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Showing 41 to 50 of 54 (0.117 seconds)Spelling suggestions: "subject:"long inflammation""
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Imagerie fonctionnelle de la ventilation et de l’inflammation pulmonaires lors d'agression pulmonaire aiguë expérimentale / Functional imaging of pulmonary ventilation and inflammation in an experimental model of lung injuryPouzot-Névoret, Céline 09 November 2010 (has links)
Le syndrome de détresse respiratoire aiguë (SDRA) est caractérisé par des lésions alvéolairesdiffuses qui résultent d’une lésion de la membrane alvéolo-capillaire entrainant entre autresune réaction inflammatoire intense et une perte massive et hétérogène du volume pulmonaireaéré. La tomographie par émission de positons (TEP) et la tomographie par impédanceélectrique (TIE) sont deux techniques d’imagerie fonctionnelle permettant l’étude noninvasive, quantitative et régionale du poumon.Ce travail présente le résultat d’études expérimentales conduites dans le SDRA. Tout d’abord,nous avons comparé positivement la TIE à la TEP pour la mesure de la ventilation pulmonaireet du volume aéré. Nous avons ensuite décrit et validé une technique robuste d’obtention duvolume aéré et de la ventilation spécifique en TEP sans prélèvement invasif. Enfin, nousavons étudié en TEP l’influence de la pression expiratoire positive (PEP) et du décubitusventral (DV) sur la répartition de la ventilation, de la perfusion et de l’inflammationpulmonaires. Les poumons agressés par l’acide chlorhydrique inhalé ont une inflammationsignificativement plus élevée que le groupe contrôle. Aucune différence significatived’inflammation n’a été trouvée entre les groupes expérimentaux malgré des modificationsimportantes de la répartition de la ventilation et de la perfusion régionales lors de la mise enDV. Ces études donc ont permis le développement d’un modèle porcin stable d’agressionpulmonaire aiguë et la validation de techniques d’imagerie permettant l’étude non invasive deparamètres physiologiques importants pouvant aider au réglage de la ventilation mécanique aucours du SDRA. / Acute respiratory distress syndrome (ARDS) is characterized by diffuse alveolar damage andresulting from an increased permeability of the alveolar-capillary membrane. Of notice, thereis an intense lung inflammation. Positron emission tomography (PET) and electricalimpedance tomography (EIT) allow noninvasive assessment of pulmonary ventilation,perfusion and inflammation. We use these techniques to decipher the impairments ofventilation and inflammation throughout the lungs in an experimental model of acute lunginjury by hydrochloric acid inhalation in pigs.In a first study, we compared EIT to PET in quantifying pulmonary aerated volume andventilation, using PET as a gold standard. We found that lung ventilation and volume wereaccurately measured with EIT over a wide range of lung volume and minute ventilation. Wehave then described and validated a new model to obtain lung aerated volume and ventilationwith PET, without the requirement of gas sampling in the respiratory circuit. Finally, weconducted a controlled study with PET to evaluate the effects of positive end-expiratorypressure and body position on regional lung inflammation, ventilation and perfusion.Inflammation was significantly higher in injured groups than in control. However, there wasno significant change in inflammation across ALI groups despite significant differencebetween ventilation and perfusion repartition.We have developed in this work a stable experimental model of acute lung injury andvalidated noninvasive imaging tools allowing studying of important physiologic parametersthat could help setting up mechanical ventilation.
