Spelling suggestions: "subject:"nitric oxide synthase"" "subject:"nitric óxide synthase""
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The Adaptive Role of Neuronal Nitric Oxide Synthase in Maintaining Oxygen Homeostasis during Acute AnemiaTsui, Albert King-Yeung 31 August 2012 (has links)
Mammals are well adapted to respond to changes in ambient oxygen concentration (O2) by activating homeostatic physiological and cellular responses which maintain cell function and survival. Although anemia has been associated with increased mortality in a number of clinical settings, surprisingly little is known about how anemia affects tissue PO2 and hypoxia signaling. Because nitric oxide synthases (NOSs) figure prominently in the cellular response to acute hypoxia, we define the effects of NOS deficiency in acute anemia. Unlike wildtype (WT), endothelial NOS (eNOS) and inducible NOS (iNOS) deficient mice, only neuronal NOS (nNOS) deficient mice (nNOS-/-) demonstrated increased mortality during acute anemia. With respect to global tissue O2 delivery, anemia did not increase cardiac output (CO) or reduce systemic vascular resistance (SVR) in nNOS -/- mice. At the cellular level, anemia increased expression of HIF-1α and HIF-responsive mRNA levels (EPO, VEGF, GLUT1, PDK) in the brain of WT, but not nNOS-/- mice. These date suggest that nNOS contributed to cardiovascular and cellular mechanisms which maintain oxygen homeostasis in anemia. To confirm the physiological relevance of these findings in a whole animal model of anemia, we utilized transgenic animals which express a reporter HIF-α(ODD)-luciferase chimeric protein. Using this model, we confirmed that nNOS is essential for anemia-induced increases in HIF-α protein stability in vivo in real-time whole animal images and brain tissue. With respect to the mechanism, nNOS-derived NO is known to affect S-nitrosylation of specific proteins, which may interfere with HIF-α and von Hippal Lindau protein (pVHL) interaction. Utilizing the biotin switch assay, we demonstrated that anemia caused a time-dependent increase in S-nitrosylation of pVHL in brain tissue from WT but not nNOS-/- mice. In addition, anemia also leads to a decrease in S-nitrosoglutathione (GSNO) reductase protein expression, an important enzyme responsible for de-nitrosylation of proteins. The combination of increased nNOS expression and decreased GSNO reductase expression would favor prolonged S-nitrosylation of proteins during anemia. These findings identify nNOS effects on the HIF/pVHL signaling pathway as critically important in the physiological responses to anemia in vivo. By contrast, after exposure to acute hypoxia, nNOS-/- mice survived longer, retained the ability to regulate CO and SVR, and increased brain HIF-α protein levels and HIF-responsive mRNA transcripts. This comparative assessment provided essential mechanistic insight into the unexpected and striking difference between anemia and hypoxia. Understanding the adaptive responses to acute anemia will help to define novel therapeutic strategies for anemic patients.
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The Adaptive Role of Neuronal Nitric Oxide Synthase in Maintaining Oxygen Homeostasis during Acute AnemiaTsui, Albert King-Yeung 31 August 2012 (has links)
Mammals are well adapted to respond to changes in ambient oxygen concentration (O2) by activating homeostatic physiological and cellular responses which maintain cell function and survival. Although anemia has been associated with increased mortality in a number of clinical settings, surprisingly little is known about how anemia affects tissue PO2 and hypoxia signaling. Because nitric oxide synthases (NOSs) figure prominently in the cellular response to acute hypoxia, we define the effects of NOS deficiency in acute anemia. Unlike wildtype (WT), endothelial NOS (eNOS) and inducible NOS (iNOS) deficient mice, only neuronal NOS (nNOS) deficient mice (nNOS-/-) demonstrated increased mortality during acute anemia. With respect to global tissue O2 delivery, anemia did not increase cardiac output (CO) or reduce systemic vascular resistance (SVR) in nNOS -/- mice. At the cellular level, anemia increased expression of HIF-1α and HIF-responsive mRNA levels (EPO, VEGF, GLUT1, PDK) in the brain of WT, but not nNOS-/- mice. These date suggest that nNOS contributed to cardiovascular and cellular mechanisms which maintain oxygen homeostasis in anemia. To confirm the physiological relevance of these findings in a whole animal model of anemia, we utilized transgenic animals which express a reporter HIF-α(ODD)-luciferase chimeric protein. Using this model, we confirmed that nNOS is essential for anemia-induced increases in HIF-α protein stability in vivo in real-time whole animal images and brain tissue. With respect to the mechanism, nNOS-derived NO is known to affect S-nitrosylation of specific proteins, which may interfere with HIF-α and von Hippal Lindau protein (pVHL) interaction. Utilizing the biotin switch assay, we demonstrated that anemia caused a time-dependent increase in S-nitrosylation of pVHL in brain tissue from WT but not nNOS-/- mice. In addition, anemia also leads to a decrease in S-nitrosoglutathione (GSNO) reductase protein expression, an important enzyme responsible for de-nitrosylation of proteins. The combination of increased nNOS expression and decreased GSNO reductase expression would favor prolonged S-nitrosylation of proteins during anemia. These findings identify nNOS effects on the HIF/pVHL signaling pathway as critically important in the physiological responses to anemia in vivo. By contrast, after exposure to acute hypoxia, nNOS-/- mice survived longer, retained the ability to regulate CO and SVR, and increased brain HIF-α protein levels and HIF-responsive mRNA transcripts. This comparative assessment provided essential mechanistic insight into the unexpected and striking difference between anemia and hypoxia. Understanding the adaptive responses to acute anemia will help to define novel therapeutic strategies for anemic patients.
