• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 130
  • 61
  • 22
  • 14
  • 13
  • 12
  • 12
  • 12
  • 12
  • 12
  • 12
  • 12
  • 8
  • 1
  • 1
  • Tagged with
  • 326
  • 54
  • 39
  • 33
  • 31
  • 27
  • 26
  • 24
  • 23
  • 21
  • 21
  • 19
  • 19
  • 17
  • 17
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
231

Differential Roles of Tryptophan Residues in the Functional Expression of Human Anion Exchanger 1

Okawa, Yuka 15 August 2012 (has links)
Anion exchanger 1 (AE1) is a 95 kDa glycoprotein that facilitates Cl-/HCO3- exchange across the erythrocyte plasma membrane. Seven conserved tryptophan (Trp) residues are in the AE1 membrane domain; at the membrane interface (Trp648, Trp662, and Trp723), in transmembrane segment (TM) 4 (Trp492 and Trp496), and in hydrophilic loops (Trp831, and Trp848). All 7 Trp residues were individually mutated into alanine (Ala) and phenylalanine (Phe) and transiently expressed in human embryonic kidney (HEK)-293 cells. The 7 Trp residues could be grouped into three classes according to the impact of the mutations on the functional expression of AE1: class 1, normal expression, class 2, expression decreased, and class 3, expression decreased by Ala substitution. These results indicate that Trp residues play differential roles in AE1 expression depending on their location in the protein and suggest that Trp mutants with a low expression are misfolded and retained in the ER.
232

High Sensitivity Surface Enhanced Raman Scattering Detection of Tryptophan

Kandakkathara, Archana A Unknown Date
No description available.
233

The role of estrogen in the mood-lowering effects of acute tryptophan depletion in postmenopausal women /

Schleifer, Laura A. January 2001 (has links)
Depression is a major mental health problem for women. Several lines of evidence suggest that fluctuating levels of estrogen associated with various reproductive events are related to changes in mood. It has been hypothesized that estrogen may exert its influence on mood via its effect on the serotonergic system---a system frequently implicated in the regulation of mood. The major goal of the following study was to elucidate further the role of estrogen in mood regulation. To this end, we examined the role of estrogen in the mood-lowering effect of Acute Tryptohpan Deption (ATD), a technique designed to cause a marked lowering of plasma and brain tryptophan, and therefore brain serotonin levels, so that the effects of decreased serotonin on mood can be studied directly. We hypothesized that (1) exogenous estrogen may protect against the mood-lowering effects of ATD in postmenopausal women and that (2) a history of affective disturbance, particularly reproduction-related affective disturbance, would be associated with greater vulnerability to ATD as predicted by the kindling model of depression. Fifty-eight postmenopausal women were randomly assigned to treatment with estrogen (0.625 mg Premarin) or placebo in the context of prospective, double-blind, cross-over design. During the final two week sof the 12-week treatment phase, all participants completed one ATD test session and one nutritionally balanced amino acid control session. We found that: (1) treatment with exogenous estrogen significantly improved mood and menopausal symptoms as compared to placebo treatment, (2) ATD was associated with a significant lowering of mood in both groups, (3) treatment with estrogen did not protect women from ATD effects unless they responded to 11 weeks of treatment with exogenous estrogen with enhanced mood, and (4) a history of reproduction-related affective disturbance was associated with more dysphoric mood in response to ATD. In conclusion, these data provide further evi
234

THE DIFFERENCES BETWEEN IRON AND IRON-SUBSTITUTED MANGANESE SUPEROXIDE DISMUTASE WITH RESPECT TO HYDROGEN PEROXIDE TREATMENT