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Efeito da hipofunção colinérgica na mecânica e na histopatologia pulmonar em modelo experimental de inflamação pulmonar induzida por instilação de poluente em camundongos / Effects of cholinergic hipofunction in lung mechanics and histopathology in an experimental model of lung inflammation induced by air pollution in miceSantana, Fernanda Paula Roncon 03 November 2014 (has links)
Os motores a diesel são bastante utilizados nos centros urbanos e sua queima é considerada um grande poluidor ambiental e tóxico para a saúde humana. Devido suas características químicas, as partículas de diesel atingem as vias aéreas mais distais, o que pode induzir inflamação pulmonar e piorar doenças como asma brônquica e enfisema pulmonar. Recentemente foi demonstrado por nosso grupo que o sistema colinérgico anti-inflamatório é um importante modulador da inflamação pulmonar. Assim, nosso objetivo no presente estudo foi avaliar se a deficiência colinérgica induzida por alteração genética para redução da expressão da proteína vesicular transportadora de acetilcolina (VAChT) interfere nas alterações funcionais e histopatológicas pulmonares em modelo experimental de instilação repetida de partículas de exaustão de diesel (DEP). Para tanto, camundongos machos geneticamente modificados para redução de VAChT foram utilizados, divididos de acordo com a genotipagem em selvagem (WT) e knock-down para VAChT (KD) e submetidos ao protocolo de exposição de DEP, que consistiu em instilação intranasal de 10uL de DEP na concentração de 3mg/mL por 30 dias (5x por semana). Animais dos grupos controle receberam salina seguindo mesmo protocolo. Foram avaliados: alterações de mecânica do sistema respiratório, resposta inflamatória no lavado broncoalvelar (LBA), imunohistoquimica e Elisa para detecção de citocinas, remodelamento da matriz extracelular pulmonar e presença de muco no epitélio brônquico e nasal. Nossos resultados mostraram que animais selvagens submetidos à DEP apresentaram aumento de macrófagos no LBA e células mononucleares no sangue, da expressão de TNF-alfa, IL-4, IL-6 e IL-13 no tecido pulmonar, de remodelamento de fibras colágenas no tecido e aumento na produção de muco neutro nas vias aéreas quando comparado ao controle exposto à salina. Estas alterações foram associadas a uma piora da função pulmonar. A deficiência colinérgica nos animais que foram submetidos à instilação de DEP induziu um aumento de neutrófilos e linfócitos no LBA e granulócitos no sangue, da expressão de IL-4 e TNF-alfa no pulmão e do conteúdo de fibras elásticas na parede do septo alveolar. Além disso, induziu um aumento de muco ácido no epitélio nasal. Estes dados sugerem que, pelo menos em parte, o sistema colinérgico interfere na inflamação pulmonar induzida por exposição à DEP, uma vez que animais com deficiência colinérgica apresentam piora de alguns parâmetros inflamatórios não observados ou observados em menor escala nos animais selvagens / Diesel automotive engines are widely used in urban centers and its exhausts is considered a major environmental and toxic pollutant to human health. Because of their chemical characteristics, diesel particulate reaches more distal airways, which can induce and worsen pulmonary inflammation diseases such as bronchial asthma and pulmonary emphysema. It has recently been demonstrated by our group that the cholinergic anti-inflammatory system is an important modulator of lung inflammation. Thus, the aim of this study was to evaluate whether the cholinergic deficiency induced by reduced expression of the vesicular acetylcholine transporter protein (VAChT) interferes in pulmonary function and histopathological changes in an experimental model of repeated diesel exhaust particles (DEP) instillation. To this end, male mice with reduction in VAChT were used, divided according to genotyping for wild-type (WT) and knock-down for VAChT (KD), and submitted to DEP exposure protocol, which consisted in intranasal instillation of 10 ?L of DEP in a concentration of 3 mg/mL for 30 days (5x per week). Control groups received saline following the same protocol. We evaluated: respiratory mechanics, inflammation in broncoalveolar lavage (BAL), immunohistochemistry and ELISA for cytokine detection, pulmonary extracellular matrix remodeling and bronchial and nasal epithelium mucus. Our results showed that WT animals submitted to DEP protocol showed increased macrophages in BAL and mononuclear cells in peripheral blood, increased expression of TNF-alfa, IL-4, IL-6 and IL-13 in lung tissue, collagen fibers remodeling in lung parenchyma and increase in neutral mucus production in the airways when compared to the saline exposed animals. These changes were associated with worse lung function. The cholinergic deficiency in the animals instilled with DEP induced an increase in BAL neutrophils and lymphocytes and granulocytes in the peripheral blood, in the expression of IL-4 and TNF-alfa and in lung elastic fibers content in alveolar septa. In addition, there was an increase in acid mucus in nasal epithelium. These data suggest that, at least in part, cholinergic system interferes with pulmonary inflammation induced by DEP exposures, since animals with cholinergic deficiency exhibit some inflammatory alterations which are not observed or observed on a smaller scale in wild-type animals
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Mecanismos envolvidos na indução da inflamação alérgica pulmonar pela serino protease subtilisina. / Mechanisms involved in the induction of allergic lung inflammation to serine protease subtilisin.Florsheim, Esther Borges 15 September 2014 (has links)
A asma ocupacional é a forma mais comum de doença pulmonar relacionada ao trabalho e vários dos casos reportados estão correlacionados à exposição de proteases. A serino protease subtilisina foi bastante utilizada na década de 60 e foi a principal responsável pela alta incidência de asma na indústria de detergente. Este projeto visou a desenvolver um modelo murino de inflamação alérgica pulmonar à subtilisina e caracterizar os mecanismos principais envolvidos nessa resposta. A sensibilização e desafio com subtilisina induziu doença alérgica pulmonar, verificada pela eosinofilia às vias aéreas, produção de muco, IgE total, hiper reatividade brônquica e produção de citocinas tipo II no pulmão. Estas respostas foram dependentes da atividade enzimática da subtilisina, PAR-2, receptor de IL-33 ST2, IL-1R e da sinalização via MyD88. Em conjunto, nossos resultados estabelecem um novo modelo experimental de asma ocupacional induzida por subtilisina e fornece os principais mecanismos moleculares responsáveis pela inflamação alérgica. / Occupational asthma is the most common form of pulmonary disease related to work. Most of occupational asthma cases reported are strictly correlated with proteases exposure. Serine protease subtilisin was widely used in the detergent industry during the 60s, which resulted in increased incidence of occupational asthma. We aimed to develop and characterize a murine model of occupational asthma using subtilisin as allergen. Briefly, sensitization and challenge with subtilisin triggered lung allergic inflammation, as accessed by eosinophilic influx to the airways, mucus production, and increased levels of type II cytokines. Subtilisin induced total IgE and airway hyperactivity. Allergic responses to subtilisin were dependent on its serine protease activity, protease-activated receptor (PAR)-2, IL-33 receptor ST2, IL-1R, and Myd88 signaling. Together, these data establish a new murine model of occupational asthma induced by subtilisin and provide the main molecular mechanisms responsible for allergic inflammation.
