Global ETD Search

241	Myosin Va mutation in rats is an animal model for the human hereditary neurological disease, Griscelli syndrome type 1 Takagishi, Yoshiko, 高岸, 芳子, Murata, Yoshiharu 11 1900 (has links) No description available. mutant cerebellum smooth endoplasmic reticulum Purkinje cells calcium synaptic plasticity
242	Modulation of ATP-sensitive potassium channels by hydrogen sulfide and hydroxylamine Tang, Guanghua 04 January 2005 (has links) ATP-sensitive potassium (K+) channels (KATP) in vascular smooth muscle cells (VSMC) play a major role in the regulation of vascular tone by coupling cell contractility and K+ fluxes to cellular metabolism. They are composed of the regulatory sulphonylurea receptors (SUR) and the pore-forming inwardly rectifying K+ (Kir) channels. SUR subunits interact closely with Kir subunits by conferring their sensitivity to nucleotide or sulphonylurea. However, the modulatory mechanisms of KATP channels in VSMC are largely unknown. In particular, the effects of hydrogen sulfide (H2S) and hydroxylamine (HA) on KATP channels and underlying mechanisms have not been addressed in VSMC of resistance arteries. The combined approaches including molecular biology, biochemical assays, and patch-clamp techniques were applied. The electrophysiological and pharmacological features of native KATP channels in VSMC and cloned KATP channels in HEK-293 cells, and the modulation of KATP channels by H2S and HA in single freshly isolated VSMC from rat mesenteric arteries were characterized. In the present study, only small conductance KATP channels of 13 pS were found in rat mesenteric artery VSMC. The recorded macroscopic and unitary KATP currents were activated by nucleoside diphosphate in the presence of magnesium and K+ channel openers, inhibited by a specific KATP channel blocker glibenclamide, but were insensitive to ATP inhibition. The reversal potential shifted rightward in response to the elevation of extracellular K+ and matched the calculated K+ equilibrium potential, indicating the basal currents in both VSMC and HEK-293 cells are carried by K+ ions. Heterologous expression of Kir6.1 with SUR2B in HEK-293 cells formed functional channels and elicited whole-cell K+ currents, which shared some similar biophysical characteristics of native KATP channels in VSMC. Basal KATP currents and resting membrane potential in VSMC were reduced by glibenclamide, demonstrating that KATP channels contribute to background K+ conductance and in the setting of resting membrane potential in this resistance artery. Exogenous H2S enhanced macroscopic and unitary KATP currents with an EC50 of 116 ± 8.3 µM and hyperpolarized membrane potential. H2S activated KATP channels by increasing the open probability of single channels, but not single channel conductance. The reduced endogenous H2S production by D, L-propargylglycine resulted in the attenuation of KATP currents. H2S-induced activation of KATP channels and resultant hyperpolarization were not mediated by cGMP signaling pathway. HA enhanced reversibly KATP currents in a dose-dependent fashion with an EC50 of 54±3.4 µM and also hyperpolarized the cell membrane. HA-stimulated KATP currents were blocked by free radical scavengers (superoxide dismutase and N-acetyl-L-cysteine), and KATP channels were stimulated by a free radical generating system (hypoxanthine/xanthine oxidase), indicating the involvement of superoxide (O2-) in HA effects. Sodium nitroprusside and 8-Br-cGMP did not affect basal KATP currents and HA-stimulated KATP currents, disproving the involvement of NO-sGC-cGMP-mediated signaling pathway in the HA effects. Therefore, HA-induced KATP channel activation and hyperpolarization are likely due to the generation of O2-. In conclusion, KATP channels in resistance artery VSMC serve as the regulatory targets of H2S and HA. These two endogenous molecules modulate KATP channels via different mechanisms. H2S may directly act on KATP channel proteins while HA oxidized them via the formation of O2-, leading to the activation of KATP channels. Smooth muscle hydrogen sulfide elcetrophysiology nitric oxide KATP channels
