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Resposta do condrócito, proteoglicana, colágeno e fibronectina da cartilagem articular, após aplicação de um protocolo de imobilização, alongamento e remobilização articularRenner, Adriana Frias 29 March 2010 (has links)
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Previous issue date: 2010-03-29 / Universidade Federal de Sao Carlos / The function of articular cartilage depends on the chondrocytes and on the components of the extracellular matrix, which in turn may be regulated by mechanical stimuli. Thus, changes in load support may affect its composition or its structure and interfere with their functional ability to sustain and distribute loads and minimize the stresses of contact. Thus, investigations of articular cartilage components, such as chondrocyte and or matrix components are essential for prevention and treatment of arthritic disease. A greater understanding of the relationship of use / disuse and degeneration as well as the consequences of situations such as shear stress, static load or unloading can generate in this tissue. The aim of this study was to evaluate the response of chondrocytes, proteoglycan, collagen and fibronectin in articular cartilage after application of a protocol of immobilization, stretching and joint remobilization. Material and Methods: We used 36 animals divided into six groups (n = 6): immobilized (I), immobilized and stretched seven days per week (IS7), immobilized and stretched three days per week (IS3), stretched seven days per week (S7), stretched three days per week (S3) and control (C). Groups I, IS3 and AS7 underwent four weeks of immobilization of the left hind limbs. Groups IS7 and IS3, after immobilization, were subjected to three weeks of the posterior muscle stretching of the left hind leg daily or three times per week, respectively. The S3 and S7 groups remained free in the cage for 4 weeks and subsequently underwent three weeks of posterior muscle stretching of the left hind limb daily or three times per week, respectively. After these procedures, the left ankle were collected, decalcified, processed in paraffin and stained with H&E, Safranin-O, Picrossiruius Red and immunostained with fibronectin and chondroitin sulfate 4 for further analysis. Two observers evaluated parameters such as chondrocyte cloning, loss of proteoglycan content, thin and thick fibrils collagen content, intensity of staining for fibronectin and chondroitin sulfate 4. For statistical analysis we used the following tests: Kruskal Wallis and post hoc Newman Keuls: cloning and the proteoglycan content of the different groups); Duncan multiple comparison: morphometric evaluation of cellularity; ANOVA and post hoc Tukey: proportion of thin and thick fibrils of collagen. For analysis of the immunohistochemistry reactions of fibronectin and chondroitin sulfate 4 it was used nonparametric test Kruscal Wallis and post hoc Newman Keuls. In all tests the significance level was p ≤ 0.05. Results: With respect to the cellularity IS7 group showed significant increase in cellularity compared to groups I and C. The IS3 group also showed significant celullar change with the formation of chondrocyte cloning compared to groups S7, S3 and C. The most significant loss of proteoglycan was in IS7 group compared to all other groups. The I group also lost significantly more proteoglycan than the others, except for IS7 group. With respect to collagen fibrils was observed that immobilization (I) significantly reduced the thin fibrils in relation to groups IS3, S7, S3 and C. The quantity of thick fibrils was influenced by mechanical overload, as there was a significant decrease of it in all groups compared to control. With respect to the findings of the fibronectin, the groups immobilized and stretched (IS3 and IS7) had significantly higher intensity staining of fibronectin than other groups. There was no statistical difference of chondroitin sulfate 4 immunostaining among the different groups. Conclusion: The protocols of muscle stretching after immobilization, applied on alternate days and daily provoked distinct adaptive responses in articular cartilage. The immobilization stimulated tissue atrophy that when stimulated by muscle stretching on alternate days, kept some matrix components, such as fine fibrils of collagen and proteoglycan, unlike the protocol used daily. Thus we can conclude that muscle stretching applied in previously immobilized joints should be applied with caution, on alternate days of mechanical stimulation. / A