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Étude au niveau pulmonaire du profil d’expression de gènes et de protéines chez le rat exposé par inhalation à un aérosol de particules nanostructurées de dioxyde de titane / Study of gene expression and protein profiles in rat lungs exposed by inhalation to a nanostructured aerosol of titanium dioxideChézeau, Laëtitia 15 October 2018 (has links)
En raison de l'utilisation croissante de nanomatériaux dans divers procédés industriels, le nombre de salariés potentiellement exposés ne cesse d’augmenter, sans que pour autant les propriétés toxicologiques de ces agents chimiques ne soient parfaitement connues. Comme des nanoparticules (NP) peuvent être mises en suspension dans les environnements de travail, l'inhalation représente la principale voie d'exposition professionnelle. Ainsi, l’évaluation des dangers associés à l’exposition à des aérosols nanostructurés nécessite de réaliser des études de toxicologie expérimentale par inhalation, en utilisant des modèles animaux. Dans ce travail, les propriétés toxicologiques pulmonaires d’un aérosol nanostructuré de dioxyde de titane (TiO2) ont été étudiées à court et long termes, en combinant des analyses toxicologiques conventionnelles (analyses du lavage broncho-alvéolaire (LBA), histopathologie des poumons et des ganglions lymphatiques); et de criblage moléculaire à haut contenu (analyses de transcriptomique et de protéomique). Des rats Fischer 344 ont été exposés par inhalation oro-nasale, à un aérosol nanostructuré de TiO2 à 10 mg / m3 ; 6 heures par jour, 5 jours par semaine pendant 4 semaines. Des échantillons biologiques ont été prélevés immédiatement et jusqu'à 180 jours suivant la fin de l'exposition. L'exposition à l'aérsosol nanostructuré de TiO2 a entraîné une importante réponse inflammatoire pulmonaire aiguë. Cette réponse était caractérisée par un influx de granulocytes neutrophiles, la présence de macrophages chargés en particules au niveau alvéolaire, la surexpression de gènes et de protéines impliqués dans les réponses inflammatoires et immunitaires, les cascades du complément et de la coagulation, le stress oxydant. Certains gènes surexprimés étaient également impliqués dans les lésions de l'ADN et la fibrose; et certaines protéines surexprimées étaient associées au protéasome et à l'organisation du cytosquelette. Dans le surnageant du LBA, l’augmentation du niveau d'histones et d'autres protéines associées aux pièges extracellulaires des neutrophiles (Neutrophilic Extracellular Trap, NET) suggère la libération de ces pièges extracellulaires dans l'espace alvéolaire. Cette libération possible de NET se produit dans un contexte inflammatoire mais en l'absence de changements histopathologiques significatifs. Ce processus inattendu n’a fait l’objet que de très peu d’études en lien avec une exposition à des nanomatériaux. Six mois après la fin de l'exposition (réponse à long terme), l'inflammation a diminué et s’accompagnait d’une baisse de la charge pulmonaire de titane (un marqueur fiable de la charge pulmonaire en nanoparticules de TiO2), mais de nombreux gènes et protéines étaient différentiellemment exprimés. Les conséquences physiopathologiques des changements rapportés ici ne sont pas entièrement connues, mais ces résultats devraient susciter des interrogations quant aux effets pulmonaires à long terme des NP inhalées biopersistantes de faible toxicité comme le TiO2. En conclusion, ce travail montre qu'il existe une bonne relation entre les changements cytologiques et histopathologiques d'une part et les modifications des profils d'expression de gènes et de protéines d'autre part. Cependant, dans certains cas, la transcriptomique et la protéomique pourraient être plus sensibles que les méthodes conventionnelles pour identifier de nouvelles propriétés toxicologiques, ou pour mieux comprendre les mécanismes moléculaires sous-jacents de la toxicité des produits chimiques. Notre étude avec d'autres travaux de la littérature pourraient également être utiles pour identifier des biomarqueurs d’exposition aux nanomatériaux ou prédire leurs effets nocifs à long terme / Due to the growing use of nanomaterials in various industrial processes, the number of workers potentially exposed is increasing even though the toxicological properties of these compounds are not completely known. Since nanoparticles (NP) may get aerosolized, inhalation represents their main route of occupational exposure. Then, inhalation studies of nanomaterial toxicity in animal models appear to be the most relevant approach to assess their hazards. In this work, we studied the short and long term pulmonary toxicological properties of inhaled titanium dioxide (TiO2) nanostructured aerosol (NSA), using conventional (broncho-alveolar lavage (BAL) analyses, lung and lymph nodes histopathology); and high content molecular toxicological approaches (transcriptomics and proteomics analyses). Fischer 344 rats were exposed to 10 mg/m3 of TiO2 nanostructured aerosol by nose-only inhalation, 6h/day, 5 days/week for 4 weeks. Biological samples were collected immediately and up to 180 post-exposure days. Exposure to TiO2 NSA resulted in a strong acute pulmonary inflammation. This response was characterized by a neutrophil influx, the presence of particle-laden macrophages in the alveolar lumen, as well as overexpression of genes and proteins involved in inflammatory and immune responses, complement and coagulation cascades, oxidative stress. Some overexpressed genes were also involved in DNA damage and fibrosis; and some overexpressed proteins in proteasome and cytoskeleton organization. In the BAL supernatant, the increased level of histones and other neutrophilic extracellular trap (NET) -associated proteins suggests the release of these traps in the alveolar space. This possible NET release occurs in an inflammatory context but in the absence of significant histopathological changes. Very few studies reported this unexpected process related to exposure to nanomaterials. Six months after the end of exposure (long-term response), inflammation had decreased in line with the decrease of titanium lung burden (a surrogate for TiO2 pulmonary deposition), but many genes and proteins remained differentially expressed. The physiopathological consequences of the molecular changes reported here are not fully known, but these results should raise concern about the long-term pulmonary effects of inhaled low toxicity NP such as TiO2. Altogether, this work shows that there is a good relationship between cytological and histopathological changes in one hand and gene as well as protein expression profile modifications in the other hand. However, in some cases transcriptomics or proteomics could be more sensitive than conventional methods to identify new toxicological properties or to better understand the underlying molecular mechanisms of chemicals toxicity. Our study along with others could also be helpful to identify biomarkers of exposure or predict the long-term adverse effects of nanomaterials
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Instilação nasal de LPS ou suco gástrico como fator exacerbador da inflamação pulmonar ocasionada pela isquemia e reperfusão intestinal em camundongos. / Intranasal instillation of LPS or gastric juice as an exacerbating factor of lung inflammation induced by intestinal ischemia and reperfusion.Soares, Alexandre Learth 03 July 2009 (has links)
A isquemia e reperfusão intestinal (I/R-i) é relevante fator para o desenvolvimento da síndrome do desconforto respiratório agudo (SDRA). A lesão tecidual decorrente da I/R-i pode ser local e em órgãos distante do sitio isquêmico, notadamente o pulmão. Indivíduos submetidos à isquemia intestinal ao tornarem-se vulneráveis, desenvolvem resposta exacerbada a estímulos inflamatórios secundários constituindo assim a percepção de lesão decorrente de uma dupla agressão. Neste estudo desenvolvemos modelo murino de dupla agressão pulmonar ocasionada pela I/R-i seguida de estímulo da instilação nasal de LPS ou de suco gástrico (SG). A fase de caracterização do modelo de I/R-i revelou aumento de IL-6, G-CSF, KC, IP-10 e MCP-1, mas não de TNF-a no soro e em homogeneizados de pulmão e intestino. Anticorpos anti TNF-a e o etanercepte falharam em inibir o aumento de MPO pulmonar e intestinal após a I/R-i. A instilação nasal de LPS após a I/R-i aumentou a atividade pulmonar de MPO e exacerbou a permeabilidade vascular pulmonar. Neste caso, aminoguanidina ou a vimblastina reverterem o aumento da permeabilidade vascular, sugerindo a participação conjunta de neutrófilos e óxido nítrico no processo lesivo causado pela dupla agressão. A instilação nasal de SG induziu aumento inicial (2h) de MPO pulmonar seguido de influxo de neutrófilos (24h) para o espaço alveolar. Tal processo foi acompanhado por expressão inicial e transiente de TNF-a no LBA e contrabalanceada por IL-10. A resposta inflamatória aumentada de camundongos IL-10 KO à instilação de suco gástrico mostra o papel fundamental desta citocina do controle da inflamação. O rolipram ou o composto PKF 241-466 (inibidores de TNF-a) reduziram a inflamação pulmonar induzida pelo SG. A instilação de SG após a I/R-i (I/R-i +SG) exacerbou o aumento da permeabilidade vascular pulmonar. Os dados apresentados sugerem que a exposição do organismo ao trauma intestinal torna o pulmão suscetível a um estímulo secundário como