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SULFATED DEHYDROPOLYMER OF CAFFEIC ACID FOR REPAIR OF LUNG DAMAGE AND EMPHYSEMATruong, Tien M 01 January 2016 (has links)
The complex pathobiologic mechanisms of emphysema are not fully understood, leaving this deadly disease without effective pharmacotherapy for a cure. This project hypothesized that the sulfated dehydropolymer of caffeic acid (CDSO3) exhibits Fe2+ chelation-based hypoxia inducible factor-1a (HIF-1a) up-regulatory protective activities against in vitro emphysematous cell death and for in vivo reversal of emphysema induced with SU5416, a vascular endothelial growth factor blocker.
Using in vitro chromogenic competitive inhibition assays, CDSO3 was shown to chelate Fe2+ (IC50 of 23 µM), but not Fe3+ ions. The trypan blue exclusion and lactate
dehydrogenase assays were then employed to examine the cytoprotective activities of CDSO3 against inflammatory, oxidative, elastolytic, and apoptotic cell death using alveolar macrophages, epithelial and endothelial cells. CDSO3 at 10 µM produced significant protective activities against these emphysematous cell deaths by 50-154 %. These protective effects were opposed by the addition of the HIF-1a inhibitors, CAY10585 and echinomycin, and excess Fe2+, but not Fe3+, ions.
Emphysema was then induced in rats following a subcutaneous injection of SU5416 at 20 mg/kg, after which CDSO3 at 60 µg/kg was administered to the lungs 3 times/week for two weeks. Treadmill exercise endurance (EE) was measured to assess the functional impairment, while lung tissues were removed for morphological assessments of alveolar airspace enlargement (MLI) and destruction (DI), as well as to measure protein levels using Western blot. SU5416 significantly impaired EE, MLI, and DI by 81 %, 47 %, and 5-fold, compared to the healthy animals, and these were significantly reversed by CDSO3 by 66, 74, and 87 %. CDSO3 treatment did not change the lung cytoplasmic expression of histone deacetylase 2 (HDAC2), HIF-1a, or a pro-apoptotic marker, BAX. However, induction with SU5416 significantly reduced VEGF expression by 52 % and increased cleaved caspase-3 expression by 1.5-fold, compared to the healthy animals, while CDSO3 normalized the expressions of both proteins in these emphysematous animals. However, when CDSO3 was pre-mixed with excess Fe2+, the reversal activities of CDSO3 were diminished. In conclusion, this study has demonstrated the Fe2+ chelation-based HIF-1a up-regulatory dependent in vitro and in vivo lung repairing efficacies for CDSO3 in emphysema.
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Tanshinone IIA Inhibits VEGF Secretion and HIF-1a Expression in Cultured Human Retinal Pigment Epithelial Cells under HypoxiaAlzhrani, Rami Mohammed January 2016 (has links)
No description available.
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Arsenic Induced Pseudohypoxia in Malignant Transformation: the Role of HIF-1A Mediated Metabolism DisturbanceZhao, Fei January 2014 (has links)
Epidemiology studies have established a strong link between chronic arsenic exposure and lung cancer. Currently, contribution of perturbed energy metabolism to carcinogenesis is an intensive area of research. In several human cell culture models (primary, immortal, malignant), we observed that non-cytotoxic exposure to arsenite increased extracellular acidification rate. Lactate accumulation caused by extracellular acidification, could be inhibited by 2-deoxy-D-glucose, a non-metabolized glucose analog. This established that arsenite induces aerobic glycolysis (the Warburg effect), a metabolic shift frequently observed in the acquisition of malignancy. Our studies in BEAS-2B, a non-malignant pulmonary epithelial cell line, found that the metabolic perturbation began early in the course of malignant transformation by arsenite (6 weeks). Correlated with the surge of glycolysis, we found elevated levels of HIF-1A and loss of E-Cadherin during chronic arsenite exposure. Our evidence suggests that this metabolic shift is sustained by HIF-1A (hypoxia-inducible factor 1A). We found that arsenite-exposed BEAS-2B accumulated HIF-1A protein, and underwent transcriptional up-regulation of HIF-1A-target genes. Overexpression of HIF-1A increases glycolysis 15% (vs. control), confirming that HIF-1A can modulate glycolysis in BEAS-2B. Coincident with induction of glycolysis, we observed a decrease in E-cadherin expression, indicating loss of epithelial identity. HIF-1A stable knockdown in BEAS-2B abrogated the arsenite induction of glycolysis, and indicated suppression in colony formation. These findings suggest that the hypoxia-mimetic effect of arsenite plays an important role in arsenite-induced malignant transformation. The significance of this study is that arsenite-induced alteration of energy metabolism represents the type of fundamental perturbation that could extend to many diverse effects caused by arsenic.