função da cartilagem articular é dependente do condrócito e dos componentes de sua matriz extracelular, que por sua vez, podem ser regulados por estímulos mecânicos. Assim, alterações no suporte de carga podem afetar sua composição ou sua estrutura e interferir na sua capacidade funcional de sustentar e distribuir cargas e minimizar os estresses de contato. Desta forma, investigações dos componentes da cartilagem articular, como o condrócito e ou componentes da matriz são essenciais para prevenção e tratamento de doenças articulares. É necessário um maior entendimento das relações de uso/desuso e degeneração, assim como das conseqüências que situações como estresse de cisalhamento, carga estática prolongada ou ausência de carga possam gerar neste tecido. O objetivo do presente estudo foi avaliar a resposta do condrócito, proteoglicana, colágeno e fibronectina da cartilagem articular, após aplicação de um protocolo de imobilização, alongamento e remobilização articular. Material e Métodos: foram utilizados 36 animais divididos em 6 grupos (n=6): imobilizado (I), imobilizado e alongado 7 dias por semana (IA7), imobilizado e alongado 3 dias por semana (IA3), alongado 7 dias por semana (A7), alongado 3 dias por semana (A3), e controle (C). Os grupos I, IA7 e IA3 foram submetidos a 4 semanas de imobilização da pata traseira esquerda. Os grupos IA7 e IA3, após a imobilização, foram submetidos a 3 semanas de alongamento da musculatura posterior da pata traseira esquerda diariamente ou 3 vezes por semana, respectivamente. Os grupos A7 e A3 permaneceram livres na gaiola por 4 semanas e posteriormente foram submetidos a 3 semanas de alongamento da musculatura posterior da pata traseira esquerda diariamente ou em dias alternados, respectivamente. Após esses procedimentos, os tornozelos esquerdos foram coletados, descalcificados, processados em parafina e corados com H&E, Safranina, Picrossiruius Red e imunomarcados para fibronectina e sulfato de condroitina 4 para posterior análise. Foram avaliados por dois observadores parâmetros como: celularidade, contagem de clones, perda de proteoglicanos, conteúdo de fibrilas finas e grossas de colágeno e expressão de fibronectina e sulfato de condroitina 4. Para comparação destes parâmetros entre os diferentes grupos foram utilizados os seguintes testes estatísticos: Kruskal Wallis com post hoc Newman Keuls: formação de clones e conteúdo de proteoglicanas; Comparações múltiplas de Duncan: avaliação morfométrica de celularidade e Anova com post hoc de Tukey: proporção das fibrilas finas e grossas de colágeno. Para análise das reações de imunohistoquímica para fibronectina e sulfato de condroitina 4 foi utilizado o teste não paramétrico de Kruscal Wallis e post hoc Newman Keuls. Em todos os testes o nível de significância foi de p≤0,05. Resultados: com relação a celularidade o grupo IA7 apresentou aumento significativo da celularidade em relação aos grupos I e C. O grupo IA3 também apresentou alteração celular significativa com formação de clones em relação aos grupos A7, A3 e C. A maior perda significativa de proteoglicanas foi do grupo IA7 em relação a todos os outros grupos. O grupo I também perdeu significativamente mais proteoglicanas que os demais, somente não com relação ao grupo IA7. Com relação às fibrilas colágenas foi observado que a imobilização (I) reduziu significativamente as fibrilas finas em relação aos grupos IA3, A7, A3 e C. Já a quantidade de fibrilas grossas sofreu influência da sobrecarga mecânica, pois que houve diminuição significativa das mesmas em todos os grupos em relação ao controle. Com relação aos achados de fibronectina, os grupos imobilizados e alongados (IA7 e IA3) apresentaram significativamente maior intensidade de marcação desta que os outros grupos. Não houve diferença estatística das imunomarcações para sulfato de condroitina 4 entre os diferentes grupos. Conclusão: Os protocolos de alongamento muscular, após imobilização, realizados em dias alternados e diariamente, provocaram respostas adaptativas distintas na cartilagem articular. A imobilização desencadeou um quadro de atrofia tecidual que quando estimulada por alongamentos musculares em dias alternados, manteve alguns componentes da matriz, como fibrilas finas de colágeno e proteoglicana. Esta resposta foi agravada quando o mesmo protocolo foi aplicado diariamente. Desta forma, podemos concluir que o alongamento muscular aplicado em articulações previamente imobilizadas deve ser aplicado com cautela, respeitando períodos intercalados de estímulo mecânico.
