Dipeptidyl peptidáza-IV a Fibroblastový aktivační protein v gliomagenezi. / Dipeptidyl peptidase-IV and Fibroblast activation protein in gliomagenesis.

Trylčová, Jana

January 2018

"Dipeptidyl peptidase-IV Activity and/or Structure Homologues"(DASH) represent a newly defined group of multifunctional molecules, typically bearing dipeptidyl peptidase-IV- like hydrolytic activity. Dipeptidyl peptidase-IV (DPP-IV) cleaves out X-Pro dipeptides from the N-terminus of peptides. Other molecules carrying similar enzyme activity, such as Fibroblast activation protein (FAP), DPP-II, DPP8 and DPP9 or even DPP-IV structure-like but hydrolytically inactive molecules (DPP6 and DPP10) also belong to this group. Recent knowledge suggest a substantial role of DASH in cancer pathogenesis. The aim of this study is a preparation of a biological model and its use for understanding the mechanisms of interaction(s) between transformed glial cells and stroma in the processes of origin and development of tumors derived from neuroectoderm. Stable transfected human glioblastoma cell lines with inducible gene expression of DPP-IV, Fibroblast activation protein and their enzymatically inactive mutated forms, were prepared within the project. Prepared cell lines are used as a tool for studying not only the "autocrine" importance of DPP-IV and FAP for the expressing cells in in-vitro, but also for their potential "paracrine" effect(s) within the tumor microenvironment after homotopic implantation into the...

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 adults

Tamaya Castro Ribeiro

30 August 2010

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

Amplificação de genes

Fator esteroidogênico 1

Neoplasias do córtex-supra-renal

Receptor IGF tipo 1

Adrenocortical neoplasias

Gene amplification

Receptor IGF Type 1

Receptors fibroblast growth factor

Steroidigenis fator 1

Comportamento de células pulpares humanas expostas ao TGFβ1 a ao aFGF em cultura

Luisi, Simone Bonato

January 2006

O propósito do presente estudo foi avaliar o comportamento de células pulpares humanas expostas ao TGFβ1 e ao aFGF, em cultura, nas seguintes concentrações: TGFβ1 a 1ng/mL, TGFβ1 a 5ng/mL, TGFβ1 a 1ng/mL + aFGF a 5ng/mL, TGFβ1 a 5ng/mL + aFGF a 5ng/mL e aFGF a 5ng/mL. Foi avaliada a morfologia celular, a atividade da fosfatase alcalina, através de ensaio com pNPP como substrato e a expressão das proteínas osteocalcina, sialoproteína óssea e sialofosfoproteína de dentina, através de RT-PCR. Após quatro dias, verificou-se que a média do número de nucléolos no grupo tratado com TGFβ1 a 1ng/mL foi significativamente maior que no grupo tratado com aFGF a 5ng/mL. A média da atividade da fosfatase alcalina no grupo tratado com TGFβ1 a 1ng/mL foi significativamente maior que no grupo tratado com TGFβ1 a 5ng/mL + aFGF a 5ng/mL. Foi observada a expressão de osteocalcina em todas as células pulpares humanas que proliferaram em cultura. Entretanto, no grupo em que foi utilizado o aFGF a 5ng/mL houve diminuição da expressão da osteocalcina. A exposição dos fatores não induziu a expressão de componentes da matriz de dentina tais como BSP e DSPP. Sugere-se que as células expostas ao TGFβ1 1ng/mL foram estimuladas, apresentando uma maior atividade celular e as células expostas ao aFGF 5ng/mL foram inibidas, apresentando uma menor atividade celular. / The aim of the present work was to evaluate the behavior of human dental pulp cells exposed to TGFβ1 and aFGF in culture, at the following concentrations: TGFβ1 1ng/mL, TGFβ1 5ng/mL, TGFβ1 1ng/mL + aFGF 5ng/mL, TGFβ1 5ng/mL + aFGF 5ng/mL e aFGF 5ng/mL. We assessed the cellular morphology, alkaline phosphatase activity, using pNPP as substrate, and expression of osteocalcin, bone sialoprotein, dentin sialophosphoprotein proteins by RT-PCR. After four days, the nucleolus media in the group treated with TGFβ1 1ng/mL was significantly higher than the group treated with aFGF 5ng/mL The alkaline phosphatase activity in the TGFβ1 1ng/mL treated group was significantly higher than the media observed in TGFβ1 5ng/mL + aFGF 5ng/m treated group. Osteocalcin expression was observed in all human dental pulp cell cultures. However, in the aFGF 5ng/mL treated group the osteocalcin expression decreased. The exposure to growth factors did not induced the expression of dentin matrix components such as BSP or DSPP. Our data suggest that the cells exposed to TGFβ1 1ng/mL were stimulated and had a higher cell activity, and that cells exposed to aFGF 5ng/mL were inhibited having a cell activity decrease.