243	Methylglyoxal-induced increase in peroxynitrite and inflammation related to diabetes Wang, Hui 29 June 2009 (has links) Methylglyoxal (MG) is a reactive á-oxoaldehyde and a glucose metabolite. Previous studies in our laboratory have shown that MG induces the production of reactive oxygen species (ROS), such as superoxide (O2.-), nitric oxide (NO) and peroxynitrite (ONOO-), in vascular smooth muscle cells (VSMCs, A-10 cells). However, the effect of endogenous MG and mechanisms of MG-induced oxidative stress have not been thoroughly explored. The present study investigated fructose (a precursor of MG)- induced ONOO- formation in A-10 cells and whether this process was mediated via endogenous MG formation; roles of MG in regulating mitochondrial ROS (mtROS) production and mitochondrial functions in A-10 cells; and effect of MG on neutrophils in patients with type 2 diabetes mellitus (T2DM). Fructose induced intracellular production of MG in a concentration- and time- dependent manner. A significant increase in the production of NO, O2.−, and ONOO− was observed in the cells exposed to fructose or MG. Fructose- or MG-induced ONOO− generation was significantly inhibited by MG scavengers and by O2.− or NO inhibitors. The data showed that fructose treatment increased the formation of ONOO− via increased NO and O2.− production in A-10 cells, and this effect was directly mediated by an elevated intracellular concentration of MG. By inhibiting complex III and manganese superoxide dismutase activities, MG induced mitochondrial overproduction of O2.-, and mitochondrial ONOO- further. MG also reduced mitochondrial ATP synthesis, indicating the dysfunction of mitochondria. In addition, MG increased plasma NO levels in patients with T2DM, which reflected the oxidative status in those patients. MG-induced oxidative stress in patients with T2DM significantly enhanced levels of cytokines released from neutrophils. Moreover, the neutrophils from T2DM patients showed a greater proclivity for apoptosis, which was further increased by in vitro MG treatment. Our data demonstrate that MG-induced oxidative damage, particularly ONOO- production, contributes to the pathogenesis of T2DM and its vascular complications. Peroxynitrite Methylglyoxal Mitochondria Type 2 diabetes Smooth muscle cell
244	Vascular effects of tryptophan Gandhi, Jugal Daxesh 14 January 2010 (has links) Previous studies have shown that L-tryptophan treatment has been known to reduce blood pressure (BP) in hypertensive rats. L-tryptophan is converted to serotonin (5-HT), a potent vasoconstrictor agonist. The direct vascular effects of L-tryptophan, an essential amino acid, and the mechanism that contributes to the fall in BP have not been fully explored. The present study aims to examine the direct vascular responses to both D- and L- tryptophan using perfused mesenteric vascular bed, an ex-vivo preparation that represents the resistance function of circulation. Perfusion was maintained at a constant flow rate (5 mL/min) with Krebs buffer (pH 7.4, 37˚C) after isolation from 12 to 14 week old male Sprague-Dawley rats. The basal perfusion pressure (PP) (mean ± SEM) was 27 ± 3 mmHg. Inclusion of D- and L-isomers in the perfusion medium led to concentration-dependent increase in PP. While the maximal response (Emax) was similar, D-tryptophan (EC50: 0.25 ± 0.12* µmol; Emax: 128 ± 8 mmHg) was more potent (lower EC50 value; p < 0.01) than L-tryptophan (EC50: 0.79 ± 0.30 µmol; Emax: 141 ± 7 mmHg). Inclusion of increasing concentrations (2, 5 and 10 nM) of the 5-HT2A selective antagonist, ketanserin, led to parallel right-ward shifts in the concentration-response curves to D- and L-tryptophan with restoration of their Emax. In contrast, the α1 selective agonist, methoxamine (30 µM), constricted preparations, both D- (IC50: 0.94 ± 0.30 µmol; Imax: 96 ± 2%) and L-tryptophan (IC50: 2.8 ± 1.0 µmol Imax: 88± 1%) evoked concentration-dependent vasodilatation, an effect that was resistant to blockade by either ketanserin or other 5-HT antagonists. Again, D-tryptophan was more potent than L-tryptophan in the presence of 5-HT antagonist (*p < 0.05). Neither the removal of endothelium nor incubation with selective inhibitors of dilatory mediators released from the endothelium, failed to alter the vasodilator responses to D- and L-tryptophan. In potassium chloride depolarized preparations, L-tryptophan evoked an additive vasoconstrictor response. The vasodilator responses to L-tryptophan persisted in the presence of glibenclamide, a KATP channel inhibitor, or tetraethyl ammonium, a BKCa channel inhibitor, or BaCl2, a Kir channel inhibitor, or ouabain, a Na+-K+-ATPase pump inhibitor. These data confirm that the essential amino acid, L-tryptophan, as well as its D-isomer, evoke a biphasic vasoconstrictor and vasodilator responses in the resistance type mesenteric vascular bed. While the vasoconstrictor responses are mediated by activation of vascular 5-HT receptors, the endothelium-independent vasodilator responses are not linked to activation of vascular 5-HT receptors, vascular potassium channels, Na+-K+-ATPase pump or via inhibition of voltage-operated Ca2+-channels. Plasma concentration of L-tryptophan is about 90 - 120 µM. The endothelium/5-HT independent direct vasodilator responses characterized here for the first time could account for the antihypertensive/ BP lowering effect of L-tryptophan reported earlier by other laboratories. Hypertension Tryptophan Endothelium Vascular Smooth Muscle Mesenteric Vascular Bed
