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Altered expression of contractile endothelin receptors in the vascular bedAdner, Mikael. January 1998 (has links)
Thesis (doctoral)--Lund University, 1998. / Added t.p. with thesis statement inserted.
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Endothelium-dependent vasodilation and oxidative stress in chronic renal failure /Annuk, Margus. January 2002 (has links)
Diss. (sammanfattning) Uppsala : Univ., 2002. / Härtill 5 uppsatser.
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Innate immune response in human endothelial cells : characterization and regulation of E-selectin, ICAM-I and cytokine expression and the role of Staphylococcus aureus /Strindhall, Jan, January 2003 (has links) (PDF)
Diss. (sammanfattning) Linköping : Univ., 2003. / Härtill 4 uppsatser.
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Studies on molecular properties and functional regulation of terminal leukotriene C₄ synthases and cysteinyl-leukotriene receptor signalling in human endothelium /Schröder, Oliver, January 2007 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.
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Harvesting of saphenous vein for coronary artery bypass grafting : an improved technique that maintains vein wall integrity and provides a high early patency rate /Souza, Domingos Sávio Ramos de, January 2002 (has links)
Diss. (sammanfattning) Uppsala : Univ., 2002. / Härtill 6 uppsatser.
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Study of endothelial function with implications in cardiopulmonary surgery: the role of endothelium-derived hyperpolarizing factor. / CUHK electronic theses & dissertations collectionJanuary 2003 (has links)
Yang Qin. / "June 2003." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2003. / Includes bibliographical references (p. 168-207). / 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.
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Control of intracellular calcium level in vascular endothelial cells: role of cGMP and TRP channel.January 2001 (has links)
Lau Kin Ling. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2001. / Includes bibliographical references (leaves 97-103). / Abstracts in English and Chinese. / Contents --- p.1 / Chapter Chapter 1 --- Introduction --- p.5 / Chapter 1.1 --- Calcium Signaling in Endothelial Cells --- p.5 / Chapter 1.1.1 --- Calcium and its functions --- p.5 / Chapter 1.1.2 --- "Second Messengers: Inositol-1,4,5-Triphosphate and Diacylglycerol" --- p.6 / Chapter 1.1.3 --- Propagation of Ca2+ Signals --- p.8 / Chapter 1.1.4 --- Ca2+-ATPases --- p.9 / Chapter 1.1.5 --- Regulation of Sarcoplasmic Reticulum --- p.10 / Chapter 1.1.6 --- Agonist-induced Ca2+ Entry --- p.11 / Chapter 1.2 --- Mechanism of Store-Operated Ca2+ Entry --- p.14 / Chapter 1.2.1 --- Signaling Mechanisms of SOC --- p.14 / Chapter 1.2.1.1 --- A Diffusible Messenger --- p.14 / Chapter 1.2.1.2 --- Conformational Coupling --- p.15 / Chapter 1.2.1.3 --- Vesicle Secretion --- p.16 / Chapter 1.3 --- Regulation of Ca2+ Entry by cGMP --- p.20 / Chapter 1.4 --- Molecular Structres of Store-operated Channels --- p.22 / Chapter 1.4.1 --- Drosophila Transient Receptor Potential (trp) Gene --- p.22 / Chapter 1.4.2 --- Trpl Gene --- p.23 / Chapter Chapter 2 --- Methods and Materials --- p.27 / Chapter 2.1 --- Materials --- p.27 / Chapter 2.1.1 --- Phosphate-buffered saline --- p.27 / Chapter 2.1.2 --- Culture Media and Materials --- p.27 / Chapter 2.2 --- Preparations and Culture of Cells --- p.28 / Chapter 2.2.1 --- Culture of Rat Aortic Endothelial Cells --- p.28 / Chapter 2.2.2 --- Culture of Human Bladder Epithelial Cell Line --- p.29 / Chapter 2.2.3 --- Culture of Human Embryonic Kidney Epithelial Cell Line --- p.29 / Chapter 2.3 --- Cell. Subculture and Marvest --- p.29 / Chapter 2.4 --- Intracellular Free Calcium Ions ([Ca2+]i) measurment --- p.30 / Chapter 2.4.1 --- Chemicals --- p.30 / Chapter 2.4.2 --- Bathing solutions --- p.31 / Chapter 2.4.3 --- Preparations of Cells for [Ca2+]i Measurement --- p.31 / Chapter 2.4.3.1 --- Plating cells on Glass Cover Slips for [Ca2+]i Measurement with PTI RatioMaster Fluorescence System --- p.31 / Chapter 2.4.3.2 --- Plating cells on Glass Cover Slips for [Ca2+]i Measurement with Confocal Imaging System and Confocal Laser Scanning Microscopy --- p.32 / Chapter 2.4.4 --- PTI