Células

Polpa dentaria

Patologia bucal

Genética

Cell culture

Dental pulp

Transforming growth factor beta

Fibroblast growth factor

Cell differentiation

Odontoblasts

Morphology

Alkaline phosphatase

Osteocalcin

Bone sialoprotein (BSP)

Dentin sialophosphoprotein (DSPP)

Avaliação toxicogenética e ecotoxicológica de corantes têxteis / Toxicogenetic and ecotoxicological assessment of textile dyes

Gisele Augusto Rodrigues de Oliveira

12 June 2013

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.

Citotoxicidade

Direct Black 38

Ecotoxicidade

Fibroblastos (NDHF)

Genotoxicidade

Mutagenicidade

Queratinócitos (HaCat)

Reactive Blue

Suor sintético

Artificial sweat

Cytotoxicity

Direct Black 38

Ecotoxicity

Fibroblast (NDHF)

Genotoxicity

Keratinocyte (HaCat)

Mutagenicity

Reactive Blue

Efeito da Tributirina na fase de iniciação / promoção inicial da hepatocarcinogênese, associada ao desenvolvimento da doença hepática gordurosa não alcoólica em ratos Wistar / Effect of Tributirina in the initiation / initial promotion phase of hepatocarcinogenesis associated with the development of non-alcoholic fatty liver disease in Wistar rats.