o LPS e o suco gástrico. Visto a gama de estímulos inflamatórios a que indivíduos internados em unidades de terapia intensiva podem ser submetidos, os resultados deste estudo podem contribuir para a compreensão dos mecanismos reguladores do recrutamento de neutrófilos e geração de mediadores inflamatórios na síndrome do desconforto respiratório agudo. / Intestinal ischemia and reperfusion (I/R) is implicated as a prime initiating event in the development of systemic inflammatory syndrome and Acute Respiratory Distress Syndrome (ARDS). Several studies pointed the possibility of massive systemic inflammatory events rendering the lungs more susceptible to an exacerbated inflammatory response, the so called two-hit hypothesis. In this way, minor local inflammatory stimuli could be a trigger for ARDS. In this study we investigated the effects of low-dose LPS or gastric juice (GJ) administered by nasal instillation to mice previously submitted to intestinal I/R. Our data showed that i-I/R alone induced histological signs of edema in lung as well as an increase of lung MPO activity and IL-6, G-CSF, KC, IP-10 and MCP-1 levels. Nasal instillation of LPS following i-I/R increased lung MPO activity and exacerbated lung vascular permeability. In this case, aminoguanidine or vinblastine blocked the increase of vascular permeability, suggesting the role of neutrophils and nitric oxide in injury induced by the two-hit stimuli. Instillation of GJ induced an initial (2h) increase of lung MPO followed by the influx of neutrophils (24h) to the alveolar space. Such process was followed by the transient expression of TNF-a in BAL and balanced by IL-10. The exacerbated inflammatory response of IL-10 KO mice to GJ instillation shows the importance of this cytokine in the control of the inflammation in such model. Treatment with rolipram or PKF 241-466 compound (TNF-a inhibitors) reduced lung inflammation induced by GJ. Nasal instillation of GJ after i-I/R exacerbated the increase in lung vascular permeability. The data shown suggest that the exposition of the organism to mesenteric trauma primes the host organism to a secondary inflammatory stimulus such as LPS or gastric juice. Considering the possible multiple insults to lung to which patients in intensive care units are submitted, the results of this study might contribute to the understanding of the regulatory mechanisms of neutrophils and generation of inflammatory mediators in the context of ARDS.
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Candidate gene approach to investigating airway inflammation and asthmaLaing, Ingrid A. January 2005 (has links)
[Truncated abstract] Asthma genetic studies have identified many genes that contribute to the pathogenesis of asthma and related variables. Members of the secretoglobin family appear to play an important role in controlling airway inflammation but they have received relatively little attention in asthma genetic research. In this thesis, I have investigated the genes of two members of the secretoglobin family (16 kDa Clara cell secretory protein (CC16) and secretoglobin 3A2 (SCGB3A2)) that are expressed at high levels in the airways and are important anti-inflammatory agents. The overall aim of these studies was to investigate the genetic variability of the CC16 and SCGB3A2 genes and their influence on airway inflammatory disease. The main hypothesis was that genetic variability in the genes for CC16 and SCGB3A2 exert an influence on airway inflammatory disease. Three populations were investigated: (1) a paediatric case control population (n=99), (2) an unselected birth cohort followed longitudinally at ages 1 month (n=244), six (n=123) and 11 years (n=195) and (3) an unselected Aboriginal Australian population (n=251). The case-control population was screened for novel DNA sequence variants in the CC16 promoter and the SCGB3A2 5’UTR and exons. No novel sequence variants were identified in the CC16 promoter and two were identified in the SCGB3A2 5’UTR (G- 811A and G-205A). A single nucleotide polymorphism previously identified in the CC16 gene (A38G) and the two polymorphisms identified in the SCGB3A2 gene were genotyped in both unselected populations. Genotype/phenotype associations were identified with adjustment for potential confounders such as age, gender, height and maternal tobacco smoking, where appropriate. This was due to the contribution of these factors to the aetiology of asthma, atopy and related phenotypes. All three polymorphism frequencies were significantly different between these two ethnically diverse populations
