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Role of Cysteinyl Leukotrienes in the Regulation of Macrophage FunctionPokhrel, Sabita 18 August 2021 (has links)
No description available.
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Cysteinyl Leukotrienes and Their Receptors: Potential Roles in Endothelial Function and CancerDuah, Ernest 04 October 2016 (has links)
No description available.
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Mechanistic Studies of Two Selected Flavin-Dependent Enzymes: Choline Oxidase and D-Arginine DehydrogenaseYuan, Hongling 11 August 2011 (has links)
Choline oxidase catalyzes the flavin-dependent, two-step oxidation of choline to glycine betaine via the formation of an aldehyde intermediate. The oxidation of choline includes two reductive half-reactions followed by oxidative half-reactions. In the first oxidation reaction, the alcohol substrate is activated to its alkoxide via proton abstraction and oxidized via transfer of a hydride from the alkoxide α-carbon to the N(5) atom of the enzyme-bound flavin. In the wild-type enzyme, proton and hydride transfers are mechanistically and kinetically uncoupled.
The role of Ser101 was investigated in this dissertation. Replacement of Ser101 with threonine, alanine, cysteine, or valine demonstrated the importance of the hydroxyl group of Ser101 in proton abstraction and in hydride transfer. Moreover, the kinetic studies on the Ser101Ala variant have revealed the importance of a specific residue for the optimization of the overall turnover of choline oxidase. The UV-visbible absorbance of Ser101Cys suggests Cys101 can form an adduct with the C4a atom of the flavin. The mechanism of formation of the C4a-cysteinyl adduct has been elucidated.
D-arginine dehydrogenase (DADH) catalyzes the oxidation of D-amino acids to the corresponding imino acids, which are non-enzymatically hydrolyzed to α-keto acids and ammonia. The enzyme is strick dehrogenase and deoesnot react with molecular oxygen. Steady state kinetic studies wirh D-arginine and D-histidine as a substrate and PMS as the electron acceptor has been investigated. The enzyme has broad substrate specificity for D-amino acids except aspartate, glutamate and glycine, with preference for arginine and lysine. Leucine is the slowest substrate in which steady state kinetic parameters can be obtained. The chemical mechanism of leucine dehydrogenation catalyzed by DADH was explored with a combination of pH, substrate and solvent kinetic isotope effects (KIE) and proton inventories by using rapid kinetics in a stopped-flow spectrophotometer. The data are discussed in the context of the crystallographic structures at high resolutions (<1.3 Å) of the enzyme in complex with iminoarginine or iminohistidine.
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The Role of Cysteinyl Leukotriene Receptor 2 in Thrombocyte AggregationReyna, Julianna 12 1900 (has links)
Cysteinyl leukotriene receptor 2, a G-protein coupled receptor known to be expressed and functional on human platelets. However, it seems that upon ligand activation the cysteinyl leukotriene receptor 2 activates a variety of signaling pathways in multiple cell types among different species. Previously, a former laboratory member Vrinda Kulkarni found cysteinyl leukotriene receptor 2 to be expressed on the surface of adult zebrafish thrombocytes. In this work I studied the characteristics of aggregation in adult zebrafish thrombocytes with the knockdown of cysteinyl leukotriene receptor 2. I used a newly developed knockdown method to study the function of cysteinyl leukotriene receptor 2. Knockdown of the cysteinyl leukotriene was confirmed using RT-PCR results showed p=.001, reduced sell surface level of expression of the cysteinyl leukotriene receptor 2 results showed that p=.002. I found that the knockdown of cysteinyl leukotriene receptor 2 results in prothrombotic thrombocytes by using flow cytometry p=.0001.