Roberto Carvalho Yamamoto

29 March 2017

O carcinoma hepatocelular (HCC) é a sexta neoplasia mais comum e a terceira causa de mortalidade por câncer no mundo. Está relacionado, principalmente, à exposição a diversos fatores de risco, como a doença hepática gordurosa não alcoólica (NAFLD). O HCC apresenta mau prognóstico; neste sentido, é importante a adoção de medidas de controle, como a quimioprevenção. A quimioprevenção é o método mais apropriado para se evitar o câncer e consiste na prevenção, inibição ou reversão das etapas iniciais da carcinogênese, pela administração de um ou mais compostos químicos sintéticos ou naturais. Diversos compostos presentes nos alimentos podem apresentar atividade quimiopreventiva, dentre esses, a tributirina (TB), pró-fármaco do ácido butírico. Dessa forma, propôs-se avaliar o efeito quimiopreventivo da TB nas etapas de iniciação/promoção inicial, em ratos submetidos ao modelo de hepatocarcinogênese do hepatócito resistente (RH) associado à NAFLD. Ratos Wistar machos foram distribuídos em Grupo dos animais não tratados (NT), e dois outros grupos experimentais, o grupo RH + NAFLD + maltodextrina (grupo controle isocalórico, CI), e o grupo RH + NAFLD + tributirina (grupo TB). Os animais do grupo CI foram tratados diariamente, por gavagem, com emulsão hiperlipídica [1 mL/100 g de peso corpóreo (p. c)], e maltodextrina (300 mg/ 100 g p.c.), enquanto que os animais do Grupo TB foram tratados diariamente, por gavagem, com emulsão hiperlipídica [1 mL/100 g de p. c.], e TB (200 mg/ 100 g de p.c.), durante 13 semanas consecutivas quando foram eutanasiados. Após esse período, a análise por cromatografia a gás revelou que o grupo dos animais tratados com a tributirina apresentou uma concentração de AB 2.118 vezes superior (p < 0.05) às concentrações de AB constatadas no grupo controle. Em relação aos dados de morfometria de LPNs [lesões pré-neoplásicas persistentes (pLPN) ou em remodelação (rLPN)], a atividade quimiopreventiva da tributirina foi observada a partir da redução (p < 0,05) significativa do número de lesões pré-neoplásicas persistentes (pLPN) em comparação ao grupo controle. A área das pLPNs, contudo, foi maior (p < 0,05) no Grupo TB quando comparada à do grupo controle isocalórico. Não foram observadas diferenças estatisticamente significativas (p >= 0,05) no número e na área de rLPN, bem como na % da área do corte do fígado ocupada por LPNs entre os dois grupos experimentais. A quantificação da apoptose por H&E revelou maior (p < 0,05) índice apoptótico em pLPN e em rLPN nos animais tratados com TB, quando comparados aos animais do grupo 6 controle. Nesse sentido, observou-se que os animais tratados com a tributirina apresentaram maior (p < 0,05) ativação de Caspase 3 do que os ratos do grupo controle isocalórico. Em relação à avaliação da proliferação celular, o Grupo TB apresentou redução (p < 0,05) do índice de proliferação tanto em pLPNs como em rLPNs, quando comparado ao do grupo controle isocalórico. Não foi observada diferença estatisticamente significativa (p > 0,05) entre os surroundings dos dois grupos experimentais. A determinação do perfil lipídico sérico revelou que os animais tratados com a tributirina apresentaram menores (p < 0,05) concentrações séricas de LDL-colesterol e maiores (p < 0,05) concentrações séricas de HDL-colesterol, quando comparados às do grupo controle. Além disso, foram observadas menores (p < 0,05) concentrações hepáticas de colesterol no Grupo TB quando comparadas às do Grupo CI. Em relação a análise por PAS, embora, o presente estudo não tenha revelado diferença estatisticamente significativa (p >= 0,05) entre os dois grupos experimentais, o score entre os graus de marcação por PAS apresentou tendência (p = 0,07) a ser maior nos animais tratados com a tributirina quando comparados aos ratos do grupo controle. Em relação à expressão gênica de FGF-21, o Grupo TB apresentou maior (p < 0,05) expressão em comparação a seu grupo controle (Grupo CI). Além disso, esses dados são corroborados por meio da marcação imunoistoquímica de FGF-21, que revelou que os animais tratados com a tributirina apresentaram maior (p < 0,05) score desta marcação quando comparados aos ratos do grupo controle isocalórico. A análise de expressão em nível proteico de PPAR-&#945; revelou que o Grupo TB apresentou maior (p < 0,05) expressão em comparação ao Grupo CI. O presente estudo demonstrou que o tratamento com a tributirina apresentou um efeito quimiopreventivo quando administrada nas etapas de iniciação/promoção inicial em modelo de hepatocarcinogênese associado à NAFLD. Adicionalmente, sugere-se que a atividade como