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Avaliação toxicogenética e ecotoxicológica de corantes têxteis / Toxicogenetic and ecotoxicological assessment of textile dyesOliveira, Gisele Augusto Rodrigues de 12 June 2013 (has links)
O tingimento de tecidos começou há milhares de anos e a disponibilidade comercial de corantes é enorme e crescente. A indústria têxtil brasileira desempenha um papel de inquestionável importância, destacando-se entre as principais atividades econômicas do país. O processo de tingimento é um dos fatores fundamentais no sucesso comercial dos produtos têxteis, uma vez que o consumidor exige cores resistentes à exposição ao calor, à luz, à transpiração e às lavagens. Segundo a literatura, condições de transpiração intensa contribuem para uma alta taxa de migração e subseqüente penetração de corantes têxteis para a pele humana. Além disso, 2 a 50% desses compostos permanecem no banho de tingimento e são descartados nos efluentes industriais, contaminando o ambiente e colocando em risco a saúde humana, uma vez que os métodos convencionais de tratamento de efluentes são ineficientes na remoção da coloração e da mutagenicidade de alguns corantes. Dentro deste contexto, este trabalho teve como objetivo avaliar os efeitos toxicogenéticos do corante Direct Black (DB38) original e após extração por lixiviação com suor sintético, utilizando o teste do cometa com fibroblastos e queratinócitos de pele humana, o teste Anexina V com fibroblastos e o ensaio de mutagenicidade com Salmonella typhimurium. Adicionalmente, foi investigada a ecotoxicidade dos corantes têxteis Direct Black 38 e Reactive Blue 15 (RB15) originais por meio de ensaios com sementes, dapnhias, minhocas e zebrafish realizados na UTOX, em Barcelona. O corante DB38 original e lixiviado não induziram genotoxicidade em fibroblastos e queratinócitos de pele humana. O corante DB38 original foi mutagênico para as linhagens TA98 e TA100 de S. typhimurium na presença de S9. Entretanto, o corante lixiviado não induziu mutagenicidade para essas linhagens testadas, considerando que a maior taxa de migração do corante para a solução de suor foi de ~1% nas seguintes condições: tingimento sem ensaboamento, pH 8,0 e 8 horas de incubação à 42°C. O corante original é citotóxico para fibroblastos após 48 horas de exposição. No entanto, essa citotoxicidade não foi mais observada após a lixiviação no suor. Os corantes DB38 e RB15 originais não foram tóxicos para as sementes de pepino, alface e tomate, e nem para as minhocas Eisenia foetida. Ambos os corantes foram fracamente tóxicos para Daphnia magna, porém o RB15 apresenta maior potencial tóxico em relação ao DB38. Os corantes DB38 e RB15 induziram malformações em larvas de zebrafish Danio rerio, caracterizadas por falha na inflação da bexiga natatória e alteração na cauda. Portanto, nossos resultados mostram a importância de se fazer não só a análise individual de corantes têxteis, mas também dos tecidos que os contêm. Além da necessidade de se desenvolver técnicas de tingimento mais seguras em relação à solidez da cor sob condições úmidas e as perdas de corante para o ambiente durante a etapa de fixação, indicando maior atenção ao estudo de efeitos sub-letais na avaliação do impacto desses compostos no ecossistema aquático. / The fabrics dyeing began thousands of years ago and the commercial availability of dyes is increasingly. The Brazilian textile industry plays a role of high importance, highlighting among the main economic activities in the country. The dyeing process is one of the key factors in the commercial success of textile products, since consumers are demanding colors more resistant to heat, light exposure, perspiration and washing. According to the literature, conditions of intense perspiration contribute to the migration and subsequent penetration of textile dyes to human skin. Furthermore, 2 to 50% of the initial dye load is present in the dye bath effluent and these compounds are discharged in industrial effluents, contaminating the environment and endangering human health, since the wastewater treatment systems are ineffective in removing the color and mutagenicity of some dyes. In this context, this study aimed to evaluate the toxicogenetic effects of the Direct Black 38 (DB38) dye original and extracted by leaching with artificial sweat using Comet assay with fibroblasts and keratinocytes from human skin, Anexin V assay with fibroblasts and Salmonella mutagenicity test. Additionally, we investigated the ecotoxicity of textile dye Direct Black 38 and Reactive Blue 15 (RB15) using assays with seeds, dapnhias, worms and zebrafish performed in UTOX in Barcelona. The original and leached DB38 dye did not induce genotoxicity in fibroblasts and keratinocytes from human skin. The original DB38 was mutagenic for TA98 and TA100 of S. typhimurium with S9. However, the solution with the leached dye did not induce mutagenicity for these tested strains, since the highest migration rate of the dye to the solution of artificial sweat was ~ 1% in the following conditions: type of dyeing without rinsing, pH 8.0 and 8-hour incubation at 42°C. The original dye was cytotoxic for fibroblasts after 48 hours of exposure. However, this cytotoxicity was no longer observed after leaching in sweat. The original DB38 and RB15 dyes showed no toxicity for cucumber, lettuce and tomato seeds and for earthworms Eisenia foetida. Both dyes were weakly toxic for Daphnia magna, but the RB15 has a higher toxic potential compared to DB38. The dyes DB38 and RB15 induced malformations in larvae of zebrafish Danio rerio by failure of the swim bladder inflation and changes in the tail. Therefore, our results show the importance of making the individual analysis of textile dyes, but also of fabrics containing them. Furthermore, it is necessary to develop safer techniques of dyeing in relation to the color fastness under humid conditions and the loss of dyes into the environment during the fixation step, indicating more attention to the study of sub-lethal effects in the evaluation of the impact of these compounds in the aquatic ecosystem.