245	The Analysis of Influencing Factors on Taiwan's Excess Saving Tsai, Yeong-sheng 02 September 2010 (has links) The existing literature on current account¡¦s analysis of influencing factors-related issues had had extensive research achievements, but they mostly stressed the discussion of influencing factors from outside the economic body. To better understand and improve government¡¦s ability of controlling variations in current account balance in order to suit the macro economic situation through the use of nimble interest and exchange rate policies, we employ the analytical tool to examine factors that influence Taiwan's excess saving during the period from 1987Q3 to 2009Q1. We modify the current account share of GDP regression by including interest rate, exchange rate and quarterly rate of inflation to reflect the effect of current account dynamics. Empirical evidences indicate that the coefficients of the long-run relationship are significantly crucial. We apply both the linear error-correction model (ECM) and nonlinear smooth transition regression model to investigate the dynamics of current account vis-a-vis interest rate, exchange rate and the quarterly rate of inflation. and find supportings to the appropriateness of nonlinear smooth transition regression model. Furthermore, exchange rate was found having positive impact on current account balances. That is, a depreciation in the exchange rate would improve the current account and an appreciation, on the other hand, will worsen the current account. But the quarterly rate of inflation has a significantly negative effect, with an increase in the quarterly rate of inflation leading to a decrease in current account balances. Finally, from the long run cointegrating relationship, current account balances raises while the interest rate is decreasing, indicating there might exist income effect when interest rates fall. Because a fall in income reduces consumption, and increases saving, in turn, causes current account balances to rise, and vice versa. The empirical results shows all coefficients¡¦ sign can not only explain and interpret real economic phenomena, but also are consistent with theoretical expectations. ECM smooth transition regression income effect current account
246	Systematic Investigation of Hydrogel Material Properties on Cell Responses for Vocal Fold and Vascular Graft Tissue Engineering Bulick, Allen 14 January 2010 (has links) The research presented here deals with synthetic materials for application in tissue engineering, primarily poly(ethylene glycol) (PEG) and poly(dimethyl siloxane)star (PDMS)star. Tissue engineering seeks to repair or replace damaged tissue through implantation of cell encapsulated in an artificial scaffold. Cell differentiation and extracellular matrix (ECM) deposition can be influenced through a wide variety of in vitro culture techniques including biochemical stimuli, cell-cell interactions, mechanical conditioning and scaffold physical properties. In order to systematically optimize in vitro conditions for tissue engineering experiments, the individual effects of these different components must be studied. PEG hydrogels are a suitable scaffold for this because of their biocompatibility and biological "blank slate" nature. This dissertation presents data investigating: the effects of glycosaminoglycans (GAGs) as biochemical stimuli on pig vocal fold fibroblasts (PVFfs); the effects of mechanical conditioning and cell-cell interactions on smooth muscle cells (SMCs); and the effects of scaffold physical properties on SMCs. Results show that GAGs influence PVFf behavior and are an important component in scaffold design. Hyaluronic acid (HA) formulations showed similar production in collagen I and III as well as reduced levels of smooth muscle a-actin (SMa-actin), while chondroitin sulfate (CSC) and heparin sulfate showed enriched collagen III environments with enhanced expression of SMa-actin. A physiological flow system was developed to give comprehensive control over in vitro mechanical conditioning on TEVGs. Experiments performed on SMCs involved creating multi-layered TEVGs to mimic natural vascular tissue. Constructs subjected to mechanical conditioning with an endothelial cell (EC) layer showed enhanced expression of SMC differentiation markers calponin h1 and myocardin and enhanced deposition of elastin. Consistent with other studies, EC presence diminished overall collagen production and collagen I, specifically. Novel PDMSstar-PEG hydrogels were studied to investigate the effects of inorganic content on mesenchymal stem cell differentiation for use in TEVGs. Results agree with previous observations showing that a ratio of 5:95 PDMSstar: PEG by weight enhances SMC differentiation markers; however, statistically significant conclusions could not be made. By studying and optimizing in vitro culture conditions including scaffold properties, mechanical conditioning and multi-layered cell-cell interactions, TEVGs can be designed to maximize SMC differentiation and ECM production. Tissue Engineering Smooth Muscle Cells Vocal Fold Vascular Grafts