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Estudo da correlação entre a expressão de genes reguladores do estado de hipóxia e a intensidade da resposta inflamatória aguda. / Study the function of genes regulating the hypoxia state in determining the intensity inflammatory response.Siqueira, Débora Mathias de 14 April 2009 (has links)
A hipóxia ocorre quando a demanda de oxigênio molecular necessário para gerar ATP é insuficiente. Os genes ativados por hipóxia compreendem o gene Hif-1a (Hipóxia-fator induzível 1a), Vegf-a (fator de crescimento endotelial vascular a), Arnt e Vhl (von Hippel-Lindau). Neste estudo foram utilizadas linhagens de camundongos geneticamente selecionados para alta (AIRmax) ou baixa (AIRmin) resposta inflamatória aguda (AIR). Foram realizados testes biológicos para caracterizar as reações inflamatórias produzidas por Biogel e TPA, bem como o tipo PAH cancerígeno. Testamos a expressão de mRNA de genes de hipóxia e caracterização de polimorfismo da região codificadora do Hif-1a no cromossomo 12. Camundongos AIRmax demonstraram uma maior reação inflamatória que os AIRmin para biogel e TPA enquanto o inverso foi observado com o DMBA. Os conjuntos de dados de fenótipos, expressão gênica e polimorfismo candidatam a região do cromossomo 12, que contém, entre outros, o gene Hif-1a, como participante da regulação da AIR. / Hypoxia occurs when the demand for molecular oxygen necessary to generate ATP is insufficient. Genes activated by hypoxia comprise the Hif-1a gene (Hypoxia-Inducible Factor 1a), Vegf-a (Vascular Endothelial Growth Factor a), Arnt and Vhl (von Hippel-Lindau). In this study we used lines of mice genetically selected for high (AIRmax) or low (AIRmin) acute inflammatory response (AIR). We conducted biological tests to characterize the inflammatory reactions produced by Biogel and TPA, and the type PAH carcinogen. We tested the mRNA expression of genes of hypoxia and characterization of polymorphism of the coding region of Hif-1a gene on chromosome 12. We found that the mice AIRmax had greater intensity of the inflammatory reaction that AIRmin to biogel and TPA while the reverse was observed with the DMBA. The data sets of phenotypes, gene expression and polymorphism applying the region of chromosome 12 that contains, among others, the gene Hif-1a, as part of the regulation of AIR.