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La dualité de l'apoptose des cellules du cancer du col de l'utérus ou la face de Janus de l'apoptose : un objectif thérapeutique et une implication dans le transfert horizontal d'oncogènes viraux / The duality of apoptosis of cervical cancer cells or the Janus face of apoptosis : a therapeutic purpose and involvement in the horizontal transfer of viral oncogenesHermetet, Francois 02 December 2015 (has links)
À l'heure actuelle, une large proportion des recherches vouées à l'identification et au développement de nouvelles thérapies anticancéreuses est basée sur l'apoptose. Dans les dernières décennies, divers composés phytochimiques ont été caractérisés comme des agents pharmacologiques susceptibles d'éliminer les cellules cancéreuses via l'induction de l'apoptose. Parmi ceux-ci, l'isoliquiritigénine (ILG), un flavonoïde naturellement présent dans les racines de réglisse, se distingue des autres par ses nombreuses propriétés thérapeutiques incluant une activité antitumorale. Chez les mammifères, les cellules apoptotiques (CA) peuvent être complètement dégradées via leur capture par des cellules phagocytaires spécialisées ou servir de vecteurs d'ADN dans un processus appelé transfert horizontal de gènes (THG). Ainsi, il a été mis en évidence que des CA dérivées de cancer du col de l'utérus peuvent induire le transfert de séquences d'oncogènes de papillomavirus humains (HPV) à des fibroblastes primaires humains (HPFs) qui acquièrent des propriétés de cellules transformées. Cependant, les mécanismes cellulaires et moléculaires impliqués dans l'internalisation de CA par les fibroblastes, un modèle de phagocyte non-professionnel, n'ont pas encore été clairement identifiés et la caractérisation de ces événements qui précèdent le THG est essentielle à la compréhension de ce processus et de la transformation des cellules receveuses qui peut en découler.Dans ce contexte, les objectifs de cette thèse étaient, (i) d'analyser les effets anticancéreux de l'ILG sur des cellules dérivées de cancer du col de l'utérus, (ii) de caractériser les mécanismes cellulaires et moléculaires impliqués dans la capture des CA par les HPFs, (iii) d'étudier les événements cellulaires qui font suite à ce processus comme la maturation des phagosomes, le THG et l'acquisition de propriétés de transformation et enfin, (iv) de démontrer la preuve de la conservation de la capacité tumorigénique des CA in vivo.Un premier travail a permis de mettre en lumière les propriétés antitumorales de l'ILG via une multiplicité d'actions sur des modèles cellulaires de cancer du col de l'utérus in vitro, incluant des activités anti-proliférative, pro-apoptotique, anti-migratoire. Concernant la lignée cellulaire Ca Ski, p53 sauvage et représentative du carcinome du col utérin le plus fréquent, associé à une infection transformante par HPV16, l'apoptose induite par l'ILG semble dépendante de p53 et de la mitochondrie, mais aussi de la voie des récepteurs de mort, comme attesté par l'augmentation des niveaux de protéines p53 et p21, la dissipation du potentiel membranaire mitochondrial, la libération du cytochrome c et le clivage des caspases-9, -8 et -3. Ces effets pourraient être la conséquence de la diminution de l'expression de l'oncoprotéine virale E6 d'HPV16 induite par l'ILG entraînant la restauration de l'expression de p53. Nos travaux révèlent un fort potentiel de l'ILG contre différents types de cellules malignes et ouvrent le champ à de nouvelles modalités de traitement des cancers associés à HPV. / Most of the research strategies aiming at improving anticancer therapies currently target apoptosis. Over the last decades, several natural products derived from herbal medicine or food have been identified as pharmacological agents for cancer cell elimination through apoptosis induction. Among them, isoliquiritigenin (ILG) is a chalcone derivative isolated from liquorice and shallots which exhibits a wide variety of biological functions including antitumor properties.In mammals, apoptotic cells (AC) can either be eliminated after their capture by specialized phagocytes or act as vectors of DNA in a process named horizontal gene transfer (HGT). For instance, AC derived from cervical cancer cells can transfer human papillomavirus (HPV) oncogene sequences to human primary fibroblasts (HPFs) which subsequently acquire transformed cell properties. The molecular mechanisms underlying AC uptake by HPFs, a model of non-professional phagocytes, have not been clearly identified. Characterizing these upstream events appears critical to broaden our understanding of HGT and the ultimate transformation of recipient cells which may subsequently occur.The aims of this work were to (i) study the antitumor effects of ILG on cervical cancer cell lines,(ii) characterize the cellular and molecular mechanisms underlying AC uptake by HPF, (iii) study the cellular events which occur in HPFs following AC engulfment such as phagosome maturation, HGT and acquisition of transformed properties, and (iv) evaluate the tumorigenic properties of AC in vivo.In a first part of this PhD project, we found that ILG exhibits multiple antitumor actions on cervical cancer cells in vitro including anti-proliferative, pro-apoptotic and anti-migration properties. Further studies on apoptosis-related events were conducted in Ca Ski cells (p53wt, HPV16 DNA positive), which are representative of the most frequent cervical carcinoma. The treatment of Ca Ski cells with ILG is associated with increased levels of p53 and p21 proteins, loss of mitochondrial membrane potential, cytochrome c release and caspase-9, -8 and -3 cleavage. These features suggest that ILG-induced apoptosis is dependent on p53 and involve both mitochondrial and death receptor- mediated pathways. The effect of ILG in Ca Ski cells may be partly explained by the decrease of HPV16 E6 oncoprotein expression and the associated raise of p53 levels observed after cell treatment. Our work highlights the potential of ILG as an antitumor agent and provides the opportunity of new treatment. ln the second part of this work, we set up a method based on flow cytometry to quantitatively analyze AC uptake. This original method and microscopy analysis allowed us to show that HPFs act as non-professional phagocytes and are able to engulf subcellular fragments rather than dying whole cells, with lower efficiency and rapidity compared to professional phagocytes as macrophages. Uptake of AC by HPFs depends on time, temperature and the presence of bivalent ions. Morphological analysis and fonctional assays using endocytosis inhibitors revealed a mechanism related to phagocytosis and/or macropinocytosis. The recognition of phosphatidylserine exposed on the surface of AC by their receptor BAIl has emerged as a required event for AC uptake by HPFs.