Wang, Jianing 01 January 2014 (has links)
Iron-substituted manganese superoxide dismutase (Fe(Mn)SOD) was produced using an in vivo preparation method. It’s an inactive enzyme in catalyzing superoxide radical dismutation owing to the mis-incorporation of Fe in the active site evolved to use Mn. To investigate the possible toxicity of human Fe(Mn)SOD proposed by Yamakura, we studied the properties of Fe(Mn)SOD upon H2O2 treatment and compared to that of FeSOD. It’s found that the responses to H2O2 treatment were different, including the changes of optical spectra, variations of active site coordination and secondary structures. Fe3+ reduction was not observed in Fe(Mn)SOD even H2O2 is believed to oxidize proteins via highly reactive intermediates including Fe and formed via Fe2+, which is true in FeSOD. What’s more, the activities of Fe(Mn)SOD and FeSOD were totally different in the ABTS assay or Amplex Red assay. These results indicated that the mechanism of peroxidase reaction of Fe(Mn)SOD is not identical to that of FeSOD.
235

Metabolismo do alcaloide antioxidante braquicerina de Psychotria brachyceras Müll. Arg. sob estresse de calor

Magedans, Yve Verônica da Silva January 2017 (has links)
O estresse de calor prejudica o crescimento e reprodução dos organismos vegetais, ao alterar a permeabilidade de membranas biológicas e desnaturar proteínas, limitando o metabolismo primário. Dentre as respostas ao estresse abiótico, está a síntese de metabólitos secundários. Braquicerina é um alcaloide monoterpeno indólico com ação antioxidante, protetora contra UV e antimutagênica sintetizado por partes aéreas de Psychotria brachyceras. O objetivo deste trabalho é investigar o metabolismo de braquicerina sob estresse de calor. Assim, espera-se contribuir para o conhecimento acerca do metabolismo secundário nas respostas ao estresse de calor, descrever a função in planta do composto, e fornecer ferramentas para obtenção do alcaloide para fins farmacêuticos. O acúmulo de braquicerina foi induzido em discos foliares mantidos a 40ºC por três dias, tanto em regime de elevação abrupta como gradual da temperatura. Baixa temperatura (10ºC) não afetou o acúmulo do alcaloide. Discos foliares de Psychotria carthagenensis, uma espécie que não sintetiza alcaloides monoterpeno indólicos, foram também desafiados por estresse de calor. Clorofila total, teor de peróxido de hidrogênio e peroxidação lipídica foram quantificados em ambas as espécies. P. carthagenensis foi relativamente tolerante ao calor, o que pode estar relacionado à sua elevada concentração de antocianinas, fortemente induzidas por choque térmico de 50ºC por 6h. Peroxidação lipídica foi reduzida nas amostras de P. brachyceras sob estresse de calor agudo ou gradual em comparação à condição controle, sendo este parâmetro inalterado nas duas condições em P. carthagenensis. O teor de peróxido de hidrogênio foi menor em P. brachyceras submetida a choque de térmico em relação ao controle, enquanto o mesmo parâmetro não foi alterado em P. carthagenensis. Discos foliares das espécies sensíveis ao calor Brugmansia suaveolens e Brassica oleracea, pré-tratadas com braquicerina em concentrações similares às encontradas em P. brachyceras, adquiriram fenótipo tolerante ao choque térmico. A expressão do gene que codifica a enzima triptofano descarboxilase (TDC), envolvida na biossíntese de braquicerina em P. brachyceras, foi fortemente inibida em discos foliares submetidos à 40ºC por 6h, 12h e 24h, sugerindo que o efeito da temperatura na estimulação de acúmulo de alcaloide ocorra em nível pós-transcricional. Em conjunto, os dados indicam que a exposição ao calor é um meio efetivo de aumentar o rendimento de braquicerina, cuja acumulação contribui para proteção contra os danos oxidativos associados. / Heat stress impairs plant growth and reproduction by altering membrane permeability and promoting protein denaturation, which limits primary metabolism. Secondary metabolites often take part in protection against abiotic stress responses. Brachycerine is a monoterpene indole alkaloid with antioxidant, UV protectant, and antimutagenic activity synthesized by Psychotria brachyceras shoots. Brachycerine metabolism was analyzed under heat stress, in order to shed light on brachycerine‘s in planta function and to provide potential tools to improve alkaloid yields for pharmaceutical analysis. Accumulation was induced in leaf disks kept at 40ºC for three days, both by abrupt and stepwise temperature increase. Brachycerine concentration was not affected by low temperature (10ºC) exposure. Leaf disks of Psychotria carthagenensis, a species devoided of alkaloids, were also challenged by heat. Total chlorophyll, hydrogen peroxide and lipid peroxidation concentrations were determined in both species. P. carthagenensis was relatively tolerant to heat treatments which may be explained by its high anthocyanin concentration, strongly induced by heat shock of 50ºC for 6h. Brugmansia suaveolens and Brassica oleracea, pre-treated with brachycerine in concentrations equivalent to those found in P. brachyceras, had a heat shock tolerant phenotype, based on chlorophyll content. Expression of the TRYPTOPHAN DECARBOXYLASE gene, which encodes for an enzyme involved in alkaloid biosynthesis (TDC) was strongly repressed in leaf disks exposed to 40ºC for 6h, 12h e 24h, suggesting that temperature effect may occur at post-transcriptional level. Taken together, data indicate that heat exposure is an effective means to increase yields of brachycerine, whose accumulation contributes to protect against associated oxidative damage.
236