HDACi da TB poderia modular a expressão de genes supressores de tumor, bem como a daqueles relacionados ao metabolismo lipídico, atenuando os fatores de risco relacionados à NAFLD. / Hepatocellular carcinoma (HCC) is the sixth most common neoplasm and the third leading cause of cancer mortality in the world. It is mainly related to exposure to several risk factors, such as non-alcoholic fatty liver disease (NAFLD). HCC presents poor prognosis; In this sense, it is important to adopt control measures, such as chemoprevention. Chemoprevention is the most appropriate method to avoid cancer and consists in the prevention, inhibition or reversal of the early stages of carcinogenesis by the administration of one or more synthetic or natural chemical compounds. Several compounds present in foods may present chemopreventive activity, among them, tributyrin (TB), a prodrug of butyric acid. Thus, it was proposed to evaluate the chemopreventive effect of TB in the initiation / initial promotion stages in rats submitted to the hepatocyte-resistant hepatocyte model (HR) associated with NAFLD. Male Wistar rats were divided into two groups: RH + NAFLD + maltodextrin (isocaloric control group, CI), and RH + NAFLD + tributyrin group (TB group). The animals of the CI group were treated daily with gavage with hyperlipid emulsion [1 mL / 100 g body weight (wt.)], and maltodextrin (300 mg / 100 g body wt.), while the animals of the TB Group were treated daily by gavage with hyperlipid emulsion [1 mL / 100 g of body wt.], and TB (200 mg / 100 g body wt.) for 13 consecutive weeks when they were euthanized. After this period, the gas chromatographic analysis revealed that the group of animals treated with tributyrin had a concentration of AB 2184 times higher (p < 0.05) than the concentrations of AB found in the control group. Regarding the morphometry data of PNLs [persistent pre-neoplastic lesions (pPNL) or remodeling (rPNL)], the chemopreventive activity of tributyrin was observed from a significant (p < 0.05) reduction in the number of pPNL compared to the control group. The area of the pPNLs, however, was higher (p < 0.05) in the TB Group when compared to the isocaloric control group. There were no statistically significant differences (p >= 0.05) in the number and area of rPNL, as well as in the area of the cut of the liver occupied by LPNs between the two experimental groups. The quantification of apoptosis by H&E revealed a higher (p < 0.05) apoptotic index in pPNL and rPNL in the TB treated animals, when compared to the animals in the control group. In this sense, animals treated with tributyrin showed greater (p < 0.05) activation of Caspase 3 than the rats of the isocaloric control group. In relation to the evaluation of cell proliferation, the TB group presented a reduction (p < 0.05) in the proliferation index in both pPNLs and rPNLs, when compared to the isocaloric control group. No statistically significant difference (p> 0.05) was observed between the two experimental groups. The determination of serum lipid profile revealed that the animals treated with tributyrin showed lower (p < 0.05) serum LDL-cholesterol concentrations and higher (p < 0.05) serum HDL-cholesterol concentrations when compared to those in the group control. In addition, lower hepatic concentrations (p < 0.05) of cholesterol were observed in the TB Group when compared to those in the CI Group. Regarding the SBP analysis, although the present study did not reveal a statistically significant difference (p >= 0.05) between the two experimental groups, the score between the PAS presented a tendency (p = 0.07) to be greater in animals 8 treated with tributyrin compared to the rats in the control group. In relation to the gene expression of FGF-21, the TB Group presented higher (p <0.05) expression in comparison to its control group (CI Group). In addition, these data are corroborated by FGF-21 immunohistochemical labeling, which revealed that animals treated with tributyrin showed a higher (p <0.05) score for this marker when compared to the isocaloric control rats. Analysis of protein-level expression of PPAR-&#945; revealed that the TB Group had higher (p <0.05) expression compared to the CI Group. The present study demonstrated that treatment with tributyrin had a chemopreventive effect when administered in the initiation / initial promotion steps in a hepatocarcinogenesis model associated with NAFLD. In addition, it is suggested that the activity as HDACi of TB could modulate the expression of tumor suppressor genes, as well as those related to lipid metabolism, attenuating the risk factors related to NAFLD.