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Análise do número de cópias dos genes IGFIR, SF1 e FGFR4 em tumores adrenocorticais de crianças e adultos / Analysis of copy number variations of IGF1R, SF1 and FGFR4 genes in adrenocortical tumors from children and adultsRibeiro, Tamaya Castro 30 August 2010 (has links)
Introdução: Uma elevada incidência de tumores adrenocorticais pediátricos e de adultos é observada nas regiões sul e sudeste do Brasil. Hiperexpressão dos genes IGF1R, SF1 e FGFR4 tem sido descrita em tumores adrenocorticais. Apesar de hiperexpressão ser um evento comum em diversas neoplasias, ainda não são claros os mecanismos moleculares que seriam responsáveis por essa falha na regulação da expressão. Objetivos: Determinar o número de cópias dos genes IGF1R, SF1 e FGFR4 em tumores adrenocorticais diagnosticados em crianças e adultos. Adicionalmente correlacionaremos os dados de expressão gênica e/ou protéica de IGF1R, SF1 e FGFR4 com o diagnóstico histológico e evolutivo dos tumores adrenocorticais. Pacientes e métodos: Sessenta e quatro pacientes com tumores adrenocorticais foram selecionados para o estudo. Todos os pacientes foram submetidos à avaliação clínica e tratamento cirúrgico. Oito glândulas adrenais normais obtidas em cirurgias renais ou autópsias foram utilizadas como controles. DNA genômico extraído dos tecidos normais e tumorais da glândula suprarrenal foram utilizados como substrato nas reações de multiplex ligation-dependent probe amplification (MLPA) com o intuito de se determinar o número de cópias dos genes IGF1R, SF1 e FGFR4. PCR em tempo real (SYBR Green) foi realizado para confirmar os dados de MLPA para os genes IGF1R e SF1. Resultados: Amplificação do gene IGF1R foi detectada por MLPA e confirmada por PCR em tempo real SYBR Green em apenas um carcinoma adrenocortical. Adicionalmente, amplificação gênica de outros loci (IGFBP3, FGFR4 e NSD1) bem como de sondas controles foi observada, sugerindo uma condição aneuplóide neste tumor maligno. Amplificação de SF1 foi detectada em 10 tumores adrenocorticais (8 pediátricos e 2 de adultos). Os valores de expressão gênica foram significantemente maiores em tumores associados com amplificação gênica quando comparados com tumores sem amplificação. Além disso, imunorreatividade para SF-1 foi detectada nos tumores com aumento no número de cópias. Doze amplificações do locus FGFR4 (3 pediátricos e 9 de adultos) foram demonstradas por MLPA. A amplificação do locus FGFR4 e hiperexpressão deste gene foram significantemente mais relacionados a carcinomas. Conclusões: Amplificação do gene IGF1R é um evento raro nos tumores adrenocorticais pediátricos e de adultos. A hiperexpressão de IGF1R em tumores adrenocorticais pediátricos não foi secundária à amplificação gênica. Amplificação do gene SF1 foi evidenciada predominantemente em tumores adrenocorticais pediátricos e se correlacionou com hiperexpressão gênica e protéica. Amplificação do locus FGFR4 foi demonstrada predominantemente em tumores adrenocorticais malignos de adultos. Amplificação de oncogenes representa um mecanismo molecular relevante na tumorigênese adrenocortical / Introduction: A high incidence of adrenocortical tumors in children and adults has been observed in Southern and Southeastern regions of Brazil. Overexpression of IGF1R, SF1 and FGFR4 genes have been described in adrenocortical tumors. Despite of overexpression be a common event in several neoplasias, the molecular mechanism implicated in this upregulation remains unknown. Objectives: To determine the copy number of IGF1R, SF1 and FGFR4 genes in pediatric and adult adrenocortical tumors. Additionally, correlate with IGF1R, SF1 and FGFR4 gene and/or protein expression data as well as with the histological diagnosis and evolution of the adrenocortical tumors. Patients and methods: Sixty and four patients with adrenocortical tumors were selected for this study. All patients were submitted to clinical evaluation and surgical treatment. Eight normal adrenal glands obtained in renal surgery or autopsies were used as controls. The MLPA reactions were performed with the DNA extracted from adrenal gland tissues in order to determine the copy number of IGF1R, SF1 and FGFR4 genes. SYBR Green real-time PCR was carried out to confirm MLPA data for IGF1R and SF1 genes. Results: IGF1R amplification was detected by MLPA and confirmed by SYBR green real-time PCR in only one adrenocortical carcinoma. Additionally, other loci amplification was detected (IGFBP3, FGFR4 and NSD1) as well as for control probes, suggesting aneuploidy in this malignant tumor. SF1 amplifications were shown in 10 adrenocortical tumors (8 from children and 2 from adults). The SF1 mRNA levels were significantly higher in adrenocortical tumors associated with increased SF1 gene copies when compared with adrenocortical tumors without gene amplification. Moreover, all adrenocortical tumors with SF1 gene amplification showed a strong SF1 staining. Twelve FGFR4 locus amplifications (3 from children and 9 from adults) were demonstrated by MLPA. FGFR4 locus amplification and overexpression of this gene were significantly more related to carcinomas. Conclusions: IGF1R amplification is a rare event in adrenocortical tumors and it was not responsible for the IGF1R overexpression of pediatric and adult adrenocortical tumors. SF1 gene amplification was detected predominantly in pediatric adrenocortical tumors and was associated with gene and protein overexpression. FGFR4 locus amplification was demonstrated mainly in adult maligant adrenocortical tumors. FGFR4 amplification and upregulation were more associated to adrenocortical carcinomas. Oncogenes amplification represents an important molecular mechanism in adrenocortical tumorigenesis