Régulation de l'adaptation de la bactérie Pseudomonas aeruginosa à son hôte : implication des métabolites du tryptophane / Regulation of the adaptation of Pseudomonas aeruginosa to his host : involvement of tryptophan metabolites.

Chaker, Hichem 07 March 2012 (has links)
P. aeruginosa est un pathogène opportuniste capable d'infecter un large spectre d'hôtes. Elle possède un vaste arsenal de facteurs de virulence. Le système de sécrétion de type III (SSTT) est un facteur de virulence majeur dont la régulation est complexe pour permettre une adaptation la plus précise possible de la bactérie au cours de l'infection. Nous nous sommes intéressés à déterminer le rôle potentiel de nouveaux acteurs de l'adaptation de P.aeruginosa au cours de l'infection. La porine OprF qui représente la protéine la plus abondante de la membrane externe de P. aeruginosa lui permettrait d'évaluer l'état d'activation du système immunitaire de son hôte afin d'adapter sa virulence. Chez P. aeruginosa, le tryptophane est le précurseur des kynurenines qui sont également produites par l'hôte à partir du tryptophane et qui, dans ce dernier contexte, sont des immunomodulateurs. Peu ou pas d'études ont été réalisées pour mettre en œuvre un éventuel rôle d'immunomodulation ou dans la virulence des kynurénines bactériennes. Dans un premier temps, nous nous sommes intéressés à un signal anciennement découvert au laboratoire et qui réprime l'expression du SSTT à haute densité bactérienne. Nous avons montré que ce signal exerce une régulation post-transcriptionnelle en plus d'une inhibition de la transcription des gènes du SSTT. Le métabolisme du tryptophane et de l'anthranilate semble être au cœur de ce processus de régulation. En inactivant des voies du catabolisme du tryptophane, nous avons montré que la production de ce signal dépend partiellement de la voie des kynurénines mais ne dépend pas ni des voies classiques du quorum sensing ni de l'opéron phnAB, impliqué dans la synthèse de l'anthranilate. Cependant, la voie des phénazines pourrait être impliquée dans la production de ce signal. Par CLHP couplée à la spectrométrie de masse, nous avons pu séparer des espèces moléculaires réprimant le SSTT et qui sont contenues dans ce signal, mais l'identification précise nécessite plus d'investigations. Dans un second temps, nous nous sommes intéressés aux kynurénines produites par la bactérie. Nous avons confirmé que P. aeruginosa produit des kynurénines et le gène kynA est le gène clé de la voie de synthèse de ces métabolites. En utilisant des fusions transcriptionnnelles, nous avons montré que le tryptophane et la kynurénine régulent positivement la production des kynurénines en agissant sur l'expression des gènes clés. D'autres parts, nous avons remarqué que la bactérie module l'activité de la voie métabolique des kynurénines issue du tryptophane en fonction de son état de croissance. Nous avons montré qu'au cours du dialogue interrègne bactérie/hôte, la voie des kynurénines de P. aeruginosa est stimulée par certains composants du système immunitaire. Grâce à un modèle d'infection pulmonaire aiguë, nous avons prouvé que les kynurénines produites par la bactérie sont importantes pour sa virulence. Selon notre hypothèse les kynurénines pourraient avoir une action sur la réponse immune, mais cela reste à déterminer. Dans un troisième temps, nous nous somme focalisés sur la porine OprF. Nous avons montré que la mutation ∆oprF est à l'origine d'une altération de la production mais vraisemblablement pas de la sécrétion des exotoxines du SSTT. Un ligand connu d'OprF, l'interféron gamma, module la voie des kynurénines. OprF pourrait donc avoir un rôle central dans les différents aspects de la régulation de la virulence. Nous avons