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Estudo da correlação entre a expressão de genes reguladores do estado de hipóxia e a intensidade da resposta inflamatória aguda. / Study the function of genes regulating the hypoxia state in determining the intensity inflammatory response.Débora Mathias de Siqueira 14 April 2009 (has links)
A hipóxia ocorre quando a demanda de oxigênio molecular necessário para gerar ATP é insuficiente. Os genes ativados por hipóxia compreendem o gene Hif-1a (Hipóxia-fator induzível 1a), Vegf-a (fator de crescimento endotelial vascular a), Arnt e Vhl (von Hippel-Lindau). Neste estudo foram utilizadas linhagens de camundongos geneticamente selecionados para alta (AIRmax) ou baixa (AIRmin) resposta inflamatória aguda (AIR). Foram realizados testes biológicos para caracterizar as reações inflamatórias produzidas por Biogel e TPA, bem como o tipo PAH cancerígeno. Testamos a expressão de mRNA de genes de hipóxia e caracterização de polimorfismo da região codificadora do Hif-1a no cromossomo 12. Camundongos AIRmax demonstraram uma maior reação inflamatória que os AIRmin para biogel e TPA enquanto o inverso foi observado com o DMBA. Os conjuntos de dados de fenótipos, expressão gênica e polimorfismo candidatam a região do cromossomo 12, que contém, entre outros, o gene Hif-1a, como participante da regulação da AIR. / Hypoxia occurs when the demand for molecular oxygen necessary to generate ATP is insufficient. Genes activated by hypoxia comprise the Hif-1a gene (Hypoxia-Inducible Factor 1a), Vegf-a (Vascular Endothelial Growth Factor a), Arnt and Vhl (von Hippel-Lindau). In this study we used lines of mice genetically selected for high (AIRmax) or low (AIRmin) acute inflammatory response (AIR). We conducted biological tests to characterize the inflammatory reactions produced by Biogel and TPA, and the type PAH carcinogen. We tested the mRNA expression of genes of hypoxia and characterization of polymorphism of the coding region of Hif-1a gene on chromosome 12. We found that the mice AIRmax had greater intensity of the inflammatory reaction that AIRmin to biogel and TPA while the reverse was observed with the DMBA. The data sets of phenotypes, gene expression and polymorphism applying the region of chromosome 12 that contains, among others, the gene Hif-1a, as part of the regulation of AIR.
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Régulation de l’hème oxygénase-1 dans les macrophages au cours des pathologies pulmonaires liées à l’exposition de la fumée de cigarette / Regulation of heme oxygenase-1 in macrophages in smoking related pulmonary diseaseGoven, Delphine 10 July 2009 (has links)
L’intoxication tabagique, source d’oxydants, est un facteur de risque important de développement de l’emphysème pulmonaire et du pneumothorax spontané primitif. Les macrophages alvéolaires contribuent pour une large part à l’inflammation pulmonaire au cours de ces pathologies en produisant des métalloprotéases et des espèces réactives de l’oxygène à l’origine du déséquilibre des balances protéase/anti-protéase et oxydant/antioxydant. L'hème oxygénase-1 (HO-1), exprimée principalement par les macrophages, est une enzyme clé des défenses anti-oxydantes pulmonaires. Nous avons initialement étudié l’expression et la localisation cellulaire de l’HO-1 et de ses régulateurs potentiels (Nrf2, Keap1, Bach1 et HIF-1a) dans les macrophages alvéolaires au cours de l’emphysème pulmonaire post-tabagique et du pneumothorax spontané primitif. Les voies de régulation de l’expression de ces protéines ont été analysées in vitro sur des macrophages dérivés de la lignée THP-1 exposés ou non au condensat de fumée de cigarette et à l’hypoxieréoxygénation visant à mimer une partie des effets de l’atélectasie-réexpansion observée lors de la prise en charge thérapeutique des pneumothorax récidivants. Les travaux présentés dans cette thèse nous ont permis de mettre en évidence une altération de l’expression de la voie Nrf2/Keap1-Bach1 associée à une diminution de l’expression des enzymes anti-oxydantes, dont l’HO-1, dans les macrophages alvéolaires au cours de l’emphysème pulmonaire sévère post-tabagique, malgré un stress oxydant important. In vitro, ces altérations pourraient être liées à une activation spécifique des MAPKinases ERK1/2 et JNK par le condensat de fumée de cigarette. Nous avons également montré que la stimulation du système de l’HO-1 était probablement orchestrée par la voie du facteur HIF-1a, et non par celle de Nrf2, dans les macrophages alvéolaires au cours du pneumothorax spontané primitif récidivant du sujet fumeur. Ces résultats pourraient contribuer à une meilleure connaissance de la physiopathologie de l’emphysème pulmonaire et permettre d’envisager de nouvelles approches thérapeutiques basées sur la préservation et/ou la restauration de l’équilibre Nrf2/Keap1-Bach1. Nos travaux suggèrent également que la physiopathologie du pneumothorax spontané primitif