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Search for Biomarkers in ALS and Parkinson's Disease : Positron Emission Tomography and Cerebrospinal Fluid StudiesJohansson, Anders January 2009 (has links)
New biomarkers are needed to improve knowledge about pathophysiology, in order to provide earlier correct diagnosis and to follow disease progression of the neurodegenerative diseases amyotrophic lateral sclerosis (ALS) and Parkinson's disease (PD). The aim of this thesis was to find new biomarkers for these diseases. First, increased serum levels and unchanged levels in postmortal spinal cord of vascular endothelial growth factor (VEGF) were demonstrated. VEGF was not detected in cerebrospinal fluid (CSF) in ALS. Second, increased levels of fibroblast growth factor 2 were found in the CSF and serum of ALS patients. Both studies used enzyme-linked immunoassays. Third, a proteomics method for CSF analysis was explored, based on tryptic digestion and subsequent separation and detection of the peptides by on-line liquid chromatography-Fourier transform ion cyclotron resonance mass spectrometry. ALS-specific patterns were observed. Four out of five samples were correctly assigned, but no single protein biomarker could be identified. Fourth, [11C](L)-deprenyl-D2 (DED) positron emission tomography (PET) demonstrated increased retention in the pons and white matter in ALS. DED binds to monoamino oxidase B, which in the brain is primarily located in astrocytes. Thus evidence was provided that astrocytosis may be detected in vivo in ALS. Fifth, normal [11C]-PIB binding in five nondemented patients with PD was reported, in contrast to previous findings of increased retention in Alzheimer's disease reflecting amyloid aggregation. Finally, the combined use of fluorodeoxyglucose and L-[β 11C]-DOPA PET for the differential diagnosis of parkinsonian syndromes was evaluated. PET provided support for the clinical diagnosis in 62 out of 75 patients, and served to exclude suspected diagnoses in another five patients.
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Functional Tissue Engineering of Myocardium Through Cell Tri-cultureIyer, Rohin 22 August 2012 (has links)
Cardiac tissue engineering promises to create therapeutic tissue replacements for repair of diseased native myocardium. The main goals of this thesis were four-fold: 1) to evaluate cardiac tissues engineered using multiple cell types including endothelial cells (EC), fibroblasts (FB), and cardiomyocytes (CM); 2) to spatiotemporally track cells in organoids and optimize their seeding percentages for improved function; 3) to enhance vascular cord formation through sequential versus simultaneous seeding of ECs and FBs; and 4) to perform mechanistic studies to elucidate the role of soluble factors in cell-cell communication. Microscale templates fabricated from photocrosslinkable poly(ethylene glycol) diacrylate (PEG-DA) were used for all studies for rapid screening. When ECs and FBs were precultured for two days prior to seeding enriched CMs, cells self-assembled into three-dimensional, beating organoids, compared to simultaneously tricultured EC/ FB / CM which formed non-contractile clusters. Fluorescent dyes were used to label and track each cell type for up to 4 days, demonstrating an even distribution of cells within precultured organoids versus EC clustering in simultaneous triculture. When ECs were seeded first, followed by FBs 24 hours later and CMs 48 hours later, vascular-like cords formed that persisted with time in a seeding density-dependent manner. Vascular endothelial growth factor (VEGF) signaling was quantified, showing higher endogenous VEGF secretion rates in sequential preculture (16.6 ng/mL/hr) compared to undetectable VEGF secretion in simultaneous triculture. Blocking of endogenous VEGF signaling through addition of VEGF antibody / VEGFR2 inhibitor resulted in a significant decrease in mRNA and protein expression of the key cardiac gap junctional marker connexin-43. These findings provide a foundation for future work into the mechanisms governing functional cardiac tissue engineering performance and may aid in the development of novel therapies for heart failure based on growth factor signaling and engineering of vascularized, clinically relevant cardiac tissue patches.