donc produit des anticorps monoclonaux anti-OprF. Ces derniers se sont révélés capables de reconnaître spécifiquement la protéine OprF. Afin de vérifier l'efficacité de ces anticorps, des expériences de neutralisation de la bactérie in vitro puis in vivo seront réalisées. Mots clés : Pseudomonas aeruginosa, Système de Sécrétion de Type III, régulation, catabolisme du tryptophane, kynurénines, OprF. / P. aeruginosa is an opportunistic pathogen capable of infecting a wide host range. It possesses a large arsenal of virulence factors. The type III secretion system (TTSS) is a major virulence factor whose regulation is complex to allow the most accurate adaptation of the bacteria during infection. We were interested to determine the potential role of new actors in the adaptation of P. aeruginosa during infection. OprF represents the most abundant protein of the outer membrane of P. aeruginosa. This protein allows bacteria to assess the activation status of the host's immune system to adapt its virulence. In P. aeruginosa, tryptophan is the precursor of kynurenines that are also produced by the host from tryptophan and in the latter context, are immunomodulators. Little or no studies have been done to determine a possible role of bacterial kynurenines in immune modulation or virulence. Initially, we were interested in a signal previously discovered in the laboratory and which suppresses the expression of TTSS at high bacterial density. We have shown that this signal exerts a post-transcriptional regulation in addition to inhibition of TTSS genes transcription. The metabolism of tryptophan and anthranilate appears to be at the heart of this regulatory process. By inactivating pathways of tryptophan catabolism, we showed that production of this signal depends partly on the kynurenines pathway but does not depend neither classical ways of quorum sensing or phnAB operon involved in the synthesis of anthranilate. However, the phenazines pathway could be involved in the production of this signal. By HPLC coupled with mass spectrometry, we were able to separate molecular species suppressing the TTSS and which are contained in this signal, but accurate identification requires further investigation. In a second time, we were interested to kynurenines produced by the bacterium. We confirmed that P. aeruginosa produces kynurenines and KynA is the key gene in the synthesis of these metabolites. We showed that tryptophan and kynurenine upregulate the production of kynurenines by acting on the expression of key genes. Other shares, we found that the bacterium modulates the activity of the kynurenines pathway depending on its state of growth. We showed that during the dialogue bacteria / host, the pathway of kynurenines in P. aeruginosa is stimulated by certain immune system components. With an acute lung infection model, we proved that kynurenines produced by the bacterium are important to its virulence. We hypothesized that the kynurenines could have an effect on the immune response, but this remains to be determined. In a third time, we focused on the protein OprF. We showed that mutation ΔoprF is causing an alteration in production but probably not the secretion of TTSS exotoxins. One known ligand of OprF is the gamma interferon. It modulates the pathway of kynurenines. OprF could therefore have a central role in various aspects of the regulation of virulence. So, we produced monoclonal anti-OprF which recognizes specifically the protein OprF. To verify the effectiveness of these antibodies, neutralization experiments of the bacteria in vitro and in vivo will be realized.
237

Níveis de triptofano em dietas para codorna japonesa em postura / Levels of tryptophan in diets for japanese quail in laying