RatioMaster Fluorescence System --- p.35 / Chapter 2.4.4.1 --- Experimental Setup --- p.35 / Chapter 2.4.4.2 --- Fura-2/AM Dye loading --- p.35 / Chapter 2.4.4.3 --- Background Fluorescence and [Ca ]i Measurement --- p.37 / Chapter 2.4.5 --- Confocal Imaging System --- p.37 / Chapter 2.4.5.1 --- Experimental Setup --- p.37 / Chapter 2.4.5.2 --- Fluo-3/AM Dye Loading --- p.39 / Chapter 2.4.5.3 --- [Ca2+]i Measurement --- p.39 / Chapter 2.4.6 --- Confocal Laser Scanning Microscopy --- p.40 / Chapter 2.4.6.1 --- Principles --- p.40 / Chapter 2.5 --- Cloning and expression of Trpl in HEK293 cell line --- p.43 / Chapter 2.5.1 --- Cloning of Htrpl Gene into pcDNA3 Vector --- p.43 / Chapter 2.5.1.1 --- Enzyme Digestion --- p.43 / Chapter 2.5.1.2 --- Gel electrophoresis and Isolation of Htrpl by GeneCIean II Kit --- p.44 / Chapter 2.5.1.3 --- Ligation of Trpl and pcDNA3 Vector --- p.44 / Chapter 2.5.1.4 --- Transformation --- p.47 / Chapter 2.5.1.5 --- Purification of cloned Trpl-pcDNA3 by QIAprep Spin Miniprep Kit --- p.47 / Chapter 2.5.2 --- Transfection of HEK293 Cells with Htrpl and pEGFP-Nl Vector --- p.48 / Chapter 2.5.2.1 --- Cell Preparation for Transfection --- p.48 / Chapter 2.5.2.2 --- Transfection --- p.48 / Chapter 2.5.3 --- Fluorescence Labeling of Expressed Htrpl Channel in HEK293 Cells --- p.49 / Chapter 2.5.3.1 --- Immunostaining with Anti-TRPCl Antibody --- p.49 / Chapter 2.5.3.2 --- Labeling with FITC2° Antibody --- p.50 / Chapter Chapter 3 --- Results --- p.51 / Chapter 3.1 --- Propagation of Ca2+ Signaling --- p.51 / Chapter 3.2. --- Effect of cGMP on SERCA --- p.55 / Chapter 3.2.1 --- ATP stimulated Ca2+ release from internal stores --- p.55 / Chapter 3.2.2 --- Effect of cGMP on the falling phase of [Ca2+]i --- p.55 / Chapter 3.2.3 --- Effect of CPA on the falling phase of [Ca2+]i --- p.58 / Chapter 3.2.4 --- Effect of KT5823 on cGMP --- p.63 / Chapter 3.3. --- Effect of cGMP on bradykinin-activated capacitative Ca2+ entry --- p.65 / Chapter 3.3.1 --- Bradykinin induced capacitative Ca2+ entry --- p.65 / Chapter 3.3.2 --- Effect of cGMP on Ca2+ entry activated by bradykinin --- p.67 / Chapter 3.3.3 --- Effect of KT5823 on the inhibitory effect of cGMP on Ca2+ entry activated by bradykinin --- p.67 / Chapter 3.3.4. --- Effect of cGMP and KT5823 on capacitative Ca2+ entry activated by a combination of different agonists. --- p.71 / Chapter 3.4 --- Cloning and expression of htrpl in HEK 293 cell line --- p.75 / Chapter 3.4.1 --- Optimizing transfection conditions using pEGFP-Nl --- p.78 / Chapter 3.4.2 --- Transient transfection of htrpl channel in HEK293 cells --- p.81 / Chapter 3.4.3 --- Channel properties of expressed htrpl channel --- p.84 / Chapter Chapter 4 --- Discussion --- p.88 / Chapter 4.1 --- Ptopagation of Ca2+ Signaling --- p.88 / Chapter 4.2 --- Effect of cGMP on[Ca2+]i of Vascular Endothelial Cells --- p.89 / Chapter 4.2.1 --- Effect of cGMP on SERCA --- p.89 / Chapter 4.2.2 --- Effect of cGMP on Regulation of Agonist-Activated Capacitative Ca2+ Entry --- p.92 / Chapter 4.2.3 --- Physiological Property of Expressed Htrpl in HEK293 cells --- p.95 / References --- p.97
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Role of inflammation and endothelial dysfunction of coronary arterioles in type 2 diabetesYang, Ji Yeon 15 May 2009 (has links)
We hypothesized that the interaction between tumor necrosis factor alpha(TNF)/nuclear factor-kappaB (NFkB) via activation of IKK may amplify one anotherresulting in the evolution of vascular disease and insulin resistance associated withdiabetes. The interaction between TNFa and monocyte chemoattractant protein-1 (MCP-1) may contribute to the evolution of vascular inflammation and endothelial dysfunctionin coronary arterioles in type 2 diabetes. To test this hypothesis, endothelium-dependent(ACh) and –independent (SNP) vasodilation of isolated, pressurized coronary arterioles(40-100 μm) from mLeprdb (heterozygote, normal), Leprdb (homozygote, diabetic) andLeprdb mice null for TNF (dbTNF-/dbTNF-) were examined. Although dilation of vesselsto SNP was not different between Leprdb and mLeprdb mice, dilation to ACh was reducedin Leprdb mice. The NFkB antagonist, MG-132, IKK inhibitor, sodium salicylate(NaSal), or Anti-MCP-1 partially restored endothelium-dependent coronary arteriolardilation in Leprdb mice. Protein expression of IKK and IKK were higher in Leprdb thanin mLeprdb