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Functional Tissue Engineering of Myocardium Through Cell Tri-cultureIyer, Rohin 22 August 2012 (has links)
Cardiac tissue engineering promises to create therapeutic tissue replacements for repair of diseased native myocardium. The main goals of this thesis were four-fold: 1) to evaluate cardiac tissues engineered using multiple cell types including endothelial cells (EC), fibroblasts (FB), and cardiomyocytes (CM); 2) to spatiotemporally track cells in organoids and optimize their seeding percentages for improved function; 3) to enhance vascular cord formation through sequential versus simultaneous seeding of ECs and FBs; and 4) to perform mechanistic studies to elucidate the role of soluble factors in cell-cell communication. Microscale templates fabricated from photocrosslinkable poly(ethylene glycol) diacrylate (PEG-DA) were used for all studies for rapid screening. When ECs and FBs were precultured for two days prior to seeding enriched CMs, cells self-assembled into three-dimensional, beating organoids, compared to simultaneously tricultured EC/ FB / CM which formed non-contractile clusters. Fluorescent dyes were used to label and track each cell type for up to 4 days, demonstrating an even distribution of cells within precultured organoids versus EC clustering in simultaneous triculture. When ECs were seeded first, followed by FBs 24 hours later and CMs 48 hours later, vascular-like cords formed that persisted with time in a seeding density-dependent manner. Vascular endothelial growth factor (VEGF) signaling was quantified, showing higher endogenous VEGF secretion rates in sequential preculture (16.6 ng/mL/hr) compared to undetectable VEGF secretion in simultaneous triculture. Blocking of endogenous VEGF signaling through addition of VEGF antibody / VEGFR2 inhibitor resulted in a significant decrease in mRNA and protein expression of the key cardiac gap junctional marker connexin-43. These findings provide a foundation for future work into the mechanisms governing functional cardiac tissue engineering performance and may aid in the development of novel therapies for heart failure based on growth factor signaling and engineering of vascularized, clinically relevant cardiac tissue patches.
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Μελέτη του ρόλου του αυξητικού παράγοντα HARP (Heparin Affin Regulatory Peptide) στην αγγειογένεση in vivoΔρόσου, Γεωργία 21 April 2008 (has links)
H HARP (heparin-affin regulatory peptide), γνωστή και ως πλειοτροπίνη (PTN), είναι ένας 18 kDa αυξητικός παράγοντας, ο οποίος έχει υψηλή συγγένεια για την ηπαρίνη. Η HARP έχει πολλαπλές βιολογικές δράσεις, όπως συμμετέχει στη ρύθμιση του κυτταρικού πολλαπλασιασμού, στη μετανάστευση και τη διαφοροποίηση. Επιπλέον η έκφραση της σχετίζεται με την φυσιολογική και καρκινική αγγειογένεση in vitro και in vivo. Στην παρούσα εργασία μελετήθηκε η έκφραση της HARP και των υποδοχέων της, ALK και RPTPβ/ζ, στις διάφορες ημέρες ανάπτυξης της CAM εμβρύου όρνιθας. Επίσης, μελετήθηκε η μείωση της έκφρασης της ενδογενούς HARP, με πλασμίδιο που φέρει την αντινοηματική αλληλουχία (AS-HARP), στην αγγειογένεση in vivo, στη φωσφορυλίωση των Εrk1,2 και στη λεμφαγγειογένεση της CAM εμβρύου όρνιθας. Ανάλυση κατά Western και RT-PCR στις διάφορες ημέρες ανάπτυξης του εμβρύου έδειξε ότι η έκφραση της HARP συμβαδίζει με τη δημιουργία νέων αγγείων στη CAM, ενώ η έκφραση των υποδοχέων της HARP στην CAM φαίνεται να είναι αυξημένη στα πρώτα στάδια ανάπτυξης του ιστού. Επίσης, η μείωση της έκφρασης της HARP μετά τη χορήγηση του πλασμιδίου AS-HARP, μείωσε τα επίπεδα της πρωτεΐνης, το μήκος των αγγείων και τη φωσφορυλίωση των Erk1/2 στο in vivo μοντέλο της CAM εμβρύου όρνιθας. Αντίθετα, η μείωση της έκφρασης της HARP μετά τη χορήγηση του πλασμιδίου AS-HARP, δεν επηρέασε τη λεμφαγγειογένεση της CAM εμβρύου όρνιθας. Σαν τελικό συμπέρασμα προκύπτει ότι η έκφραση της ενδογενούς HARP στην CAM εμβρύου όρνιθας είναι σημαντική για τη φυσιολογική αγγειογένεση in vivo. / Heparin-affin regulatory peptide (HARP), also known as pleiotrophin or heparin-binding growth-associated molecule, is an 18 kDa growth factor that has a high affinity for heparin. HARP is involved in the control of cellular proliferation, migration and differentiation. Moreover, there is a strong correlation between HARP expression and tumor growth and angiogenesis. In the present work, we studied the expression of HARP and its receptors, ALK and RPTPβ/ζ, during development of the chicken embryo chorioallantoic membrane (CAM), in relation to angiogenesis. By western blot analysis and RT-PCR, it was shown that HARP, ALK and RPTPβ/ζ expression increased at days of on-going angiogenesis and decreased at later time points. Transfection of CAMs with an anti-sense HARP gene construct led to a significant decrease in HARP amounts compared to vector control transfected CAMs, a significant decrease in the length of CAM blood vessels, and a decrease in the phosphorylation of Erk1/2. Contrary, transfection of CAMs with the anti-sense HARP gene construct had no influence in lymphangiogenesis of the chicken embryo chorioallantoic membrane (CAM). These data suggest that endogenous HARP is involved in angiogenesis in vivo.