Pinheiro, Sandra Regina Freitas 20 February 2006 (has links)
Made available in DSpace on 2015-03-26T13:54:55Z (GMT). No. of bitstreams: 1 texto completo.pdf: 209305 bytes, checksum: 0d6d8b132e97a2fe83f57d9f05c34f04 (MD5) Previous issue date: 2006-02-20 / Universidade Federal dos Vales do Jequitinhonha e Mucuri / An experiment was carried out in the Animal Science Department at the Universidade Federal de Viçosa. The objective was to determine the nutritional requirement of tryptophan for Japanese quail from 21 to 30 weeks of age. Four hundred Japanese quail, with initial weight of 158,49 grams and egg production average of 84,50%. The experimental design was completely randomized blocks, with eight blocks, in a factorial system of 5x3, with five levels of tryptophan and three experimental periods of 21 days each, all treatments were composed by eight repetitions of ten birds per repetition. The treatments consisted in five diets with 20% of crude protein, supplemented with five levels of L-tryptophan (0,000; 0,040; 0,080; 0,120 and 0,160%), providing a total of 0,120; 0,160; 0,200; 0,240 and 0,280% of digestible tryptophan, respectively. The birds were homogeneous according to the egg production rate and distributed in the cages, totally ten birds per cages. The studied variables were: feed intake (g/bird/day), tryptophan intake (mg/bird/day), egg production (%), production of marketable eggs (%/bird/day), egg medium weight (g), egg mass (kg/bird/day), feed conversion (kg intake feed per dozen eggs and kg eggs), weight of yolk (g), weight of albumen (g), weight of shell (g), percentage of yolk (%), percentage of albumen (%), percentage of shell (%), egg width (mm), egg length (mm), specific gravity (g/cm3) and units Haugh. Only the tryptophan intake, egg production rate, albumen weight, shell weight, percentage of shell, specific gravity and unit Haugh show significant effects (P<0,05) by tryptophan levels in the experimental diets. The performance of the quails in posture, respecting the statistical adjustment obtained through models of linear and quadratic regression and broken-line regression model, and the biological interpretation, allow us to conclude that to obtain the best productive performance, the quails diets should contain the level of 0,21% digestible tryptophan, what results in the daily intake of 45,0 mg per bird of tryptophan, corresponding to the relation of digestible tryptophan: digestible lysine ratio of 21%. / Desenvolveu-se um experimento, na seção de Avicultura do Departamento de Zootecnia, da Universidade Federal de Viçosa, com o objetivo de determinar a exigência nutricional de triptofano para codornas japonesas de 21 a 30 semanas de idade. Foram utilizadas 400 codornas, com peso inicial de 158,50 gramas e postura média de 84,50%. O delineamento experimental foi em blocos casualizados, contendo oito blocos, em esquema fatorial 5x3, sendo cinco tratamentos e três períodos experimentais de 21 dias, com oito repetições de dez aves/repetição. Os tratamentos consistiram de cinco dietas com 20% de proteína bruta, suplementada com cinco níveis de L-triptofano (0,000; 0,040; 0,080; 0,120 e 0,160%), fornecendo um total de 0,120; 0,160; 0,200; 0,240 e 0,280% de triptofano digestível, respectivamente. As aves foram homogenizadas segundo a taxa de produção de ovos e distribuídas nas gaiolas. As variáveis estudadas foram: consumo de ração (g/ave/dia), consumo de triptofano (mg/ave/dia), produção de ovos (%/ave/dia), produção ovos comercializáveis (%/ave/dia), peso médio dos ovos (g), massa de ovos (g/ave/dia), conversão alimentar (kg de ração/dúzia de ovos e por massa de ovos), peso de gema (g), peso de albúmen (g), peso de casca (g), porcentagem de gema (%), porcentagem de albúmen (%), porcentagem de casca (%), diâmetro do ovo (mm), altura do ovo (mm), gravidade específica (g/cm3) e unidade Haugh. As variáveis consumo de triptofano, produção de ovos, peso de albúmen, peso de casca, porcentagem de casca, altura do ovo, gravidade específica e unidade Haugh apresentaram efeitos significativos (P<0,05) dos níveis de triptofano nas dietas experimentais. As respostas de desempenho das codornas em postura, respeitando o ajuste estatístico obtido por meio de modelos de regressão linear e quadrática e do modelo descontínuo LRP, e a interpretação biológica, permitem concluir que para se obter o melhor desempenho produtivo, as dietas de codornas devem conter o nível de 0,21% de triptofano digestível, o que resulta no consumo diário de 45,0 mg/ave de triptofano, correspondendo à relação triptofano digestível: lisina digestível de 21%.
238