est différente chez les patients fumeurs et non fumeurs. Le pneumothorax du sujet fumeur est associé à un stress oxydant pulmonaire et à une induction de l’HO-1 probablement orchestrée par HIF-1a. Ces résultats, confirmés in vitro, mettent en évidence une interaction potentielle entre le stress oxydant et l’hypoxie-réoxygénation / Chronic cigarette smoking, a source of oxidants, is an important risk factor for lung emphysema and primary spontaneous pneumothorax development. Alveolar macrophages are mainly involved in lung inflammation observed in these pathologies through the production of metalloproteases and reactive oxygen species resulting to protease/anti-protease and oxidant/anti-oxidant imbalances. Heme oxygenase-1 (HO-1), mainly expressed in macrophages, is a key enzyme in pulmonary anti-oxidant defences. Therefore, the first aim of our studies was to investigate the expression and cellular localisation of HO-1 and its potential regulators (Nrf2, Keap1, Bach1 and HIF-1a) in alveolar macrophages from smoking related lung emphysema and primary spontaneous pneumothorax. Regulation pathways involved in expression of these proteins were assessed in vitro in macrophage cell line THP-1 exposed or not to cigarette smoke condensate and with or without hypoxia-reoxygenation mimicking parts of events induced by atelectasia-reexpansion during recurrent pneumothorax constitution and treatment. In these studies, we showed an altered expression of Nrf2/Keap1- Bach1 pathway associated with a reduced expression of anti-oxidants enzymes, like HO-1, in alveolar macrophages from smoking related lung emphysema patients, despite an important oxidative stress. These alterations might be related to cigarette smoke condensate activated ERK1/2 and JNK MAPKinases as observed in THP-1 cells. Furthermore, we showed that HO- 1 system induction was mediated by HIF-1a instead of Nrf2 pathway in alveolar macrophages from smoking related recurrent primary spontaneous pneumothorax. These findings may contribute to a better knowledge of the pathophysiology of lung emphysema and could provide new therapeutic approaches based on preservation and/or restoration of Nrf2/Keap1-Bach1 equilibrium. Our results also suggest that the pathophysiology of primary spontaneous pneumothorax could be different in smokers and non smokers. Spontaneous pneumothorax in smokers is associated with lung oxidative stress and the orchestrated induction of HO-1 probably via HIF-1a. These results provide a new link between oxidative stress and hypoxia/reoxygenation
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bHLH and bHLH-LZ factor exchange at promotersLouphrasitthiphol, Pakavarin January 2015 (has links)
Mammalian promoters often contain DNA-elements that can be bound by a number of closely related transcription factors (TFs) that cannot bind to the same DNA-element simultaneously. It is possible that each TF responds to distinct cues, allowing the gene to be activated in response to multiple stimuli. An alternative possibility is that each TF binds sequentially, each contributing to the pre-initiation events leading up to transcription. Here, we explore the exchange of basic-Helix-Loop-Helix-Leucine-Zipper (bHLH-LZ) factors, USF1, USF2 and MITF at the TYROSINASE promoter following induction by UVB-irradiation and methotrexate-administration. We demonstrate, for the first time in human melanoma, differential induction kinetics of TYROSINASE gene in response to an initial or re-induction, a phenomenon akin to "transcription memory" previously described in yeast. We also show that USF2, specifically detected by two different antibodies targeting the N-terminal region, is largely cytoplasmic, at least in the cell lines we have investigated. We also showed that nucleo-cytoplasmic shuttling of these USF2 species is partly regulated by glucose. Using deletion mutants, we demonstrated the requirement of the amino-acids surrounding the USF-specific region and the basic domain in nuclear localisation of USF2, and that amino-acids 1−193 appear to enhance dimerization of USF2 in addition to the classical HLH-LZ dimerization domain. We will further investigate the role(s) played by MYC, MITF, HIF and USF exchange at common targets (which we identified through our ChIP-seq analysis) in gene activation and the effect on the (re)activation potential of these genes when DNA-binding by one or more of these factors are abolished, as well as when the promoter is monopolised by one of these factors through overexpression using cell lines expressing one of the bHLH-TFs under a tet-inducible promoter. In the long run, we aim to understand the potential differences in the role(s) of each bHLH-factors co-occupying E-box elements.
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Hypoxia Inducible Factor 1 Alpha (HIF-1a): A Major Regulator of Placental DevelopmentAlbers, Renee E. 03 September 2013 (has links)
No description available.