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La fibrose en deux parties : de la paillasse à la sourisLaplante, Patrick 03 1900 (has links)
L’apoptose des cellules endothéliales (CE) représente un évènement initial dans le développement de plusieurs pathologies fibrotiques telles que le rejet chronique d’allogreffe et la sclérose systémique. Nous avons démontré que les médiateurs issus des CE apoptotiques entraîne la différenciation myofibroblastique et la résistance à l’apoptose, deux mécanismes centraux à la fibrogénèse. L’activation de PI3K (phospatidylinositol-3 kinase) caractérise ces deux mécanismes. Un fragment C-terminal du perlécan (LG3) produit par les CE apoptotiques inhibe l’apoptose des fibroblastes. Les objectifs de ce travail étaient de : 1. définir les récepteurs et la signalisation impliqués dans la réponse anti-apoptotique et 2. caractériser les médiateurs fibrogéniques responsables de la différenciation myofibroblastique.
En ce qui a trait à la réponse anti-apoptotique, l’inhibition des intégrines 21 ou des kinases de la famille Src (SFK) chez les fibroblastes prévient la résistance à l’apoptose et la phosphorylation d’Akt normalement induites par le milieu conditionné par des CE apoptotiques (SSC) ou le LG3. Ces résultats suggèrent que le LG3 produit par les CE apoptotiques initie un état de résistance à l’apoptose chez les fibroblastes par des voies α2β1integrines/SFK/PI3K dépendantes. Le LG3 n’induit cependant pas la différenciation myofibroblastique. Nous avons donc caractérisé le milieu SSC de façon à identifier les médiateurs responsables de la différenciation myofibroblastique.
Les milieux conditionnés par des CE apoptotiques et non-apoptotiques (respectivement SSC et SSC-ZVAD) ont été analysés comparativement par chromatographie liquide bi-dimensionnelle, immunobuvardage et spectrométrie de masse. Le connective tissue growth factor (CTGF) est le seul facteur fibrogénique connu augmenté dans le milieu SSC. L’inhibition de la caspase-3 chez les CE prévient la relâche de CTGF. Au niveau du fibroblaste, l’inhibition de SFK ou de Pyk2 (proline-rich tyrosine kinase-2) prévient la différenciation myofibroblastique induite par le SSC ou le CTGF in vitro. L’anticorps neutralisant contre le TGF- (Transforming growth factor beta) n’est pas en mesure de bloquer la différenciation myofibroblastique induite par le SSC ou le CTGF. Des injections quotidiennes sous-cutanées de SSC chez la souris C3H pour 3 semaines entraîne une augmentation de l’épaisseur de la peau et des niveaux protéiques d’SMA, de vimentine et de collagène I. Cette réponse fibrogénique est réduite chez les souris qui ont reçu le SSC-ZVAD ou le SSC immunodéplété de son CTGF.
Ces résultats apportent de nouvelles issues mécanistiques au niveau de la réponse fibrogénique activée par la mort des CE. L’activation des caspases chez les CE apoptotiques entraîne la production de LG3 et de CTGF qui, à leur tour, activent des voies de signalisation pro-fibrotiques SFK/PI3K dépendantes chez les fibroblastes, et ce indépendamment du TGF-. / Apoptosis of endothelial cells (EC) is an early event in various fibrotic diseases including chronic allograft vasculopathy and systemic sclerosis. We showed previously that mediators released by apoptotic EC activate myofibroblast differentiation and resistance to apoptosis, two mechanisms pivotal to fibrogenesis. PI3K (phospatidylinositol-3 kinase) activation was found to be central to these two mechanisms. A C-terminal fragment of perlecan (LG3) produced by apoptotic EC was found to inhibit apoptosis of fibroblasts. The aims of the present project were : 1. to define the receptors and pathways implicated in this anti-apoptotic response and 2. to characterize the fibrogenic mediators implicated in myofibroblast differentiation.