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Investigation of the neutrophil-directed anti-inflammatory properties of the cysteinyl leukotriene receptor antagonist, montelukastLodder, Cornelia Magdalena 26 April 2012 (has links)
Montelukast (ML) is primarily an antagonist of type 1 cysteinyl leukotriene receptors (CysLT1R), an activity which underpins its therapeutic efficacy in bronchial asthma. However, ML has also been reported to be useful in the treatment of acute and chronic inflammatory disorders of both infective and non-infective origin in which CysLTs are unlikely to be the predominant mediators of harmful inflammatory responses. These include conditions such as chronic obstructive pulmonary disease and cystic fibrosis in which the neutrophil is believed to be the primary offender, suggesting that ML may possess neutrophil-targeted, CysLT1R-independent mechanisms of anti-inflammatory activity. Accordingly, the laboratory research presented in this thesis was designed with the primary objectives of characterizing possible CysLT1R-dependent and – independent neutrophil-targeted anti-inflammatory activities of ML in vitro, and consisted of 3 phases. These were investigation of: i) the effects of the CysLTs, LTC4 and LTD4 (in the absence and presence of ML) on mobilization of intracellular Ca2+ stores, generation of reactive oxygen species (ROS) and release of primary and secondary granule proteinases; ii) the effects of ML on a series of pro-inflammatory activities of neutrophils following activation of the cells with the chemoattractants FMLP and platelet-activating factor (PAF); and iii) the interactive, anti-inflammatory effects on neutrophils of ML in combination with the long-acting beta-2 agonist, formoterol. In addition to the aforementioned activities, measurement of the production and expression of CR3, as well as generation of inositol triphosphate (IP3), cyclic AMP, and activities of the enzymes cAMP- and cGMP-phosphodiesterases (PDEs) in isolated neutrophil cytosol and membrane fractions, were also included. The following assays were used: i) chemiluminescence procedures for the detection of ROS; ii) a colourimetric procedure for the detection of elastase; iii) ELISA procedures for the detection of the matrix metalloproteinases (MMPs) 8- and -9, LTB4, and cyclic AMP; iv) fura-2-based spectrofluorimetry and a radiometric procedure for monitoring cytosolic Ca2+ fluxes; v) flow cytometry for CR3; and vi) radioassays for IP3 and activity of cAMP- and cGMP-PDEs. Exposure of neutrophils to LTD4, but not LTC4, activated a very modest and transient increase in cytosolic Ca2+, but failed to initiate the generation of ROS or release of elastase or MMP-8. However, brief pre-treatment with either LTC4 or LTD4 sensitized the cells for increased production of ROS and release of granule proteinases following activation with FMLP, which was partially attenuated by inclusion of ML. In the second part of the study, pre-treatment of neutrophils with ML, at therapeutically relevant concentrations, resulted in dose-related inhibition of the FMLP- or PAF-activated generation of ROS and LTB4, as well as the release of elastase, with the former being unaffected by an inhibitor of 5-lipoxygenase (MK886), compatible with a CysLT1R-independent mechanism of anti-inflammatory activity. From a mechanistic perspective, these interactions of ML with neutrophils were associated with accelerated clearance of Ca2+ from the cytosol of the cells which could not be attributed to inhibition of production of IP3, but was, however, associated with increased levels of cAMP, apparently as a consequence of non- specific inhibition of cyclic nucleotide phosphodiesterases. In the third part of the study, combining ML with formoterol caused (in most cases) additive inhibitory effects on the generation of ROS and LTB4, release of granule proteinases, as well as expression of CR3, which again were associated with elevations in cAMP and interference with Ca2+ mobilization. In conclusion, ML appears to attenuate neutrophil activation by CysLT1R-dependent and –independent mechanisms. In the case of the former by interfering with the modest sensitizing (priming) interactions of LTC4 and LTD4 with neutrophils, and in the latter by inhibition of PDEs, leading a to sustained elevation in cAMP, resulting in rapid clearance of Ca2+ from the cytosol and decreased uptake of the cation from the extracellular milieu. / Thesis (PhD)--University of Pretoria, 2011. / Immunology / Unrestricted
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Regulation of Eicosanoid Signaling in Airway Inflammation and Remodeling during AsthmaAl-Azzam, Nosayba Zakariya January 2017 (has links)
No description available.