mice. The expression of IKK, but not the expression of IKK was increasedin dbTNF-/dbTNF- mice. Leprdb mice showed increased insulin resistance, but NaSal improved insulin sensitivity. Protein expression of TNFa, NFkB, phosphorylation ofIKK and JNK were greater in Leprdb mice, but NaSal attenuated protein expression ofthem in Leprdb mice. The ratio of phosphorylated IRS-1 at Ser307 (pIRS-1)/IRS-1protein expression was elevated in Leprdb mice; both NaSal and JNK inhibitor SP600125reduced pIRS-1/IRS-1 in Leprdb mice. MG-132 or neutralization of TNF reducedsuperoxide production in Leprdb mice. Anti-MCP-1 attenuated superoxide productionand protein expression of nitrotyrosine (N-Tyr), which is an indicator of peroxynitriteproduction, in isolated coronary arterioles of Leprdb mice. Immunostaining resultsshowed that expression of MCP-1 and vascular cellular adhesion molecule-1 (VCAM) isco-localized with endothelial cells and macrophages. Anti-TNFa or anti-MCP-1markedly reduced macrophage infiltration and the number of MCP-1 positive cells.Neutralization of TNFa or anti-MCP-1 reduced the expression of adhesion molecules. Inconclusion, our results indicate that the interaction between NFkB and TNFa signalinginduces activation of IKKb. In addition, TNFa and TNFa-related signaling, includingthe expression of MCP-1 and adhesion molecules, further exacerbates oxidative stressleading to endothelial dysfunction in type 2 diabetes.
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Role of inflammation and endothelial dysfunction of coronary arterioles in type 2 diabetesYang, Ji Yeon 15 May 2009 (has links)
We hypothesized that the interaction between tumor necrosis factor alpha(TNF)/nuclear factor-kappaB (NFkB) via activation of IKK may amplify one anotherresulting in the evolution of vascular disease and insulin resistance associated withdiabetes. The interaction between TNFa and monocyte chemoattractant protein-1 (MCP-1) may contribute to the evolution of vascular inflammation and endothelial dysfunctionin coronary arterioles in type 2 diabetes. To test this hypothesis, endothelium-dependent(ACh) and –independent (SNP) vasodilation of isolated, pressurized coronary arterioles(40-100 μm) from mLeprdb (heterozygote, normal), Leprdb (homozygote, diabetic) andLeprdb mice null for TNF (dbTNF-/dbTNF-) were examined. Although dilation of vesselsto SNP was not different between Leprdb and mLeprdb mice, dilation to ACh was reducedin Leprdb mice. The NFkB antagonist, MG-132, IKK inhibitor, sodium salicylate(NaSal), or Anti-MCP-1 partially restored endothelium-dependent coronary arteriolardilation in Leprdb mice. Protein expression of IKK and IKK were higher in Leprdb thanin mLeprdb mice. The expression of IKK, but not the expression of IKK was increasedin dbTNF-/dbTNF- mice. Leprdb mice showed increased insulin resistance, but NaSal improved insulin sensitivity. Protein expression of TNFa, NFkB, phosphorylation ofIKK and JNK were greater in Leprdb mice, but NaSal attenuated protein expression ofthem in Leprdb mice. The ratio of phosphorylated IRS-1 at Ser307 (pIRS-1)/IRS-1protein expression was elevated in Leprdb mice; both NaSal and JNK inhibitor SP600125reduced pIRS-1/IRS-1 in Leprdb mice. MG-132 or neutralization of TNF reducedsuperoxide production in Leprdb mice. Anti-MCP-1 attenuated superoxide productionand protein expression of nitrotyrosine (N-Tyr), which is an indicator of peroxynitriteproduction, in isolated coronary arterioles of Leprdb mice. Immunostaining resultsshowed that expression of MCP-1 and vascular cellular adhesion molecule-1 (VCAM) isco-localized with endothelial cells and macrophages. Anti-TNFa or anti-MCP-1markedly reduced macrophage infiltration and the number of MCP-1 positive cells.Neutralization of TNFa or anti-MCP-1 reduced the expression of adhesion molecules. Inconclusion, our results indicate that the interaction between NFkB and TNFa signalinginduces activation of IKKb. In addition, TNFa and TNFa-related signaling, includingthe expression of MCP-1 and adhesion molecules, further exacerbates oxidative stressleading to endothelial dysfunction in type 2 diabetes.
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Mechanisms of endothelial cell dysfunction in Wegener's granulomatosis /Holmén, Carolina, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 4 uppsatser.
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