Metabolismo do alcaloide antioxidante braquicerina de Psychotria brachyceras Müll. Arg. sob estresse de calor

Magedans, Yve Verônica da Silva January 2017 (has links)
O estresse de calor prejudica o crescimento e reprodução dos organismos vegetais, ao alterar a permeabilidade de membranas biológicas e desnaturar proteínas, limitando o metabolismo primário. Dentre as respostas ao estresse abiótico, está a síntese de metabólitos secundários. Braquicerina é um alcaloide monoterpeno indólico com ação antioxidante, protetora contra UV e antimutagênica sintetizado por partes aéreas de Psychotria brachyceras. O objetivo deste trabalho é investigar o metabolismo de braquicerina sob estresse de calor. Assim, espera-se contribuir para o conhecimento acerca do metabolismo secundário nas respostas ao estresse de calor, descrever a função in planta do composto, e fornecer ferramentas para obtenção do alcaloide para fins farmacêuticos. O acúmulo de braquicerina foi induzido em discos foliares mantidos a 40ºC por três dias, tanto em regime de elevação abrupta como gradual da temperatura. Baixa temperatura (10ºC) não afetou o acúmulo do alcaloide. Discos foliares de Psychotria carthagenensis, uma espécie que não sintetiza alcaloides monoterpeno indólicos, foram também desafiados por estresse de calor. Clorofila total, teor de peróxido de hidrogênio e peroxidação lipídica foram quantificados em ambas as espécies. P. carthagenensis foi relativamente tolerante ao calor, o que pode estar relacionado à sua elevada concentração de antocianinas, fortemente induzidas por choque térmico de 50ºC por 6h. Peroxidação lipídica foi reduzida nas amostras de P. brachyceras sob estresse de calor agudo ou gradual em comparação à condição controle, sendo este parâmetro inalterado nas duas condições em P. carthagenensis. O teor de peróxido de hidrogênio foi menor em P. brachyceras submetida a choque de térmico em relação ao controle, enquanto o mesmo parâmetro não foi alterado em P. carthagenensis. Discos foliares das espécies sensíveis ao calor Brugmansia suaveolens e Brassica oleracea, pré-tratadas com braquicerina em concentrações similares às encontradas em P. brachyceras, adquiriram fenótipo tolerante ao choque térmico. A expressão do gene que codifica a enzima triptofano descarboxilase (TDC), envolvida na biossíntese de braquicerina em P. brachyceras, foi fortemente inibida em discos foliares submetidos à 40ºC por 6h, 12h e 24h, sugerindo que o efeito da temperatura na estimulação de acúmulo de alcaloide ocorra em nível pós-transcricional. Em conjunto, os dados indicam que a exposição ao calor é um meio efetivo de aumentar o rendimento de braquicerina, cuja acumulação contribui para proteção contra os danos oxidativos associados. / Heat stress impairs plant growth and reproduction by altering membrane permeability and promoting protein denaturation, which limits primary metabolism. Secondary metabolites often take part in protection against abiotic stress responses. Brachycerine is a monoterpene indole alkaloid with antioxidant, UV protectant, and antimutagenic activity synthesized by Psychotria brachyceras shoots. Brachycerine metabolism was analyzed under heat stress, in order to shed light on brachycerine‘s in planta function and to provide potential tools to improve alkaloid yields for pharmaceutical analysis. Accumulation was induced in leaf disks kept at 40ºC for three days, both by abrupt and stepwise temperature increase. Brachycerine concentration was not affected by low temperature (10ºC) exposure. Leaf disks of Psychotria carthagenensis, a species devoided of alkaloids, were also challenged by heat. Total chlorophyll, hydrogen peroxide and lipid peroxidation concentrations were determined in both species. P. carthagenensis was relatively tolerant to heat treatments which may be explained by its high anthocyanin concentration, strongly induced by heat shock of 50ºC for 6h. Brugmansia suaveolens and Brassica oleracea, pre-treated with brachycerine in concentrations equivalent to those found in P. brachyceras, had a heat shock tolerant phenotype, based on chlorophyll content. Expression of the TRYPTOPHAN DECARBOXYLASE gene, which encodes for an enzyme involved in alkaloid biosynthesis (TDC) was strongly repressed in leaf disks exposed to 40ºC for 6h, 12h e 24h, suggesting that temperature effect may occur at post-transcriptional level. Taken together, data indicate that heat exposure is an effective means to increase yields of brachycerine, whose accumulation contributes to protect against associated oxidative damage.
239