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Rôle des eicosanoïdes post-greffe : implication dans la bronchiolite oblitérantePtaszynski, Stanislaw 02 1900 (has links)
Le rejet chronique se manifeste dans le poumon par la bronchiolite oblitérante
(BO), une pathologie inflammatoire et fibrotique menant à l’oblitération des
bronchioles. L’étiologie exacte de cette maladie demeure inconnue. Certaines études
suggèrent qu'un déséquilibre des leucotriènes (LT) sur les prostaglandines (PG)
favorise la fibrose pulmonaire. Les taux des LT et des PG dans le poumon humain
post-transplantation sont inconnus. Nous proposons qu'un déséquilibre de cystéinyl
leucotriènes (CysLT) sur la PGE2 existe dans le poumon transplanté et pourrait être
impliqué dans la pathogenèse de la BO. Aussi, les leucotriènes contribueraient à la
fibrose par la transition épithélio-mésenchymateuse (TEM). Afin de vérifier ces
hypothèses, nous avons déterminé les taux de CysLT et de PGE2 dans le liquide de
lavage broncho-alvéolaire (LBA) provenant de poumons transplantés chez l'homme
ainsi que leurs corrélations cliniques. Nous avons également déterminé la capacité
des CysLT à induire l’expression des marqueurs de la TEM in vitro. Nous avons
découvert des taux de CysLT et PGE2 supérieurs à la normale dans les LBA des
greffés. Un pic prédominant de CysLT sur PGE2 est observée à 52 semaines postgreffe
et deux facteurs de risque de la BO, les infections au CMV et à l’Aspergillus,
sont associés au ratio CysLT/PGE2> 1. In vitro, les CysLT induisent une répression
des marqueurs épithéliaux mais n’induisent pas l’expression de marqueurs
mésenchymateux chez les cellules épithéliales bronchiolaires. / Chronic rejection occurs, in the lung, in the form of bronchiolitis obliterans
(BO), an inflammatory and fibroproliferative disease that leads to the obliteration of
the bronchioles. A concept of the pathogenesis of BO has been suggested and several
risk factors are associated to it, however, the exact etiology of this disease remains
unknown. Studies have suggested that an imbalance of leukotrienes (LT) over
prostaglandins (PG) promotes pulmonary fibrosis. The levels of LT and PG in the
human lung post-transplantation are unknown. We propose that an imbalance of
cysteinyl leukotrienes (CysLT) on PGE2 exists in the transplanted lung and may be
implicated in the pathogenesis of BO. We also suggest that leukotrienes contribute to
fibrosis through epithelial-mesenchymal transition (EMT). In order to test these
hypotheses, we have determined the levels of CysLTs and PGE2 in human
transplanted lung bronchoalveolar lavage fluid (BALf) samples and their clinical
correlations. We have also determined the capacity of CysLT to induce the
expression of EMT markers in vitro. We found high average levels of CysLT and
PGE2 in the BAL of transplant patients. A predominant peak of CysLT over PGE2
was observed at 52 weeks post-transplantation and two risk factors for BO, CMV
infections and Aspergillus were associated with CysLT/PGE2 ratio> 1. According to
our experimental parameters, CysLT can induce the repression of epithelial markers
but do not induce the expression of mesenchymal markers in vitro in small airway
epithelial cells.