247	Complementary Vasoactivity and Matrix Remodeling in Arteries: Theoretical Foundations and Predicted Trends Valentin, Auturo III 2009 August 1900 (has links) Arteries possess the ability to grow and remodel in response to sustained alterations in biomechanical loading, likely via mechanisms that are similarly involved in diverse arterial pathologies and responses to treatment. In particular, myriad experminental observations suggest that cell and matrix turnover within vasoaltered states enable arteries to adapt to sustained changes in mechanical stimuli. The goal herein is to show explicitly how altered smooth muscle contractility and matrix growth and remodeling work together to adapt the geometry, structure, stiffness, and function of a representative basilar artery. This work seeks to illustrate the importance of complementary vasoactivity and matrix remodeling for basilar arteries in response to sustained alterations in mechanical stimuli. Toward this end, an extended constrained mixture model of the arterial wall is employed whereby the mass fractions, material properties, and natural configurations of individual constituents can evolve separately and thereby dictate overall growth and remodeling. This approach accounts for fundamentally important behaviors. Simulations provide important intuition and insight regarding constitutive functional forms and model parameters. vasoactivity collagen turnover smooth muscle phenotype deposition stretch stress
248	Resident macrophages activated by lipopolysaccharide (LPS) suppress muscle tension and initiate inflammatory response in the gastrointestinal muscle layer Torihashi, Shigeko, Ozaki, Hiroshi, Hori, Masatoshi, Kita, Muneto, Ohota, Sachiyo, Karaki, Hideaki, 鳥橋, 茂子 02 1900 (has links) No description available. macrophage gastrointestinal motility iNOS immune responses smooth muscle
249	Nonlinear Analysis of Stock Correlations among East Asian Countries, and The U.S., Japan, and German Huang, Hsiao-wen 14 July 2008 (has links) With gradually increasing interdependence of international political and economic environments, part of Asian countries' financial markets reform adopted progressive policies towards liberalization and internationalization. Therefore, the integration of international financial markets has attracted a bunch of scholars to investigate related topics of international stock market. Granger and (1993) documented that most of the economic variables have nonlinear characters. Chelley-Steeley (2004) uses smooth transition regression model to explore the financial market integration of regional and global markets among emerging and developed countries. Smooth transition regression model considered the possibility of nonlinear changes in regression parameters. This paper applies the smooth transition regression model to reinvestigate Chelley-Steeley¡¦s (2004) study of nonlinear relationship of stock markets among some East Asian countries and the United States, Japan and Germany. The main difference of our model and Chelley-Steeley¡¦ model is that we relax his constant market index correlation between two countries by allowing the autoregressive process on market index correlation. Empirical evidences of linear model, original non-linear model and our non-linear extension model show that our non-linear extension model outperformedthe other two models in terms of goodness of fit. smooth transition regression model monthly correlation coefficient nonlinear model
250	none Lin, Yu-cheng 30 June 2009 (has links) Abstract Divident discount model found further expected dividend discounting to some fix period. The dividends are determined from the the core of company and relates retain earning. In Taiwan stock market, divedneds are not paid per season. So, I adept earning per share to proxy variable and employ market value weight to conduct dividends for Taiwan stock idnex. The next step, investgate the relationship between price index and diviednds using the econometric model was created by Kapetanios et al. (2006). Consequencely, the relationship are fitted discribtion by ESTR cointegration rather than linear cointegration. dividend discount model smooth transition error correction model ESTR Cointegration

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