A sincronização noradrenérgica e o papel da insulina na modulação da síntese da melatonina pela glândula pineal de ratos. / Noradrenergic synchronization and the role of insulin on the modulation of melatonin synthesis in cultured rat pineal gland.

Rodrigo Antonio Peliciari Garcia 05 June 2008 (has links)
A glândula pineal de mamíferos sintetiza o hormônio melatonina exclusivamente durante o período noturno. A síntese é regulada primordialmente pela via retino-hipotalâmico-pineal e modulada por vários fatores, incluindo o sistema peptidérgico. Assim, o papel da insulina na regulação da síntese de melatonina foi estudado a partir da realização de culturas de glândulas pineais estimuladas com noradrenalina, insulina e noradrenalina associada à insulina, em culturas temporizadas ou não pela noradrenalina, avaliando: a produção de melatonina por HPLC com detecção eletroquímica; as atividades das enzimas envolvidas na síntese da melatonina, por radiometria; assim como, a expressão gênica das enzimas quantificada por Real-Time PCR. Os resultados sugerem uma interação entre as vias de sinalização da noradrenalina e da insulina, com a respectiva potencialização da síntese da melatonina, induzida por noradrenalina, observada pela adição da insulina, efeito esse, que se dá, provavelmente através de mecanismos pós-transcricionais. / The mammalian pineal gland synthesizes the neurohormone melatonin exclusively during the dark phase. Its synthesis is primarily regulated via a retino-hypothalamic-pineal pathway and modulated by many factors, including the peptidergic system. Thus, the role of insulin on the regulation of melatonin synthesis was studied using cultured gland treated with norepinephrine, insulin and norepinephrine associated to insulin. The cultures were also synchronized or not by norepinephrine. Melatonin content was assayed by HPLC (High Performance Liquid Chromatography) with electrochemical detection, melatonin synthesis enzymes activities by radiometry and enzymes gene expressions by Real-Time PCR. The results suggest an interaction between norepinephrine and insulin signaling pathway, with insulinic potentialization on melatonin synthesis norepinephrine-mediated, and this effect, seems to accurs potentially through post-transcriptional events.
240

Metabolismo de triptofano na vigência de choque endotóxico induzido por LPS e hipertriptofanemia / Metabolism of tryptophan in the presence of LPS-induced endotoxic shock and hypertryptofanemia

