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The role of eosinophils in the neonatal murine thymus; Expression of Indoleamine 2,3-dioxygenaseCravetchi, Olga Vladimir 11 1900 (has links)
Rationale: Eosinophils are “end cell” leucocytes, associated with allergy, asthma and helminthiasis. At sites of inflammation, eosinophils may modulate immune response through expression of the extra-hepatic tryptophan-catabolising enzyme, Indoleamine 2, 3-dioxygenase (IDO). Kynurenines, products of tryptophan cleavage, induce apoptosis of T-cells, including thymocytes. Eosinophils naturally home to the thymi in mammals. Thymus is a primary lymphoid organ, where T-cells develop and undergo selection. My hypothesis is that eosinophils homing to the thymi participate in T-cell development through their expression of IDO. Methods: Immunohistochemistry revealed eosinophils in thymic tissue. Immunocytochemistry and flow cytometry were used to locate IDO protein expression in the thymus particularly in thymic eosinophils. RT-PCR and real-time PCR determined the presence of IDO mRNA in the thymus. Results: thymic eosinophils express IDO and infiltrate compartments associated with negative selection. The highest IDO transcription correlated with the influx of eosinophils and prevalence of immature thymocytes. / Experimental Medicine
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Vascular effects of tryptophanGandhi, Jugal Daxesh 14 January 2010
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.
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Interactions of Metals and Radicals: A Biochemical Perspective in Tryptophan DioxygenaseDornevil, Kednerlin 07 July 2011 (has links)
An intriguing mystery about tryptophan 2, 3-dioxygenase is its hydrogen peroxide-triggered enzyme reactivation from the resting ferric oxidation state to the catalytically active ferrous form. In this study, we found that such an odd Fe(III) reduction by an oxidant depends on the presence of L-Trp, which ultimately serves as the reductant for the enzyme. In the peroxide reaction with tryptophan 2, 3-dioxygenase, a previously unknown catalase-like activity was detected. A ferryl species (δ = 0.055 mm/s and ΔEQ = 1.755 mm/s) and a protein-based free radical (g = 2.0028 and 1.72 millitesla linewidth) were characterized by Mössbauer and EPR spectroscopy, respectively. This is the first compound ES-type of ferryl intermediate from a heme-based dioxygenase characterized by EPR and Mössbauer spectroscopy. Density functional theory calculations revealed the contribution of secondary ligand sphere to the spectroscopic properties of the ferryl species. A Trp-Trp dimer and a monooxygenated L-Trp were both observed as the enzyme reactivation by-products by mass spectrometry. Together, these results lead to the unraveling of an over 60-year old mystery of peroxide reactivation mechanism.
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Vascular effects of tryptophanGandhi, 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.
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The role of eosinophils in the neonatal murine thymus; Expression of Indoleamine 2,3-dioxygenaseCravetchi, Olga Vladimir Unknown Date
No description available.
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The effect of food access schedule and diet composition on the rhythmicity of serum melatonin and pineal N-acetyltransferase activity in rats /Oguine, Adaora. January 2002 (has links)
Melatonin is a hormone secreted by the pineal gland, which is known to modulate biological rhythms in mammals. This study investigated the effect of food access schedule and dietary composition on serum melatonin and pineal NAT activity in adult male Wistar rats. These rats were maintained on a 12:12 h light:dark schedule with lights on at 0800h. The rats were randomly assigned to two dietary groups. A group was simultaneously fed a protein-rich and carbohydrate-rich granulated diet and the other group fed granulated rat chow. Each dietary group was further divided based on dietary feeding schedules. Animals were fed between 0800--1600 h or fed ad libitum. The study revealed that protein intake of rats fed the dietary choice was lower with the restricted access than in the free access. In rats fed dietary choice, the nocturnal melatonin levels and pineal NAT activity were significantly lower under the restricted access feeding when compared to the ad libitum feeding schedule. This was not observed in rats fed single chow diet. In conclusion our data demonstrate that food composition does affect the nocturnal synthesis of melatonin as well as the activity of the enzyme NAT. This could be via dietary intake of tryptophan, which is a precursor melatonin synthesis in the pineal gland.
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Probing the active site of anthranilate phosphoribosyltransferase from Mycobacterium tuberculosis to facilitate novel drug developmentCookson, Tammie Violet Marie January 2013 (has links)
Caused by the organism Mycobacterium tuberculosis (Mtu), the globally distributed disease tuberculosis was responsible for the deaths of 1.4 million people in 2011. Anthranilate phosphoribosyltransferase (AnPRT) is an enzyme that catalyses the second committed step of the tryptophan biosynthetic pathway within Mtu, and is a promising target for antibiotics. This research aimed to further understand the mechanics of the AnPRT active site, in order to provide useful information towards AnPRT drug design. AnPRT inhibition and alternate substrates were investigated as well as variant AnPRT proteins, the results of which aided in unravelling a complex active site mechanism and illuminating several decisive inhibition strategies.
