani H. January 2009 (has links) No description available. Chemistry Nitric Oxide nitric oxide synthase liposome microsensor electrocatalysis NIH/3T3 HUVEC HEK LPS
305	Nitroxidative Stress Induced Neurodegeneration In Intracerebral Hemorrhagic Stroke-a Nanomedical Approach Madajka, Maria H. January 2007 (has links) No description available. Intracerebral Hemorrhage Stroke Nitric Oxide Synthase Nitric Oxide Superoxide Peroxynitrite L-arginine
306	Nitric oxide formation during cortical spreading depression is critical for rapid subsequent recovery of ionic homeostasis Urenjak, Jutta A., Obrenovitch, Tihomir P., Wang, M. 2009 July 1927 (has links) No / Cortical spreading depression (CSD) is a temporary disruption of local ionic homeostasis that propagates slowly across the cerebral cortex. Cortical spreading depression promotes lesion progression in experimental stroke, and may contribute to the initiation of migraine attacks. The purpose of this study was to investigate the roles of the marked increase of nitric oxide (NO) formation that occurs with CSD. Microdialysis electrodes were implanted in the cortex of anesthetized rats to perform the following operations within the same region: (1) elicitation of CSD by perfusion of high K+ medium; (2) recording of CSD elicitation; (3) application of the NO synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME); and (4) recording of dialysate pH changes. The primary effect of L-NAME (0.3 to 3.0 mmol/L in the perfusion medium) was a marked widening of individual CSD wave, resulting essentially from a delayed initiation of the repolarization phase. This change was due to NO synthase inhibition because it was not observed with the inactive isomer D-NAME, and was reversed by L-arginine. This effect did not appear to be linked to the suppression of a sustained, NO-mediated vascular change associated with the superposition of NO synthase inhibition on high levels of extracellular K+. The delayed initiation of repolarization with local NO synthase inhibition may reflect the suppression of NO-mediated negative feedback mechanisms acting on neuronal or glial processes involved in CSD genesis. However, the possible abrogation of a very brief, NO-mediated vascular change associated with the early phase of CSD cannot be ruled out. Spreading depression Nitric oxide Nitric oxide synthase L-NAME Migraine Sroke N-methyl-d-aspartate
307	New nitric oxide releasing materials McKinlay, Alistair C. January 2010 (has links) The aim of this thesis was to examine the ability of metal organic frameworks (MOFs) to store and controllably release biologically significant amounts of nitric oxide (NO). Initial work involved the synthesis of a series of isostructural MOFs, known as M-CPO-27, which display coordinatively unsaturated metal sites (CUSs) when fully activated (guest solvent molecules both coordinated and uncoordinated to the metal atom are removed). Two of these frameworks (Ni and Co CPO-27) displayed exceptional performance over the entire cycle of activation, storage and delivery showing the largest storage and release of NO of any known porous material (up to 7 mmolg⁻¹). These frameworks would therefore be considered for initial research into the formulation of MOFs, for possible use in medical applications. It was shown that they still release large amounts of NO even when placed inside porous paper bags, creams or hydrocolloids. The other versions of M-CPO-27 also displayed significant adsorption of NO however they show poor total NO release. It was also shown that it is possible to synthesise both Ni and Co CPO-27 using microwave synthesis without any detrimental effect to the porous structure. Several iron-based MOFs were also investigated for NO storage and release. The results showed that Fe MIL-88 based structures adsorb good amounts of NO but only release a small amount of the irreversibly adsorbed NO. Two successfully amine grafted giant pore MOFs were then investigated to attempt to improve the NO adsorption and release. This result was not observed however, due to the poor total amine grafting coverage and pore blockage resulting from the amines. In-situ IR studies reveal that when exposed to NO, activated Fe MIL-100 forms a chemical bond with the NO. The studies also displayed that when water is then allowed to attempt to replace the NO that only a small amount of NO is actually released, the majority of the NO either remains chemically bonded to the Fe atom or forms N₂O in conjunction with a Fe-OH group. Other MOFs were also successfully synthesised and characterised for NO storage and release. Both Ni succinate and Ni STA-12 display good adsorption and excellent release of NO. This indicates that Ni based MOFs show the best results for NO adsorption and release. In the conclusion of the thesis I am able to categorise the NO release ability of MOFs based on composition and formulate a theory as to why this happens. 547.05
308	Nitric oxide donors for the treatment of prostate cancer Nortcliffe, Andrew January 2013 (has links) Chapter One provides a general introduction into the biology and chemistry of nitric oxide, with particular focus on the role of nitric oxide in cardiovascular disease, cancer and hypoxia. It also details the types of organic functional groups used as nitric oxide donors, with detailed discussion of nitrate esters, furoxans and sydnonimines. Chapter Two discusses prostate cancer. It provides an overview into the development of prostate cancer, prostate cancer staging, and treatment. The key molecular aspects of prostate cancer are detailed, and the types of treatment available outlined. Chapter Three details the synthesis and activity of NCX-1102, a nitric oxide-donating analogue of the non-steroidal anti-inflammatory drug sulindac, and the synthetic work in the preparation of analogues of NCX-1102, using nitrate esters, furoxans and sydnonimines as nitric oxide-donating functional groups. The compounds prepared were tested against a prostate cancer cell line (PC3) and the cytotoxicity results are presented. Chapter Four describes the synthesis of nitric-oxide donating analogues of abiraterone, a CYP17 inhibitor for the treatment of prostate cancer. The results of cytotoxicity assays against PC3 cells are detailed. Chapter Five discusses the application of nitric oxide-donating functional groups in tandem with biologically active motifs. The synthesis of nitric oxide-donating amino acids, and their application to the preparation of nitric oxide-donating RGD peptides and prostate-specific membrane antigen inhibitors is presented, along with representative biological evaluation. Chapter Six introduces possible future work for the continuation of the project, suggesting the synthesis of fluorinated sydnonimines, prostate-specific membrane antigen inhibitors combined with for prostate cancer imaging and a “tool-box” of nitric oxide-donating bioconjugation reagents. 616.99
309	Role of nitric oxide and endothelium-derived hyperpolarizing factor in porcine coronary/pulmonary circulation: emphasis on comparison between arteries and veins and electrophysiological evidence with implications in cardiopulmonary surgery. / CUHK electronic theses & dissertations collection January 2004 (has links) Zhang Rongzhen. / "July 2004." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2004. / Includes bibliographical references (p. 130-176). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese. Nitric oxide--Physiological effect Vascular endothelium--Physiology Nitric-Oxide--metabolism Nitric-Oxide--physiology Endothelium, Vascular--physiology Electrophysiology--methods Pulmonary Circulation Coronary Circulation
310	Nitric oxide in tuberculosis and leprosy / Schön, Thomas January 2002 (has links) (PDF) Diss. (sammanfattning) Linköping : Univ., 2002. / Härtill 8 uppsatser.

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