Silene Migliorini 15 December 2010 (has links)
Triptofano (TRP), um amino ácido essencial, é metabolizado por duas vias principais, a via das quinureninas e a via serotonérgica. Em ambas as vias há a possibilidade de formação de compostos ativos no sistema imune que se caracterizam pelas ações imunossupressoras e indutoras de tolerância. Na via serotonérgica há a formação de serotonina (5-HT) e em alguns tecidos de melatonina (MEL). Este composto pode ainda ser oxidado por ação de peroxidases aos seus produtos de abertura de anel indólico o AFMK (N1-acetil-n2-formil-5-metoxiquinuramina) e AMK (N1-acetil-5-metoxiquinuramina). Já na via das quinureninas, o TRP é diretamente metabolizado à N-formilquinurenina (NFK) e este é rapidamente deformilado a quinurenina (QUIN). Neste projeto avaliamos qual o efeito do choque endotóxico induzido por injeção endovenosa de LPS (1 mg/kg) sobre a biodisponibilidade de TRP e formação de seu metabólito QUIN. Este estudo foi realizado em condições controle e na vigência de sobrecarga de TRP (administração subcutânea de 0,8 mg/kg). Utilizamos ratos machos Wistar com 30 dias separados em quatro grupos: GI (controle), GII (LPS), GIII (TRP) e GIV (TRP+LPS). TRP (0,8 mg/Kg) foi injetado por via subcutânea nos tempos 0 e 2 horas. Quando injetado, LPS (1 mg/kg) foi administrado por via intravenosa no tempo 2 horas. Após 1 hora da última administração, sangue e cérebro foram coletados. O cérebro foi seccionado em três regiões: cerebelo, córtex e mesencéfalo, os quais foram processados para obtenção de homogenatos. Tanto os homogenatos quanto o soro foram tratados com acetona para extração de TRP e seus metabólitos. A análise destes compostos foi realizada por cromatografia líquida de alta eficiência (HPLC). A administração de TRP elevou significativamente a sua concentração no soro e no SNC. Quando da administração de LPS no grupo que já havia recebido sobrecarga de TRP (GIV) houve uma marcada elevação de TRP e de QUIN séricos e das regiões do SNC, especialmente na região do córtex. Concluímos que na vigência de choque endotóxico há um aumento da biodisponibilidade de TRP, tanto no soro como no SNC e que há um aumento da metabolização deste pela rota das quinureninas, possivelmente via IDO. Estes resultados contribuem para a compreensão da toxicidade de TRP, especialmente relevante no caso em que haja um choque endotóxico concomitante e evidencia o córtex como uma região mais susceptível para os efeitos tóxicos do TRP. / Tryptophan (TRP) is an essential amino acid, metabolized by two main paths; the kynurenine and the serotonergic pathways. In both, there is the possibility of generation of biologic active compounds, especially on the immune system leading to immunosuppression and tolerance. In the serotonergic path there is the formation of serotonine (5-HT) and in some tissues of melatonine (MEL). The latter can be oxidized by the action of peroxidases to its indole ring opening product AFMK (N1-acetil-n2-formil-5-methoxikynuramine) and AMK (N1-acethyl-5-methoxykynuramine). In the kynurenine path, TRP is metabolized to N-formylkynurenine (NFK) that is deformilated to kynurenine (KYN). In this study we evaluated the effect of a endotoxic skock induced by an intravenous injection of LPS (1 mg/kg) on the bioavailability of TRP and formation of KYN. This study was carried out in control conditions and on TRP overload (subcutaneous administration of 0,8 mg/Kg). One month old male Wistar rats were divide in four groups: GI(control), GII(LPS), GIII(TRP) and GIV (TRP+LPS). TRP (0,8 mg/kg) was subcutaneously injected at zero and 2h times. When injected, LPS (1mg/kg) was intravenously administered at 2 h. After one hour from the last administration, blood and brain were collected. Brain is separated in cerebellum, midbrain and cortex and was lysed for the preparation of homogenates. Both, serum and homogenates were extracted in acetone; TRP and KYN were analyzed by HPLC. TRP overload caused a significant increase in its concentration in serum and brain. When LPS was administered in conjunction with TRP overload (GIV) there was a remarkable increase in TRP and KYN in serum and brain, especially in cortex. Our conclusion is that in the bioavailability of TRP, in serum and in brain, and its metabolization to kynurenine is increased by inflammation. IDO is probably involved in this condition. Our results contribute to the knowledge of TRP toxicity, particularly with a concomitant inflammation and demonstrate the cortex as a region of more susceptibility to TRP toxicity.

Page generated in 0.0448 seconds