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Macrophages in Muscle Layer of Gastrointestinal Tract : Impairment of Muscle Contraction by Treatment with LipopolysaccharideTorihashi, Shigeko, 鳥橋, 茂子 January 2001 (has links)
No description available.
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Cardiovascular function in animal models of metabolic syndrome and type 2 diabetes : the role of inducible nitric oxide synthase (iNOS)Song, Dongzhe 11 1900 (has links)
Activation of inducible nitric oxide synthase (iNOS) and oxidative stress have been shown to be associated with compromised cardiovascular function in streptozotocin (STZ)-induced type 1 diabetes. The aim of the project is to investigate cardiovascular abnormalities in a rat model of type 2 diabetes (Zucker diabetes fatty or ZDF rats) and two models of metabolic syndrome (fructose-fed rats and Zucker obese rats), and to provide direct evidence linking iNOS and oxidative stress to abnormal cardiovascular function in these disorders. Blood pressure, cardiac contractility, cardiac index, regional flow, vascular resistance and venous tone were measured in diseased as well as normal rats. Biochemical analyses such as activities of iNOS, immunostaining of iNOS and western-blot analysis of iNOS in the heart tissue were carried out. The results showed that cardiac contractile response to dobutamine was compromised in the ZDF rats, and this was associated with increased myocardial protein expression as well as activity of iNOS. The formation of peroxynitrite was increased in the heart tissue of the ZDF rats. Selective inhibition of iNOS by 1400W (N-3-aminomethyl-benzyl-acetamidine) did not alter responses to dobutamine in the control rats, but augmented the contractile effects of dobutamine in the diabetic rats. The regional blood flow was altered in the ZDF rats, and iNOS played a negligible role in regulating regional flow in the ZDF rats. Although venous response to noradrenaline was also altered in the Zucker obese rats, NOS may not be involved in venous tone regulation. Anti-oxidative treatment with N-acetylcysteine inhibited the development of insulin resistance, blood pressure elevation and the increase of 8-isoprostane formation in the fructose-fed rats. We conclude that heart function is compromised and regional blood flow is altered in the ZDF rats. Activation of iNOS plays an important role in suppressing heart dysfunction but does not affect regional blood flow. In Zucker obese rats with metabolic syndrome, iNOS may not be involved in changes of venous function. Oxidative stress is associated with both abnormality of heart dysfunction in type 2 diabetes (by formation of peroxynitrite due to iNOS activation) and development of hypertension and insulin resistance in metabolic syndrome.
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I: Study of protein-carbohydrate interaction on carbohydrate arrays II: Synthesis of analogues of sphingosine base, nitric oxide donors and HDAC inhibitors /Huang, Mingchuan, January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 134-148).
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Electron paramagnetic resonance (EPR) oximetry as a quantitative tool to measure cellular respiration in pathophysiological conditionsPresley, Tennille D., January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 128-141).
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Rat hiperhomosisteinemi modelinde kavernozal disfonksiyonun antioksidan sistem ve nitrik oksit sentaz izoenzimleri ile ilişkisi /Oksay, Taylan. Koşar, Alim. January 2006 (has links) (PDF)
Tez (Tıpta Uzmanlık) - Süleyman Demirel Üniversitesi, Tıp Fakültesi, Üroloji Anabilim Dalı, 2006. / Bibliyografya var.
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Deneysel diffüz beyin hasarında nitrik oksit sentetaz inhibitörü aminoguanidin'in etkileri /Köse, Turgay. Görgülü, Aşkın. January 2006 (has links) (PDF)
Tez (Tıpta Uzmanlık) - Süleyman Demirel Üniversitesi, Tıp Fakültesi, Nöroşirurji Anabilim Dalı, 2006. / Bibliyografya var.
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Clinical and genetic aspects on cluster headache /Sjöstrand, Christina, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 6 uppsatser.
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Nitric oxide and extravasation in endotoxaemia : an experimental study /Metcalf, Kerstin January 2002 (has links) (PDF)
Diss. (sammanfattning) Linköping : Univ., 2002. / Härtill 4 uppsatser.
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