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The role of transcription factor Pitx1 and its regulation by hypoxia in Adolescent Idiopathic ScoliosisSuvarnan, Lakshmi 06 1900 (has links)
La scoliose idiopathique de l’adolescent (SIA) est définie comme une courbure de la
colonne vertébrale supérieure à 10 degrés, qui est de cause inconnue et qui affecte de façon prépondérante les adolescents. Des études précédentes sur des modèles murins ont démontré une inactivation partielle du gène Pitx1. Cette inactivation partielle provoque une déformation spinale sévère lors du développement des souris Pitx1+/-, ce qui est grandement similaire au phénotype de la SIA. En se basant sur ces observations, nous postulons que la perte de fonction de Pitx1 pourrait avoir un rôle dans la SIA et pourrait être régulée par des
mécanismes moléculaires spécifiques. En effet, des études faites sur l’expression de Pitx1 révèlent une perte de son expression dans les ostéoblastes dérivés de patients SIA au niveau de l’ARNm. Nous émettons l’hypothèse que la perte de Pitx1 dans la SIA pourrait être déclenchée par des facteurs hypoxiques puisqu’il est connu que Pitx1 est réprimé par l’hypoxie et que HIF-2 alpha est surexprimés dans les ostéoblastes des patients SIA même dans des conditions normoxiques. De plus, nous avons découvert une mutation dans le domaine ODD des HIF-1 alpha chez certains patients SIA (3,1%). Une fonction connue de ce domaine est de stabiliser et d’augmenter l’activité transcriptionnelle de HIF-1 alpha dans des
conditions normoxiques. Nous avons confirmé, par la technique EMSA, l’existence d’un
élément de réponse fonctionnel à l’hypoxie au niveau du promoteur de Pitx1. Cependant, des co-transfections avec des vecteurs d’expression pour HIF-1 alpha et HIF-2 alpha, en présence de leur sous-unité beta ARNT, ont conduit à une activation du promoteur de Pitx1 dans la lignée cellulaire MG-63 ainsi que dans les ostéoblastes des sujets contrôles. Il est intéressant
de constater qu’aucune activité du promoteur de Pitx1 dans les ostéoblastes SIA n’a été
observée, même après la co-expression de HIF-2 alpha et ARNT, confirmant le fait que
l’expression de Pitx1 est abrogée dans la SIA. Dans l’ensemble, nos résultats démontrent un rôle important de Pitx1 dans la SIA et une possible régulation par des facteurs hypoxiques. / Adolescent Idiopathic Scoliosis is a lateral curvature of the spine greater than 10
degrees, with an unknown cause, affecting primarily adolescents. Previous mouse model
studies showed that partial inactivation of Pitx1 gene resulted in the development of severe spinal deformities in Pitx1 +/- mice, which is strikingly similar to the AIS phenotype. Based on this observation, we postulated that loss of Pitx1 function might have a role in AIS and could be regulated through specific molecular mechanisms. Indeed, expression studies revealed a loss of Pitx1 expression in osteoblasts derived from AIS patients, at the mRNA level. We hypothesized that the loss of Pitx1 in AIS could be triggered by hypoxic factors,
since Pitx1 is known to be repressed by hypoxia and that HIF-2 alpha was up regulated in AIS osteoblasts even under normoxic conditions. Also, we found a mutation in the ODD domain of HIF-1 alpha in some AIS patients (3.1%), which is known to stabilize and enhance HIF-1 alpha transcriptional activity in normoxic conditions. We confirmed through
EMSA the existence of a functional hypoxia response element on Pitx1 promoter. However,
co-transfection assays with HIF-1 alpha and HIF-2 alpha expression vectors in the presence of their beta subunit ARNT led to the activation of Pitx1 promoter in human osteoblast cell line MG-63 cells and osteoblasts from control subjects. Interestingly, no Pitx1 promoter
activity was observed in AIS osteoblasts, even after the co expression of HIF2 alpha and ARNT, consolidating the fact that Pitx1 expression is abrogated in AIS. Taken together, our findings show an important role for Pitx1 in AIS and hypoxic factors could be one of its regulators.