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Instilação nasal de LPS ou suco gástrico como fator exacerbador da inflamação pulmonar ocasionada pela isquemia e reperfusão intestinal em camundongos. / Intranasal instillation of LPS or gastric juice as an exacerbating factor of lung inflammation induced by intestinal ischemia and reperfusion.Alexandre Learth Soares 03 July 2009 (has links)
A isquemia e reperfusão intestinal (I/R-i) é relevante fator para o desenvolvimento da síndrome do desconforto respiratório agudo (SDRA). A lesão tecidual decorrente da I/R-i pode ser local e em órgãos distante do sitio isquêmico, notadamente o pulmão. Indivíduos submetidos à isquemia intestinal ao tornarem-se vulneráveis, desenvolvem resposta exacerbada a estímulos inflamatórios secundários constituindo assim a percepção de lesão decorrente de uma dupla agressão. Neste estudo desenvolvemos modelo murino de dupla agressão pulmonar ocasionada pela I/R-i seguida de estímulo da instilação nasal de LPS ou de suco gástrico (SG). A fase de caracterização do modelo de I/R-i revelou aumento de IL-6, G-CSF, KC, IP-10 e MCP-1, mas não de TNF-a no soro e em homogeneizados de pulmão e intestino. Anticorpos anti TNF-a e o etanercepte falharam em inibir o aumento de MPO pulmonar e intestinal após a I/R-i. A instilação nasal de LPS após a I/R-i aumentou a atividade pulmonar de MPO e exacerbou a permeabilidade vascular pulmonar. Neste caso, aminoguanidina ou a vimblastina reverterem o aumento da permeabilidade vascular, sugerindo a participação conjunta de neutrófilos e óxido nítrico no processo lesivo causado pela dupla agressão. A instilação nasal de SG induziu aumento inicial (2h) de MPO pulmonar seguido de influxo de neutrófilos (24h) para o espaço alveolar. Tal processo foi acompanhado por expressão inicial e transiente de TNF-a no LBA e contrabalanceada por IL-10. A resposta inflamatória aumentada de camundongos IL-10 KO à instilação de suco gástrico mostra o papel fundamental desta citocina do controle da inflamação. O rolipram ou o composto PKF 241-466 (inibidores de TNF-a) reduziram a inflamação pulmonar induzida pelo SG. A instilação de SG após a I/R-i (I/R-i +SG) exacerbou o aumento da permeabilidade vascular pulmonar. Os dados apresentados sugerem que a exposição do organismo ao trauma intestinal torna o pulmão suscetível a um estímulo secundário como o LPS e o suco gástrico. Visto a gama de estímulos inflamatórios a que indivíduos internados em unidades de terapia intensiva podem ser submetidos, os resultados deste estudo podem contribuir para a compreensão dos mecanismos reguladores do recrutamento de neutrófilos e geração de mediadores inflamatórios na síndrome do desconforto respiratório agudo. / Intestinal ischemia and reperfusion (I/R) is implicated as a prime initiating event in the development of systemic inflammatory syndrome and Acute Respiratory Distress Syndrome (ARDS). Several studies pointed the possibility of massive systemic inflammatory events rendering the lungs more susceptible to an exacerbated inflammatory response, the so called two-hit hypothesis. In this way, minor local inflammatory stimuli could be a trigger for ARDS. In this study we investigated the effects of low-dose LPS or gastric juice (GJ) administered by nasal instillation to mice previously submitted to intestinal I/R. Our data showed that i-I/R alone induced histological signs of edema in lung as well as an increase of lung MPO activity and IL-6, G-CSF, KC, IP-10 and MCP-1 levels. Nasal instillation of LPS following i-I/R increased lung MPO activity and exacerbated lung vascular permeability. In this case, aminoguanidine or vinblastine blocked the increase of vascular permeability, suggesting the role of neutrophils and nitric oxide in injury induced by the two-hit stimuli. Instillation of GJ induced an initial (2h) increase of lung MPO followed by the influx of neutrophils (24h) to the alveolar space. Such process was followed by the transient expression of TNF-a in BAL and balanced by IL-10. The exacerbated inflammatory response of IL-10 KO mice to GJ instillation shows the importance of this cytokine in the control of the inflammation in such model. Treatment with rolipram or PKF 241-466 compound (TNF-a inhibitors) reduced lung inflammation induced by GJ. Nasal instillation of GJ after i-I/R exacerbated the increase in lung vascular permeability. The data shown suggest that the exposition of the organism to mesenteric trauma primes the host organism to a secondary inflammatory stimulus such as LPS or gastric juice. Considering the possible multiple insults to lung to which patients in intensive care units are submitted, the results of this study might contribute to the understanding of the regulatory mechanisms of neutrophils and generation of inflammatory mediators in the context of ARDS.