Fator de crescimento de fibroblasto 21

Hepatocarcinogênese

PPAR-&#945;

Quimioprevenção

Tributirina

Chemoprevention

Fibroblast growth factor 21

Hepatocarcinogenesis

Non-alcoholic fatty liver disease

PPAR-&#945;

Tributyrin

Nanoparticules biodégradables et multifonctionnelles pour la régénération tissulaire de plaies cutanées profondes / Biodegradable and multifunctional nanoparticles for tissue regeneration of cutaneous deep wounds

Berthet, Morgane

20 October 2017

L'objectif de cette thèse était de mettre en oeuvre le développement d'une thérapie des plaies cutanées profondes basée sur l'utilisation de nanoparticules (NP) biodégradables de poly(acide lactique) (NP-PLA) vectrices de médiateurs de la cicatrisation. Le but était d'accélérer la cicatrisation cutanée et de favoriser la reconstruction d'un derme fonctionnel. La méthode a été de (i) réduire la réaction inflammatoire pour en contenir les effets délétères et (ii) stimuler la réépithélialisation pour accélérer la cicatrisation et réduire le risque infectieux. Les moyens ont été l'utilisation d'un antioxydant, la vitamine E (VE) et d'un facteur de croissance des fibroblastes (le FGF2) vectorisés par des nanoparticules biocompatibles et biodégradables de poly(acide lactique) (PLA). Nos NP-PLA contiennent l'antioxydant (VE) dans leur coeur hydrophobe, et portent le facteur de croissance fibroblastique (FGF2) à leur surface. Ces formulations ont été (i) caractérisées par des méthodes physico-chimiques et (ii) testées par des méthodes in vitro pour évaluer leurs effets potentiels, en tant que système de délivrance de VE et de FGF2, sur la cicatrisation des plaies. Des modèles expérimentaux in vivo ont été développés et caractérisés pour mettre en évidence l'efficacité des NP-PLA fonctionnalisées pour la cicatrisation cutanée et la reconstruction dermique fonctionnelle. Nos résultats montrent que l'activité antioxydante de la VE n'est pas perturbée par l'encapsulation dans des NP-PLA et qu'elle est légèrement supérieure à celle de la VE libre dans un système in vitro. De même, l'activité biologique du FGF2 sur la prolifération et la migration des fibroblastes dans un système in vitro n'est pas altérée par son adsorption sur des NP-PLA. Aucune de ces deux NP-PLA fonctionnalisées n'a de cytotoxicité avérée in vitro. Deux modèles expérimentaux de plaies cutanées profondes ont été développés sur souris sans poils SKH1 saines : (i) Un modèle robuste de brûlure cutanée thermique de 3ème degré qui se caractérise par une inflammation massive de la plaie et par un stade de granulation tardif après 16 jours de cicatrisation. (ii) Un modèle de plaie d'excision cutanée a également été utilisé. Un modèle de cicatrisation retardée a été obtenu par induction chimique d'un diabète de type I stable avant réalisation des plaies d'excision ou de brûlure. Ces modèles de plaies cutanées ont été caractérisés tout au long du processus de cicatrisation par des études (i) macroscopiques de cinétique de fermeture des plaies, (ii) histologiques d'inflammation, de nécrose et de réépithélialisation, (iii) physiologiques de perfusion sanguine cutanée. L'expression de 84 gènes impliqués dans le processus de cicatrisation a été étudiée sur le tissu cicatriciel 14 jours après formation de la plaie. Pour conclure, nos résultats mettent en évidence le potentiel de vectorisation de molécules thérapeutiques des NP de PLA pour le développement de futures stratégies de délivrance ciblée de VE et de FGF2 dans les plaies cutanées profondes. Les modèles expérimentaux in vivo développés et caractérisés, ouvrent la voie aux études précliniques d'efficacité des NP-PLA fonctionnalisées dans le processus de cicatrisation des plaies profondes / The objective of this thesis was to develop a therapy of cutaneous deep wounds based on biodegradable poly (lactic-acid) nanoparticles (PLA-NP) releasing wound healing mediators. The goal was to accelerate wound healing and to promote the reconstruction of a functional dermis. Our method was (i) to reduce the inflammatory reaction in the aim of limiting its deleterious effects, (ii) to stimulate reepithelialization to accelerate wound healing and to reduce the risk of infections. The implementation of means was based on the use of an antioxidant (vitamin E, VE) and a fibroblast growth factor (FGF2) carried by biocompatible and biodegradable poly(lactic-acid) based nanoparticles. Our PLA-NP contained the antioxidant (VE), in their hydrophobic core and carried the fibroblastic growth factor (FGF2) on their surface. These formulations were (i) characterized by physico-chemical methods and (ii) tested by in vitro methods to evaluate their effects as a delivery system of VE and FGF2 on wound healing. Experimental in vivo models have been developed and characterized in the aim of studying the potential beneficial effect of functionalized PLA-NP on wound healing and functional reconstruction of dermis. Our results show that the antioxidant activity of VE was not inhibited by encapsulation into PLA-NP and was lightly increased compared with free VE in an in vitro system. The biological activity of FGF2 on proliferation and migration of fibroblasts in an in vitro system was not altered by adsorption onto PLA-NP as well. No cytotoxicity of these functionalized PLA-NP was detected in vitro. Two experimental models of deep cutaneous wounds were developed on the healthy SKH1 hairless mouse: (i) A robust third degree thermal burn model that was characterized by massive inflammation of the wound and a late granulation stage after 16 days of healing. (ii) A model of excisional skin wound was also used. A model of delayed wound healing was established by chemical induction of stable type I diabetes prior to excision and burn injuries. The healing process of these models of cutaneous wounds was characterized by (i) macroscopic studies of wound closure, (ii) histological studies of inflammation, necrosis and reepithelialization, and (iii) by physiological studies of cutaneous blood perfusion. A study of the expression of 84 genes involved in the healing process was carried out on the scar tissue 14 days post-wound. In conclusion, our results highlight the potential efficacy of PLA-NP as a vector of therapeutic molecules for the development of future strategies for targeted delivery of VE and FGF2 in deep skin wounds. The developed and characterized in vivo experimental models open the way to preclinical studies of efficacy of functionalized PLA-NP on the healing process of deep wounds