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Serotonin biosynthesis and receptors in helminthsHamdan, Fadi F. January 2000 (has links)
Serotonin is a very important neuromodulatory agent that affects many physiological and behavioral responses of both vertebrates and invertebrates. In helminths, especially parasitic ones, not much is known about the biosynthesis and mode of action of serotonin or any of the related biogenic amine neurotransmitters, such as catecholamines (dopamine and noradrenaline). In this study, we cloned two full length cDNAs from Schistosoma mansoni encoding tryptophan hydroxylase (TPH) and tyrosine hydroxylase (TH). TPH and TH catalyze the rate limiting steps in the biosynthesis of serotonin and catecholamines, respectively. Both enzymes were expressed in Escherichia coli and the purified proteins were shown to have TPH and TH activities. This indicates that S. mansoni, and possibly other parasitic helminths, may be capable of synthesizing serotonin and catecholamines endogenously. In the second part of our studies, we looked at the mode of action of serotonin in helminths, in particular the molecular properties of serotonergic G protein-coupled receptors (GPCR). We cloned two helminth GPCRs, one from the free living nematode Caenorhabditis elegans and the second from S. mansoni. The C. elegans receptor (5-HT2Ce) was shown to encode a functional serotonin receptor with structural and signaling properties similar to those of mammalian 5-HT2 receptors. However, its agonist I antagonist binding profile differed from previously characterized serotonin receptors. The cloned S. mansoni receptor (SmGPCRx) was found to represent a new structural class of receptor, which shared about the same level of amino acid sequence homology with various biogenic amines receptors, such as serotonin, catecholamines, and octopamine receptors. Additional sequence analysis and immunolocalization studies confirmed that SmGPCRx possesses structural characteristics of a GPCR. SmGPCRx is the first GPCR ever cloned from a parasitic flatworm. Taken together, these studies mark an important first step to
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The chromatography and detection of various metabolites along the tryptophan-kynurenine-nicotinic acid pathway with application to plasma and homogenized rat kidney and liver /Markus, George Eugene. January 1982 (has links)
No description available.
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Genetic Combining Analysis of Food-Grade Maize: Colored and Quality ProteinMahan, Adam Lyle 2012 August 1900 (has links)
Maize genetic diversity includes an array of kernel colors (red, blue, purple) with blue concentrated in the aleurone and red primarily in the pericarp. Quality protein maize (QPM) is improved over normal maize in regards to grain concentration of the essential amino acids lysine and tryptophan but has not been widely adapted in part due to lower than conventional yields. These are minimally-utilized specialty corns when compared to the yellows and whites commonly grown. Red, blue, and purple pigments are antioxidant phytochemicals produced by the plant as secondary metabolites. Antioxidants have been linked to anti-cancer and other anti-inflammatory health benefits. QPM hybrids are desirable in developing countries where subsistent agriculture is commonly practiced and quality protein cereals are non-existent. These two diverse maize categories have been the subject of little breeding research compared to normal maize and the potential for high phenolic content as well as the characterization of these QPM hybrids has not been previously investigated. We evaluated 153 maize hybrids (84 colored, 69 QPM) across three locations. High heritability estimates were found for phenolic content (0.80), tryptophan (0.46), and endosperm opacity (0.82). It was encouraging that all three traits observed little genotype by environment (GxE) interaction across diverse environments. This proved the trait analysis procedure to be robust in detecting and separating genotypes for both total phenolic content in colored maize, and amino acids in QPM. Top combiners for phenolics were the purple maize "maize morado" and red lines, with blue, yellow and white maize performing in descending order. Within the tested hybrids, high per kernel antioxidants (measured by total phenolics) may be the answer for producing the most total phenolics, with the top hybrid yielding greater than twice the total phenolics as the top yielding yellow hybrid. The top QPM hybrid out yielded the top normal hybrid by 35 and 30% for lysine and tryptophan. Additionally, QPM endosperm opacity primarily followed an additive, mid-parent trend, with some hybrids (20%) from diverse germplasm backgrounds deviating from that trend displaying the complexity and recessive nature of multiple modifier loci. Additional agronomic and composition traits were minimally correlated with phenolics.
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