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Studies into sulfur amino acid and bile salt metabolism in pancreatic and liver diseases : profiles of sulfur amino acids and glutathione in acute pancreatitis : method development for total and oxidized glutathione by liquid chromatography : bile salt profiles in liver disease by liquid chromatography-mass spectrometrySrinivasan, Asha R. January 2010 (has links)
Sulfur amino acids have critical function as intracellular redox buffers and maintain homeostasis in the external milieu by combating oxidative stress. Synthesis of glutathione (GSH) is regulated at a substrate level by cysteine, which is synthesized by homocysteine via the transsulfuration pathway. Oxidative stress and diminished glutathione pools play a sustained role in the pathogenesis of acute pancreatitis. One of the aims of this study was to experimentally address the temporal relationship between plasma sulfur amino acid levels in patients suffering from acute pancreatitis. The data indicated low concentration of cysteine initially, at levels similar to those of healthy controls. Glutathione was found reduced whilst cysteinyl-glycine and γ- glutamyl transpeptidase activity were increased in both mild and severe attacks. As the disease progressed, glutathione and cysteinyl-glycine were further increased in mild attacks and cysteine levels correlated with homocysteine and γ-glutamyl transpeptidase activity. The progress of severe attacks was associated with glutathione depletion, reduced γ-glutamyl transpeptidase activity and increased cysteinyl-glycine, that correlated with glutathione depletion. The corollary that ample supply of cysteine and cysteinly-glycine does not contribute towards glutathione synthesis in acute pancreatitis poses an important issue that merits resolution. Heightened oxidative stress and depletion of glutathione rationalized the progression of disease in severe attacks. An upsurge that reactive oxygen species can shift redox state of cells is determined by the ratio of the abundant redox couples reduced and oxidized glutathione (GSH: GSSG) in cell. The study reported a novel methodology for quantification of total oxidized glutathione (tGSSG) and total glutathione (tGSH) in whole blood using reverse phase high performance liquid chromatography. The novelty of the method is ascertained by the use of a mercaptan scavenger 1, methyl-2-vinyl-pyridinium trifluromethanesulfonate for the total oxidized glutathione determination. The results reported permit quantitation of tGSSG and tGSH and was applied to a control group. Finally, the study was also focussed in developing a liquid chromatography-mass spectrometric method to evaluate free and conjugated bile acids in patients suffering from various degrees of cholestatic-hepatobiliary disorders. The study reported low levels of ursodeoxycholic acid (UDCA) and slightly high levels of lithocholic acid (LCA). All the primary bile acids seem to be conjugated with glycine and taurine amino acid.
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Rôle des eicosanoïdes post-greffe : implication dans la bronchiolite oblitérantePtaszynski, Stanislaw 02 1900 (has links)
Le rejet chronique se manifeste dans le poumon par la bronchiolite oblitérante
(BO), une pathologie inflammatoire et fibrotique menant à l’oblitération des
bronchioles. L’étiologie exacte de cette maladie demeure inconnue. Certaines études
suggèrent qu'un déséquilibre des leucotriènes (LT) sur les prostaglandines (PG)
favorise la fibrose pulmonaire. Les taux des LT et des PG dans le poumon humain
post-transplantation sont inconnus. Nous proposons qu'un déséquilibre de cystéinyl
leucotriènes (CysLT) sur la PGE2 existe dans le poumon transplanté et pourrait être
impliqué dans la pathogenèse de la BO. Aussi, les leucotriènes contribueraient à la
fibrose par la transition épithélio-mésenchymateuse (TEM). Afin de vérifier ces
hypothèses, nous avons déterminé les taux de CysLT et de PGE2 dans le liquide de
lavage broncho-alvéolaire (LBA) provenant de poumons transplantés chez l'homme
ainsi que leurs corrélations cliniques. Nous avons également déterminé la capacité
des CysLT à induire l’expression des marqueurs de la TEM in vitro. Nous avons
découvert des taux de CysLT et PGE2 supérieurs à la normale dans les LBA des
greffés. Un pic prédominant de CysLT sur PGE2 est observée à 52 semaines postgreffe
et deux facteurs de risque de la BO, les infections au CMV et à l’Aspergillus,
sont associés au ratio CysLT/PGE2> 1. In vitro, les CysLT induisent une répression
des marqueurs épithéliaux mais n’induisent pas l’expression de marqueurs