Plaie d’excision

Nanoparticules biodégradables

Poly(acide lactique)

Vitamine E

Facteur de croissance des fibroblastes

Cicatrisation cutanée

Third degree thermal skin burn

Excision wound

Biodegradable nanoparticles

Poly (lactic-acid)

Vitamin E

Fibroblast growth factor

Cutaneous wound healing

570

Rôle des canaux chlore volume-sensibles dans la physiologie des fibroblastes: implication dans la physiopathologie vasculaire / Role of the volume-sensitive chloride channels in the fibroblasts physiology: implication in the vascular physiopathology

Ben Soussia, Ismail

10 December 2013

Les canaux chlore volume-sensibles (VRACs) régulent les activités différenciatives, migratoires et prolifératives des fibroblastes et pourraient donc être impliqués dans la pathobiologie de l’hypertension artérielle pulmonaire (HTAP) et la fibrose pulmonaire interstitielle (FPI). Diverses études antérieures ont montré que l’endothéline-1 (ET1) a des propriétés pro-fibrosantes, en plus cette molécule participe au remodelage des artérioles pulmonaires dans l’HTAP. D’autre part, ces pathologies d’HTAP et de fibrose pulmonaire peuvent être antagonisées par la mélatonine et par l’interaction entre protéines de morphogenèse (BMPs: bone morphogenetic proteins) et leur récepteur 2 (BMPR2). <p>La première partie de mon travail s’est intéressée aux effets de la BMP2 et de l’endothéline1 sur les canaux chlore volume-sensibles de fibroblastes pulmonaires. <p>La stimulation hypotonique du courant a été inhibée par la BMP2 en dépendance de la dose appliquée et de la durée d’exposition à la molécule. Un maximum d’effet de la BMP2 a été observé avec une concentration de 10ng/ml pendant 45min de prétraitement. En plus, les courants chlore volume-sensibles, inhibés par la BMP2, se sont restaurés en présence de l’inhibiteur spécifique de la voie de la protéine kinase C (PKC), le GFX. D’autre part, le prétraitement des fibroblastes avec l’ET1 à 100μM pendant 2heures a induit l’apparition d’un courant activable par l’acide lysophosphatidique (ICl-LPA) (marqueur de la différenciation des fibroblastes) et l’expression de l’α-sma (alpha smooth muscle actin, marqueur classique des myofibroblastes). La migration des fibroblastes a été aussi induite en présence de l’ET1, alors que l’inhibition des canaux chlore par le DIDS (Diisothiocyanatostilbene-disulfonic acid) a bloqué cet effet. La BMP2 s’est opposée à l'effet de l’ET1 sur la différenciation des fibroblastes par l’inhibition de l’induction du courant ICl-LPA et de l’expression génique de l’α-sma. En plus, la migration des fibroblastes, induite par l’ET1, a été inhibée par la BMP2. Nous avons aussi montré que l’expression de gène du canal anoctamine6 a été stimulée par l’ET1, alors la BMP2 s’est opposée à cet effet, ce qui suggère que l’anoctamine6 est le canal responsable de la différenciation des fibroblastes marquée par l’apparition du courant ICl-LPA. Il apparaît donc que l’ET1 et la BMP2 ont des effets opposés sur la différenciation et la migration des fibroblastes pulmonaires via leurs effets sur l’activité et l’expression des canaux chlore volume-sensibles. <p>La deuxième partie du travail s’est intéressée à l’effet de la mélatonine sur les canaux chlore volume-sensibles de fibroblastes L929 et aux conséquences de cet effet sur la migration et la prolifération de ces cellules. Le prétraitement des fibroblastes avec 100μM de mélatonine pendant 30min a inhibé significativement l’activation des canaux chlore volume-sensibles. En plus, une concentration de 100 nM pendant une nuit a donné le même effet observé avec la mélatonine à 100μM pendant 30 min. Nous avons aussi constaté que l’inhibition des VRACs par la mélatonine a été dose-dépendante. L’effet de la mélatonine sur les VRACs a été inhibé en présence de l’antagoniste non sélectif des récepteurs de la mélatonine (Luzindole) et l’antagoniste sélectif pour le récepteur 2 (MT2) de la mélatonine (K185). En plus, l’inhibiteur de la voie de la PKC (GFX) a empêché la mélatonine d’agir sur les canaux chlore volume-sensibles. Ces résultats suggèrent que la mélatonine agit sur les VRACs en se fixant sur MT2 et en activant la voie de la PKC. L’inhibition des VRACs par la mélatonine a eu pour conséquence l’inhibition du phénomène de RVD (regulatory volume decrease), qui suit le gonflement hypotonique. Nous avons aussi montré que la migration des fibroblastes L929 a été inhibée par la mélatonine à 100μM et cela via l’inhibition des VRACs, puisque la mélatonine s’est montrée incapable d’induire une inhibition supplémentaire de la migration en présence de l’inhibiteur des canaux chlore volume-sensibles (DIDS). En plus, l’antagoniste non sélectif des récepteurs de la mélatonine (luzindole), l’antagoniste sélectif pour MT2 (K185) et l’inhibiteur de la voie de PKC (GFX) ont provoqué la disparition de l’effet de la mélatonine sur la migration. Cela suggère que la mélatonine agit sur la migration via les voies empruntées pour l’inhibition des VRACs. L’inhibition des VRACs, par la mélatonine et le DIDS, n'a pas induit d'inhibition significative sur la prolifération des fibroblastes L929, ce qui veut dire que l’inhibition des VRACs est insuffisante pour induire une inhibition significative de la prolifération. Donc, la mélatonine inhibe les canaux chlore volume-sensibles via sa fixation sur MT2 et l’activation de la voie de la PKC. Cela a pour conséquence l’inhibition du RVD et de la migration des fibroblastes L929, mais cette inhibition des VRACs est