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The role of transcription factor Pitx1 and its regulation by hypoxia in Adolescent Idiopathic ScoliosisSuvarnan, Lakshmi 06 1900 (has links)
La scoliose idiopathique de l’adolescent (SIA) est définie comme une courbure de la
colonne vertébrale supérieure à 10 degrés, qui est de cause inconnue et qui affecte de façon prépondérante les adolescents. Des études précédentes sur des modèles murins ont démontré une inactivation partielle du gène Pitx1. Cette inactivation partielle provoque une déformation spinale sévère lors du développement des souris Pitx1+/-, ce qui est grandement similaire au phénotype de la SIA. En se basant sur ces observations, nous postulons que la perte de fonction de Pitx1 pourrait avoir un rôle dans la SIA et pourrait être régulée par des
mécanismes moléculaires spécifiques. En effet, des études faites sur l’expression de Pitx1 révèlent une perte de son expression dans les ostéoblastes dérivés de patients SIA au niveau de l’ARNm. Nous émettons l’hypothèse que la perte de Pitx1 dans la SIA pourrait être déclenchée par des facteurs hypoxiques puisqu’il est connu que Pitx1 est réprimé par l’hypoxie et que HIF-2 alpha est surexprimés dans les ostéoblastes des patients SIA même dans des conditions normoxiques. De plus, nous avons découvert une mutation dans le domaine ODD des HIF-1 alpha chez certains patients SIA (3,1%). Une fonction connue de ce domaine est de stabiliser et d’augmenter l’activité transcriptionnelle de HIF-1 alpha dans des
conditions normoxiques. Nous avons confirmé, par la technique EMSA, l’existence d’un
élément de réponse fonctionnel à l’hypoxie au niveau du promoteur de Pitx1. Cependant, des co-transfections avec des vecteurs d’expression pour HIF-1 alpha et HIF-2 alpha, en présence de leur sous-unité beta ARNT, ont conduit à une activation du promoteur de Pitx1 dans la lignée cellulaire MG-63 ainsi que dans les ostéoblastes des sujets contrôles. Il est intéressant
de constater qu’aucune activité du promoteur de Pitx1 dans les ostéoblastes SIA n’a été
observée, même après la co-expression de HIF-2 alpha et ARNT, confirmant le fait que
l’expression de Pitx1 est abrogée dans la SIA. Dans l’ensemble, nos résultats démontrent un rôle important de Pitx1 dans la SIA et une possible régulation par des facteurs hypoxiques. / Adolescent Idiopathic Scoliosis is a lateral curvature of the spine greater than 10
degrees, with an unknown cause, affecting primarily adolescents. Previous mouse model
studies showed that partial inactivation of Pitx1 gene resulted in the development of severe spinal deformities in Pitx1 +/- mice, which is strikingly similar to the AIS phenotype. Based on this observation, we postulated that loss of Pitx1 function might have a role in AIS and could be regulated through specific molecular mechanisms. Indeed, expression studies revealed a loss of Pitx1 expression in osteoblasts derived from AIS patients, at the mRNA level. We hypothesized that the loss of Pitx1 in AIS could be triggered by hypoxic factors,
since Pitx1 is known to be repressed by hypoxia and that HIF-2 alpha was up regulated in AIS osteoblasts even under normoxic conditions. Also, we found a mutation in the ODD domain of HIF-1 alpha in some AIS patients (3.1%), which is known to stabilize and enhance HIF-1 alpha transcriptional activity in normoxic conditions. We confirmed through
EMSA the existence of a functional hypoxia response element on Pitx1 promoter. However,
co-transfection assays with HIF-1 alpha and HIF-2 alpha expression vectors in the presence of their beta subunit ARNT led to the activation of Pitx1 promoter in human osteoblast cell line MG-63 cells and osteoblasts from control subjects. Interestingly, no Pitx1 promoter
activity was observed in AIS osteoblasts, even after the co expression of HIF2 alpha and ARNT, consolidating the fact that Pitx1 expression is abrogated in AIS. Taken together, our findings show an important role for Pitx1 in AIS and hypoxic factors could be one of its regulators.
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