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Mecanismos envolvidos na indução da inflamação alérgica pulmonar pela serino protease subtilisina. / Mechanisms involved in the induction of allergic lung inflammation to serine protease subtilisin.Esther Borges Florsheim 15 September 2014 (has links)
A asma ocupacional é a forma mais comum de doença pulmonar relacionada ao trabalho e vários dos casos reportados estão correlacionados à exposição de proteases. A serino protease subtilisina foi bastante utilizada na década de 60 e foi a principal responsável pela alta incidência de asma na indústria de detergente. Este projeto visou a desenvolver um modelo murino de inflamação alérgica pulmonar à subtilisina e caracterizar os mecanismos principais envolvidos nessa resposta. A sensibilização e desafio com subtilisina induziu doença alérgica pulmonar, verificada pela eosinofilia às vias aéreas, produção de muco, IgE total, hiper reatividade brônquica e produção de citocinas tipo II no pulmão. Estas respostas foram dependentes da atividade enzimática da subtilisina, PAR-2, receptor de IL-33 ST2, IL-1R e da sinalização via MyD88. Em conjunto, nossos resultados estabelecem um novo modelo experimental de asma ocupacional induzida por subtilisina e fornece os principais mecanismos moleculares responsáveis pela inflamação alérgica. / Occupational asthma is the most common form of pulmonary disease related to work. Most of occupational asthma cases reported are strictly correlated with proteases exposure. Serine protease subtilisin was widely used in the detergent industry during the 60s, which resulted in increased incidence of occupational asthma. We aimed to develop and characterize a murine model of occupational asthma using subtilisin as allergen. Briefly, sensitization and challenge with subtilisin triggered lung allergic inflammation, as accessed by eosinophilic influx to the airways, mucus production, and increased levels of type II cytokines. Subtilisin induced total IgE and airway hyperactivity. Allergic responses to subtilisin were dependent on its serine protease activity, protease-activated receptor (PAR)-2, IL-33 receptor ST2, IL-1R, and Myd88 signaling. Together, these data establish a new murine model of occupational asthma induced by subtilisin and provide the main molecular mechanisms responsible for allergic inflammation.
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Efeito da hipofunção colinérgica na mecânica e na histopatologia pulmonar em modelo experimental de inflamação pulmonar induzida por instilação de poluente em camundongos / Effects of cholinergic hipofunction in lung mechanics and histopathology in an experimental model of lung inflammation induced by air pollution in miceFernanda Paula Roncon Santana 03 November 2014 (has links)
Os motores a diesel são bastante utilizados nos centros urbanos e sua queima é considerada um grande poluidor ambiental e tóxico para a saúde humana. Devido suas características químicas, as partículas de diesel atingem as vias aéreas mais distais, o que pode induzir inflamação pulmonar e piorar doenças como asma brônquica e enfisema pulmonar. Recentemente foi demonstrado por nosso grupo que o sistema colinérgico anti-inflamatório é um importante modulador da inflamação pulmonar. Assim, nosso objetivo no presente estudo foi avaliar se a deficiência colinérgica induzida por alteração genética para redução da expressão da proteína vesicular transportadora de acetilcolina (VAChT) interfere nas alterações funcionais e histopatológicas pulmonares em modelo experimental de instilação repetida de partículas de exaustão de diesel (DEP). Para tanto, camundongos machos geneticamente modificados para redução de VAChT foram utilizados, divididos de acordo com a genotipagem em selvagem (WT) e knock-down para VAChT (KD) e submetidos ao protocolo de exposição de DEP, que consistiu em instilação intranasal de 10uL de DEP na concentração de 3mg/mL por 30 dias (5x por semana). Animais dos grupos controle receberam salina seguindo mesmo protocolo. Foram avaliados: alterações de mecânica do sistema respiratório, resposta inflamatória no lavado broncoalvelar (LBA), imunohistoquimica e Elisa para detecção de citocinas, remodelamento da matriz extracelular pulmonar e presença de muco no epitélio brônquico e nasal. Nossos resultados mostraram que animais selvagens submetidos à DEP apresentaram aumento de macrófagos no LBA e células mononucleares no sangue, da expressão de TNF-alfa, IL-4, IL-6 e IL-13 no tecido pulmonar, de remodelamento de fibras colágenas no tecido e aumento na produção de muco neutro nas vias aéreas quando comparado ao controle exposto à salina. Estas alterações foram associadas a uma piora da função pulmonar. A deficiência colinérgica nos animais que foram submetidos à instilação de DEP induziu um aumento de neutrófilos e linfócitos no LBA e granulócitos no sangue, da expressão de IL-4 e TNF-alfa no pulmão e do conteúdo de fibras elásticas na parede do septo alveolar. Além disso, induziu um aumento de muco ácido no epitélio nasal. Estes dados sugerem que, pelo menos em parte, o sistema colinérgico interfere na inflamação pulmonar induzida por exposição à DEP, uma vez que animais com deficiência colinérgica apresentam piora de alguns parâmetros inflamatórios não observados ou observados em menor escala nos animais selvagens / Diesel automotive engines are widely used in urban centers and its exhausts is considered a major environmental and toxic pollutant to human health. Because of their chemical