insuffisante pour inhiber la prolifération de ces cellules. <p>En conclusion, j’ai pu montrer l’importance des canaux chlore volume-sensibles dans la régulation de la physiologie des fibroblastes et leurs interactions avec des médiateurs d’affections pulmonaires à composante fibrosante, telles que l’HTAP et la FPI./<p>Volume-regulated anion channels (VRACs) regulate fibroblast differentiation, migration and proliferation. Fibroblasts have been shown to be involved in several pathologic states including pulmonary arterial hypertension (PAH) and interstitial pulmonary fibrosis (IPF). A number of previous studies have shown that endothelin-1 (ET1) has pro-fibrotic properties and participates in the remodeling of pulmonary arterioles in PAH. On the other hand, PAH and IPF may be controlled by melatonin and bone morphogenetic protein receptor 2 (BMPR2) signaling. <p>The first part of my work described the effects of BMP2 and ET1 on the VRAC in the pulmonary fibroblasts and the consequences of these effects on differentiation and migration of these cells. Pretreatment of fibroblasts with BMP2 inhibited hypotonic current stimulation and this effect was dependent on the BMP2 concentration and on the time of exposition to the molecule. The maximum effect of BMP2 was observed at a concentration of 10ng/ml for 45 min of pretreatment. In addition, volume-sensitive chloride current, inhibited by BMP2, was restored in presence of PKC (protein kinase C) pathway inhibitor (GFX). On the other hand, the pretreatment of fibroblasts with100μM of ET1 for 2 hours, induced the appearance of a lysophosphatidic acid-activable chloride current (ICl-LPA) (a marker of fibroblast differentiation) and stimulated the expression of the smooth muscle actin alpha (α-sma) (the classical marker of myofibroblasts). ET1 also stimulated fibroblast migration, while the inhibition of chloride channels by (DIDS) (Diisothiocyanatostilbene disulfonic acid) bloked this effect. The BMP2 opposed the effect of ET1 on fibroblast differentiation by preventing the induction of ICl-LPA current and α-sma gene expression. In addition, BMP2 inhibited the fibroblast migration induced by ET1. We have also shown that ET1 stimulated anoctamin6 channel gene expression and that BMP2 opposed this effect, which suggests the implication of anoctamin6 on fibroblast differentiation marked by the appearance of ICl-LPA current. Thus, ET1 and BMP2 have opposite effects on pulmonary fibroblast differentiation and migration via their effects on the activity and expression of volume-regulated anion channels. <p>The second part of the work focused on the effect of melatonin, which is a vasorelaxant and antifibrotic agent, on the volume-sensitive chloride channels in L929 fibroblasts and primary rat fibroblasts and on the consequences of this effect on migration and proliferation of these cells. Fibroblast pretreatment with 100μM of melatonin for 30 min significantly inhibited the activation of volume-sensitive chloride channels. In addition, a concentration of 100 nM of melatonin overnight produced the same effect observed with melatonin at 100μM for 30 min. The effect of melatonin on VRAC current was dose-dependent. Inhibition of VRACs by melatonin resulted the inhibition of the RVD phenomenon (Regulatory Volume Decrease) following the hypotonic swelling. The effect of melatonin on VRACs was inhibited in the presence of the non-selective antagonist of melatonin receptors (Luzindole) and the selective antagonist of the melatonin receptor 2 (MT2), the K185. In addition, the PKC pathway inhibitor (GFX) inhibited the effect of melatonin on the volume-sensitive chloride channels. These results suggest that, melatonin acts on the VRACs by binding to MT2 and by activating the PKC pathway. We have also shown that the L929 fibroblast migration was inhibited by melatonin (100μM) via inhibition of VRAC channels, since melatonin was unable to induce further inhibition of migration in the presence of the volume-sensitive chloride channels inhibitor (DIDS). In addition, the non-selective melatonin receptors antagonist (luzindole), the selective antagonist for MT2 (K185) and the PKC pathway inhibitor (GFX), blocked the effect of melatonin on migration, which suggests that melatonin acts on migration via the same pathways that inhibit VRAC channels. Inhibition of VRACs by melatonin and DIDS have not shown any significant inhibition of L929 fibroblast proliferation, which means that the VRAC inhibition is not sufficient to induce a significant inhibition of proliferation. Thus, melatonin inhibits volume-sensitive chloride channels via its binding to MT2 and activation of the PKC pathway. This has as consequences the inhibition of RVD and migration of L929 fibroblasts but insufficient to inhibit the proliferation of these cells. <p>In conclusion, I have shown the importance of volume-sensitive chloride channels in the regulation of fibroblast physiology and its interactions with ET-1, BMP and melatonin signaling. These results are compatible with the notion that the participation of fibroblasts in the pathobiology of PAH or IPF is mediated by VRAC channels, which can be activated by ET-1 and inhibited by BMP’s or melatonin. The translational relevance of these findings will have to be investigated on fibroblasts from patients with PAH or IPF, or from animal models of pulmonary hypertension or lung fibrosis.<p><p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Médecine pathologie humaine