Concerning the anti-apoptotic response, the inhibition of 21 integrin activity in fibroblasts exposed to either medium conditioned by apoptotic EC (SSC) or LG3 prevented resistance to apoptosis and was associated with decreased levels of Akt phosphorylation. Neutralizing Src family kinases (SFK) activity in fibroblasts produced the same effects. These results suggest that LG3 produced by apoptotic EC initiate a state of resistance to apoptosis in fibroblasts via an α2β1integrin/SFK/PI3K dependent pathway. LG3 did not induce myofibroblast differentiation. We went on to identify which mediators present in SSC are implicated in myofibroblast differentiation.
Media conditioned by apoptotic and non-apoptotic EC (respectively SSC and SSC-ZVAD) were analyzed comparatively by 2-dimension liquid chromatography, western blotting and mass spectrometry. Connective tissue growth factor (CTGF) was the only known fibrogenic factor increased in SSC. Caspase-3 silencing of EC demonstrated that CTGF is released by apoptotic EC downstream of caspase-3 activation. In fibroblasts, blocking the activation of SFK or silencing the proline-rich tyrosine kinase 2 (Pyk2) blocked myofibroblast differentiation triggered by either SSC or recombinant CTGF in vitro. Exposure to a pan-transforming growth factor (TGF-β) neutralizing antibody failed to attenuate myofibroblast differentiation in fibroblasts exposed to either SSC or CTGF. Subcutaneous injection of mouse SSC to C3H mice daily for three weeks led to increased skin thickness, increased protein levels of αSMA, vimentin and collagen I. This fibrogenic response was blunted in mice injected with either SSC-ZVAD or SSC immunodepleted of CTGF.
These results bring new mechanistic insights into the fibrogenic pathways activated by EC death. Caspase activation in apoptotic EC triggers the production of LG3 and CTGF which in turn activate SFK/PI3K dependant pathways in fibroblasts thus activating a TGF-β-independent fibrogenic response.
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Apical Ectodermal Ridge (AER) activity and limb outgrowth during vertebrate development11Viegas Tomás, Ana Raquel 11 January 2011 (has links)
Limb outgrowth is controlled by a specialized group of cells called the apical ectodermal ridge (AER), a
thickening of the limb epithelium, at its distal tip. This specialized thickening of ectodermal cells is
responsible for maintaining the underlying mesenchymal cells in an undifferentiated and proliferative state,
and its structure is preserved through a fine-tuned balance between proliferation and apoptosis. This
equilibrium is genetically controlled but little is known about the molecules involved in this process. Several
authors have been shown that both fibroblast growth factor (FGF) and Erk pathway activation are crucial for
AER function. Recently, FLRT3, a transmembrane protein able to interact with FGF receptors, has been
implicated in the triggering of ERK activity by FGFs. In this thesis, we show that flrt3 expression is
restricted to the AER, co-localizing its expression with fgf8 and pERK activity. Loss-of-function studies
demonstrate that silencing of flrt3 affects the integrity of the AER and, subsequently, its proper function
during limb bud outgrowth. Our data also indicate that flrt3 expression is not regulated by FGF activity in
the AER, whereas ectopic WNT3A is able to induce flrt3 expression. Overall, our findings confirm flrt3 as a
key player during chicken limb development, being necessary but not sufficient for proper AER formation
and maintenance under the control of BMP and WNT signalling.
During limb bud development, AER structure is maintained through a fine-tuned balance between
proliferation and programmed cell death and this equilibrium is genetically controlled, although little is
known about the molecules involved in that process.
In this thesis we present evidences involving oct4, required to establish and maintain the pluripotent cell
population necessary for embryogenesis in mouse and human, in the control of the proliferative balance
within the AER cells. Overexpression of otc4 in the limb ectoderm disrupts the ratio apoptosis/proliferation
and, moreover, oct4 expression is under the control of wnt-canonical pathway. We also describe a special
localization and behaviour of proliferating cells in the AER in response to oct4 activity. We, therefore,
describe a role for oct4 as a factor able to maintain a niche of cells that is responsible for the renewal of the
AER. / El crecimiento del esbozo de la extremidad está controlado por un grupo especializado de células
denominado Cresta Ectodérmica Apical (CEA), un engrosamiento del epitelio del miembro en su borde más
distal. Este engrosamiento es responsable del mantenimiento de las células del mesodermo distal en un
estado indiferenciado y proliferativo. Diferentes estudios muestran que la actividad de los factores de
crecimiento fibroblástico (FCF) y de la vía Erk son cruciales para la correcta funcionalidad de la CEA.
Recientemente se ha implicado a FLRT3, una proteína transmembranal capaz de interaccionar con los
receptores de los FCF, en la activación de la vía Erk por los mismos. En esta tesis describimos cómo la
expresión de flrt3 se restringe a la CEA, colocalizándose su expresión con fgf8 y la actividad de la vía Erk.
Los experimentos de pérdida de función demuestran que la inhibición de flrt3 afecta la integridad de la CEA
y, consecuentemente, a su función durante el desarrollo del esbozo del miembro. Nuestros datos también
indican que la expresión de flrt3 no está regulada a través de los FCF en la CEA, sin embargo, la activación
ectópica de WNT3A es capaz de inducir la expresión de flrt3. En conjunto, nuestros resultados demuestran
que flrt3 es una molécula clave durante el desarrollo de las extremidades de pollo, siendo necesaria, pero no
suficiente, para la correcta formación y mantenimiento de la CEA bajo el control de la señalización a través
de BMP y WNT.