characteristics, diesel particulate reaches more distal airways, which can induce and worsen pulmonary inflammation diseases such as bronchial asthma and pulmonary emphysema. It has recently been demonstrated by our group that the cholinergic anti-inflammatory system is an important modulator of lung inflammation. Thus, the aim of this study was to evaluate whether the cholinergic deficiency induced by reduced expression of the vesicular acetylcholine transporter protein (VAChT) interferes in pulmonary function and histopathological changes in an experimental model of repeated diesel exhaust particles (DEP) instillation. To this end, male mice with reduction in VAChT were used, divided according to genotyping for wild-type (WT) and knock-down for VAChT (KD), and submitted to DEP exposure protocol, which consisted in intranasal instillation of 10 ?L of DEP in a concentration of 3 mg/mL for 30 days (5x per week). Control groups received saline following the same protocol. We evaluated: respiratory mechanics, inflammation in broncoalveolar lavage (BAL), immunohistochemistry and ELISA for cytokine detection, pulmonary extracellular matrix remodeling and bronchial and nasal epithelium mucus. Our results showed that WT animals submitted to DEP protocol showed increased macrophages in BAL and mononuclear cells in peripheral blood, increased expression of TNF-alfa, IL-4, IL-6 and IL-13 in lung tissue, collagen fibers remodeling in lung parenchyma and increase in neutral mucus production in the airways when compared to the saline exposed animals. These changes were associated with worse lung function. The cholinergic deficiency in the animals instilled with DEP induced an increase in BAL neutrophils and lymphocytes and granulocytes in the peripheral blood, in the expression of IL-4 and TNF-alfa and in lung elastic fibers content in alveolar septa. In addition, there was an increase in acid mucus in nasal epithelium. These data suggest that, at least in part, cholinergic system interferes with pulmonary inflammation induced by DEP exposures, since animals with cholinergic deficiency exhibit some inflammatory alterations which are not observed or observed on a smaller scale in wild-type animals
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Avaliação das funções erétil e vascular de ratos com inflamação pulmonar decorrente da exposição ao material particulado ambiental liberado na exaustão do diesel. / Evaluation of erectile and vascular functions in rat with lung inflammation evoked by exposure to diesel exhaust particles.Oliveira, Juliano Fernandes de 30 September 2010 (has links)
Este estudo se propôs a avaliar o potencial inflamatório das partículas eliminadas na exaustão do diesel (PED) e 1,2-naftoquinona (1,2-NQ) sobre outros compartimentos, como o músculo liso vascular (aorta torácica; RTA) e do corpo cavernoso isolados de ratos (RCC) e os mecanismos envolvidos via ensaios funcionais e bioquímicos. A injeção i.tr. das PED e 1,2-NQ em ratos Wistar causou inflamação e hiporreatividade das vias aéreas associados ao aumento significativo do relaxamento evocado pela ACh na RTA. No RCC desses mesmos animais, tanto o GTN quanto o estímulo elétrico (EFS) causou maior relaxamento. O conteúdo basal de TBARs na RTA e pulmão foi reduzido, embora outros testes indicadores de estresse oxidativo e / ou atividade antioxidante não mostraram diferenças entre os grupos. As taxas de expressão gênica / protéica da nNOS no RCC de ratos não diferiram do grupo controle, mas a expressão da eNOS e iNOS foi reduzida na RTA e RCC. Não foram quantificadas concentrações séricas do TNF<font face=\"Symbol\">α ou IL-1<font face=\"Symbol\">b, sugerindo que os efeitos sistêmicos ocorrem independentemente destas citocinas. Conclui-se que o tratamento agudo de ratos com a mistura de poluentes induziu inflamação das vias aéreas (e hiporreatividade), capaz de afetar outros compartimentos, como a musculatura lisa vascular (RTA) e do RCC. / We tested the hypothesis that local inflammation in the airways evoked by intra-tracheal instillation of the environmental chemical 1,2-naphthoquinone (1,2-NQ) and diesel exhaust particles (DEP) is capable of targeting other systemic compartments, such as vessels (rat thoracic aorta; RTA) and corpus cavernosum (RCC), and possible involved mechanisms. After 3h, this treatment induced airways hyporresponsiveness to ACh and local inflammation. This effect was associated with decreased numbers of leukocyte in the blood and spleen and increased number of leukocytes in the bone marrow. Pollutant treatment also markedly increased ACh-induced relaxation in RTA and by both GTN- and electrical stimulation-induced relaxation in RCC. Exposure to pollutants did not affect FE-induced contraction in RTA. Neither serum levels of cytokines (TNF<font face=\"Symbol\">α e IL-1<font face=\"Symbol\">b) nor basal concentration of total nitrate were different amongst groups. No evidence of increased catalase activity in RTA, RCC and lung was found. The treatment reduced the eNOS e iNOS gene expression in RTA e RCC, without significantly affecting the nNOS gene expression in RCC. Our results are consistent with the hypothesis that DEP-induced airways hiporresponsiveness and inflammation can account to produce systemic changes, such as structural and functional changes in the RTA and RCC by means of substances derived from endothelium or due to the ability of these pollutants to act to stimulate the production of scavenger of free radical.
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