Fibroblasts -- Physiology

Pulmonary fibrosis

Hypertension

Chloride channels

Fibroblastes -- Physiologie

Fibrose pulmonaire

Hypertension artérielle

Canaux à chlorure

fibrose/chloride channels

remodelage

fibroblaste

fibroblast

vascular remodeling

fibrosis.

Canaux chlore

Modulation de l'inflammation à des fins de régénération parodontale / Modulation of inflammation in service of periodontal regeneration

Morand, David-Nicolas

12 September 2016

La cicatrisation parodontale est un processus complexe, composé de quatre phases hautement intégrées (hémostase, inflammation, prolifération, remodelage), qui nécessite une interaction complexe entre les différents types tissulaires (épithélium, conjonctif, os) ainsi que la synthèse de médiateurs, tels que les hormones et les facteurs de croissance. La difficulté à pouvoir obtenir une régénération des tissus parodontaux est en partie due à la réponse inflammatoire qui interfère avec le processus de cicatrisation, via la surexpression des cytokines pro-inflammatoires, ainsi qu’à la croissance rapide des cellules épithéliales le long de la surface de la racine qui porte atteinte à la vraie organisation des tissus, essentielle à la régénération parodontale. Notre objectif a été de mettre au point des membranes nanofibreuses implantables à base de polycaprolactone (PCL) fonctionnalisés par plusieurs molécules actives (Alpha-Melanocyte Stimulating Hormone (α-MSH)), ibuprofène, atorvastatine) et implantables, permettant à la fois un contrôle physique et biochimique de la cicatrisation parodontale. En d’autres termes, nous avons cherché à ralentir la colonisation de la surface radiculaire par les cellules épithéliales et à moduler l’inflammation de la phase post-chirurgicale afin de promouvoir la cicatrisation parodontale. Pour cela, nous avons mis au point un modèle d’inflammation in vitro mimant le tissu superficiel du parodonte en utilisant des cellules parodontales, à savoir des kératinocytes et fibroblastes gingivaux humains, stimulées par du lipopolysaccharide de Porphyromonas gingivalis (LPS-Pg). Les résultats obtenus ont montré une bonne biocompatibilité des systèmes (α-MSH, ibuprofène) ainsi qu’une diminution de la prolifération, migration des kératinocytes, fibroblastes gingivaux humains et une diminution significative de l’expression des marqueurs pro- ou anti-inflammatoires (TNF-α, TGF-β, IL-6, IL-8), des marqueurs d’adhérence, de prolifération (Intégrine, Laminine, Fibronectine) et de remodelage (COL-IV). En conclusion, les stratégies développées (α-MSH, ibuprofène) au sein de notre laboratoire ont permis de mettre en évidence l’intérêt de délivrer une molécule anti-inflammatoire à partir d’un biomatériau et représentent un fort potentiel d’application clinique pour la parodontologie mais aussi pour la médecine de demain. / Periodontal wound healing is a process involving hemostasis, inflammatory phase, proliferation and maturation/matrix remodeling. These phases require cell-to-cell interaction of different cell types (epithelial cells, fibroblasts, osteoblasts, and cementoblasts) orchestrated by growth factors, cytokines and extracellular matrix components. After conventional periodontal therapy, wound healing corresponds more to tissue reparation than regeneration. This absence of true regeneration is considered to be mainly due to the competition between the different periodontal tissues (gingiva, cementum, alveolar bone) and the differential rate of proliferation, migration and differentiation of periodontal cells during wound healing. Therefore, the inflammatory response could interfere with the healing process depending on the secretion/activity level of matrix metalloproteinase (MMPs), cytokines, chemokines and also the imbalance with their antagonists/inhibitors, which leads to fibrosis and excessive scarring. Our aim was to develop implantable nano-fibrous membranes based on polycaprolactone (PCL) and functionalized by several active molecules (Alpha-melanocyte stimulating hormone (α-MSH)), ibuprofen, atorvastatin) allowing both physical control and biochemical periodontal healing features. Furthermore, we developed an in vitro inflammatory model mimicking the periodontal tissue surface, using periodontal cells ; keratinocytes and human gingival fibroblasts stimulated with lipopolysaccharide of Porphyromonas gingivalis (Pg-LPS). The results obtained showed good biocompatibility systems (α-MSH, ibuprofen) and a decrease in the proliferation and migration of keratinocytes, human gingival fibroblasts. Moreover, a significant decrease of pro- or anti-inflammatory markers expression (TNF-α, TGF-β, IL-6, IL-8), adhesion markers of proliferation (Integrin, laminin, fibronectin) and remodeling (COL-IV) could be achieved. In conclusion, the strategies developed in our laboratory (α-MSH, ibuprofen), have helped to highlight the interest of the release of an anti-inflammatory molecule from a biomaterial, and represented a strong potential for clinical application not only in periodontics but also in general medicine.

Alpha-Melanocyte Stimulating Hormone

Anti-inflammatoire

Biomatériau

Cicatrisation

Cytokines

Electrospinning

Fibroblaste

Ibuprofène

Kératinocytes

Lipopolysaccharide

Parodontologie

Polycaprolactone

Alpha-Melanocyte Stimulating Hormone

Anti-inflammatory

Biomaterial

Wound healing

Cytokines

Electrospinning

Fibroblast

Ibuprofen

Keratinocyte

Lipopolysaccharide

Periodontology

Polycaprolactone

571.96

617.6

LOX and LOX-Like Proteins as Potential Therapeutic Target for Atrial Fibrillation

Al-u'datt, Doa'a

01 1900

No description available.

Heart Failure

Atrial Fibrillation

Fibrosis

Lysyl Oxidase (LOX)

LOX-Like (LOXL) Proteins

Collagen Cross-linking

Fibroblast

Myocyte

Insuffisance Cardiaque

Fibrillation Atriale

Fibrose

Lysyl-Oxydase (LOX)

LOX-like (LOXL)

Cross-linking du Collagène

Fibroblaste

Regulation of thecal endothelial cell function by growth factors in ruminants

Ben Koura, Morad

05 1900

No description available.

Facteur de croissance transformant β

Ovaire ovin

Cellules endothéliales

Protéine osseuse morphogénétique

Transforming growth factor β

Ovine ovary

Endothelial cells

Fibroblast growth factor 18

Bone morphogenetic protein