Durante el desarrollo de las extremidades, la estructura de la CEA se mantiene a través de un fino control del
balance entre la proliferación y apoptosis. Este equilibrio se encuentra genéticamente controlado aunque se
sabe muy poco acerca de las moléculas involucradas en este proceso.
En esta tesis presentamos evidencias en las que oct4, molécula necesaria para establecer y mantener la
población de células pluripotentes necesarias durante la embriogénesis en ratón y humanos, controla la tasa
de proliferación en las células de la CEA. La expresión ectópica de oct4 en el ectodermo del esbozo de la
extremidad perturba la razón entre la apoptosis y la proliferación y, además, su expresión está controlada por
la actividad de la vía canónica de los Wnt. También describimos en este trabajo la localización y
comportamiento especiales de las células de la CEA en proliferación como respuesta a la actividad de oct4.
Por consiguiente, podemos inferir que el rol de oct4 será el de un factor necesario para mantener un nicho
celular responsable por la renovación de la CEA.
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Molecular regulation of calvarial suture morphogenesis and human craniofacial diversityCoussens, Anna Kathleen January 2007 (has links)
This body of work is concerned with the genetics of craniofacial morphology and specifically with that of the cranial sutures which form fibrous articulations between the calvarial bones. The premature fusion of these sutures, known as craniosynostosis, is a common developmental abnormality and has been extensively utilised here as a tool through which to study the genetics of suture morphogenesis and craniofacial diversity. Investigations began with a search for polymorphisms associated with normal variation in human craniofacial characteristics. Denaturing High-Performance Liquid chromatography was used to identify polymorphisms in two genes causative for craniosynostosis by analysing DNA from a large cohort of individuals from four ethnogeographic populations. A single nucleotide polymorphism in fibroblast growth factor receptor 1 was identified as being associated with variation in the cephalic index, a common measure of cranial shape. To further, and specifically, investigate the molecular processes of suture morphogenesis gene expression was compared between unfused and prematurely fusing/fused suture tissues isolated from patients with craniosynostosis. Two approaches, both utilising Affymetrix gene expression microarrays, were used to identify genes differentially expressed during premature suture fusion. The first was a novel method which utilised the observation that explant cells from both fused and unfused suture tissue, cultured in minimal medium, produce a gene expression profile characteristic of minimally differentiated osteoblastic cells. Consequently, gene expression was compared between prematurely fused suture tissues and their corresponding in vitro de-differentiated cells. In addition to those genes known to be involved in suture morphogenesis, a large number of novel genes were identified which were up-regulated in the differentiated in vivo state and are thus implicated in premature suture fusion and in vivo osteoblast differentiation. The second microarray study involved an extensive analysis of 16 suture tissues and compared gene expression between unfused (n=9) and fusing/fused sutures (n=7). Again, both known genes and a substantially large number of novel genes were identified as being differentially expressed. Some of these novel genes included retinol binding protein 4 (RBP4), glypican 3 (GPC3), C1q tumour necrosis factor 3 (C1QTNF3), and WNT inhibitory factor 1 (WIF1). The known functions of these genes are suggestive of potential roles in suture morphogenesis. Realtime quantitative RT PCR (QRT-PCR) was used to verify the differential expression patterns observed for 11 genes and Western blot analysis and confocal microscopy was used to investigate the protein expression for 3 genes of interest. RBP4 was found to be localised on the ectocranial surface of unfused sutures and in cells lining the osteogenic fronts while GPC3 was localised to suture mesenchyme of unfused sutures. A comparison between each unfused suture (coronal, sagittal, metopic, and lambdoid) demonstrated that gene expression profiles are suture-specific which, based on the identification of differentially expressed genes, suggests possible molecular bases for the differential timing of normal fusion and the response of each suture to different craniosynostosis mutations. One observation of particular interest was the presence of cartilage in unfused lambdoid sutures, suggesting a role for chondrogenesis in posterior skull sutures which have generally been thought to develop by intramembranous ossification without a cartilage precursor. Finally, the effects of common media supplements used in in vitro experiments to stimulate differentiation of calvarial suture-derived cells were investigated with respect to their ability to induce in vivo-like gene expression. The response to standard differentiation medium (ascorbic acid + β-glycerophosphate) with and without dexamethasone was measured by both mineralisation and matrix formation assays and QRT-PCR of genes identified in the above described microarray studies. Both media induced collagen matrix and bone nodule formation indicative of differentiating osteoblasts. However, the genes expression profiles induced by both media differed and neither recapitulated the levels and profiles of gene expression observed in vivo for cells isolated from both fused and unfused suture tissues. This study has implications for translating results from in vitro work to the in vivo situation. Significantly, the dedifferentiation microarray study identified differentially expressed genes whose products may be considered candidates as more appropriate osteogenic supplements that may be used during in vitro experiments to better induce in vivo-like osteoblast differentiation. This study has made a substantial contribution to the identification of novel genes and pathways involved in controlling human suture morphogenesis and craniofacial diversity. The results from this research will stimulate new areas of inquiry which will one day aid in the development of better diagnostics and therapeutics for craniosynostosis, and other craniofacial and more general skeletal abnormalities.
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