mésenchymateux chez les cellules épithéliales bronchiolaires. / Chronic rejection occurs, in the lung, in the form of bronchiolitis obliterans
(BO), an inflammatory and fibroproliferative disease that leads to the obliteration of
the bronchioles. A concept of the pathogenesis of BO has been suggested and several
risk factors are associated to it, however, the exact etiology of this disease remains
unknown. Studies have suggested that an imbalance of leukotrienes (LT) over
prostaglandins (PG) promotes pulmonary fibrosis. The levels of LT and PG in the
human lung post-transplantation are unknown. We propose that an imbalance of
cysteinyl leukotrienes (CysLT) on PGE2 exists in the transplanted lung and may be
implicated in the pathogenesis of BO. We also suggest that leukotrienes contribute to
fibrosis through epithelial-mesenchymal transition (EMT). In order to test these
hypotheses, we have determined the levels of CysLTs and PGE2 in human
transplanted lung bronchoalveolar lavage fluid (BALf) samples and their clinical
correlations. We have also determined the capacity of CysLT to induce the
expression of EMT markers in vitro. We found high average levels of CysLT and
PGE2 in the BAL of transplant patients. A predominant peak of CysLT over PGE2
was observed at 52 weeks post-transplantation and two risk factors for BO, CMV
infections and Aspergillus were associated with CysLT/PGE2 ratio> 1. According to
our experimental parameters, CysLT can induce the repression of epithelial markers
but do not induce the expression of mesenchymal markers in vitro in small airway
epithelial cells.
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Studies into sulfur amino acid and bile salt metabolism in pancreatic and liver diseases. Profiles of sulfur amino acids and glutathione in acute pancreatitis; method development for total and oxidized glutathione by liquid chromatography; bile salt profiles in liver disease by liquid chromatography-mass spectrometry.Srinivasan, Asha R. January 2010 (has links)
Sulfur amino acids have critical function as intracellular redox buffers and maintain
homeostasis in the external milieu by combating oxidative stress. Synthesis of
glutathione (GSH) is regulated at a substrate level by cysteine, which is synthesized by
homocysteine via the transsulfuration pathway. Oxidative stress and diminished
glutathione pools play a sustained role in the pathogenesis of acute pancreatitis.
One of the aims of this study was to experimentally address the temporal relationship
between plasma sulfur amino acid levels in patients suffering from acute pancreatitis.
The data indicated low concentration of cysteine initially, at levels similar to those of
healthy controls. Glutathione was found reduced whilst cysteinyl-glycine and ¿-
glutamyl transpeptidase activity were increased in both mild and severe attacks. As the
disease progressed, glutathione and cysteinyl-glycine were further increased in mild
attacks and cysteine levels correlated with homocysteine and ¿-glutamyl transpeptidase
activity. The progress of severe attacks was associated with glutathione depletion,
reduced ¿-glutamyl transpeptidase activity and increased cysteinyl-glycine, that
correlated with glutathione depletion. The corollary that ample supply of cysteine and
cysteinly-glycine does not contribute towards glutathione synthesis in acute pancreatitis
poses an important issue that merits resolution. Heightened oxidative stress and
depletion of glutathione rationalized the progression of disease in severe attacks.
An upsurge that reactive oxygen species can shift redox state of cells is determined by
the ratio of the abundant redox couples reduced and oxidized glutathione (GSH: GSSG)
in cell. The study reported a novel methodology for quantification of total oxidized
glutathione (tGSSG) and total glutathione (tGSH) in whole blood using reverse phase
high performance liquid chromatography. The novelty of the method is ascertained by
the use of a mercaptan scavenger 1, methyl-2-vinyl-pyridinium trifluromethanesulfonate
for the total oxidized glutathione determination. The results reported permit quantitation
of tGSSG and tGSH and was applied to a control group.
Finally, the study was also focussed in developing a liquid chromatography-mass
spectrometric method to evaluate free and conjugated bile acids in patients suffering
from various degrees of cholestatic-hepatobiliary disorders. The study reported low
levels of ursodeoxycholic acid (UDCA) and slightly high levels of lithocholic acid
(LCA). All the primary bile acids seem to be conjugated with glycine and taurine amino
acid.
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