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Avaliação do metabolismo celular decorrente da aplicação de força nos condrócitos do côndilo mandibular e do joelho de suínos / Comparison of in vitro desponse to mechanical loading between the porcine mandibular condyle and ankle articular cartilagesClarice Nishio 15 February 2008 (has links)
Funcionalmente, a cartilagem da articulação têmporo-mandibular assemelha-se à cartilagem da articulação do joelho por possuírem lubrificação para resistir à fricção e fornecerem proteção às forças mecânicas externas. Entretanto, o efeito das forças de tensão sobre as cartilagens dessas duas articulações ainda permanece obscura. O objetivo desse estudo foi avaliar, in vitro, as alterações metabólicas nos condrócitos extraídos do tecido cartilaginoso do côndilo mandibular e do joelho de suínos, decorrentes da aplicação de forças mecânicas, em relação à síntese de DNA e de proteoglicanos (PTG). Além disso, foi verificada a expressão de colágeno tipo II e de agrecanos no RNAm dos condrócitos dessas duas articulações, tempo-dependente do cultivo celular, utilizando-se a análise quantitativa de PCR em tempo real. Os condrócitos foram submetidos às forças mecânicas de tração de 2 kPa (3% de alongamento), 5 kPa (7% de alongamento) e 10 kPa (12% de alongamento), em uma freqüência de 30 ciclos/min. durante 12 e 24 horas. Os resultados demonstraram que os condrócitos do côndilo mandibular quando submetidos às forças de 2 kPa e de 5 kPa, apresentaram um aumento estatisticamente significativo da síntese de DNA e de PTG, em 12 h. (p < 0,01) e em 24 h. (p < 0,05). Exceto o aumento da síntese de DNA do grupo submetido à força de 5 kPa que durante 24h. não foi estatisticamente significativo (p > 0,05). A força de 10 kPa causou uma diminuição estatisticamente significativa na síntese de DNA e de PTG nos condrócitos do côndilo mandibular, em ambos os tempos de ensaio mecânico (p < 0,01). Por outro lado, os condrócitos do joelho apresentaram um aumento na síntese de DNA e de PTG quando submetidos à todas as magnitudes de força de tração. A força de 5 kPa estimulou um aumento estatisticamente significante das sínteses de DNA e PTG, em 12 h. e 24 h. (p < 0,01). Em 10 kPa, foi observado um incremento estatisticamente significante de DNA em 12 h. (p < 0,01) e em 24 h. (p < 0,05) e de PTG em 24h. (p < 0,01). Foi verificado que os condrócitos do joelho apresentaram uma maior expressão de colágeno tipo II e de agrecanos do que os condrócitos do côndilo mandibular estatisticamente significativo (p < 0,05). A expressão de colágeno tipo II e de agrecanos nos condrócitos do côndilo mandibular foram altamente evidenciados na fase proliferativa e diminuíram progressivamente com a formação de matriz extracelular. Contrariamente, os condrócitos do joelho apresentaram um aumento da expressão de agrecanos no RNAm conforme o amadurecimento do cultivo celular e um aumento expressivo de colágeno tipo II na fase proliferativa, seguida de discreta queda durante a fase da matriz celular. Os condrócitos dos tecidos cartilaginosos do côndilo mandibular e do joelho de suínos demonstraram diferentes mecanismos de resposta às forças mecânicas e de metabolismo celular. / Functionally, the mandibular condylar cartilage is similar to the ankle articular cartilage, both provides lubrication to resist friction and offers protection against external mechanical loading. However, the effect of tension loadings on these two articular cartilages remains unclear. The purpose of this study was to evaluate in vitro, the metabolism of the chondrocytes isolated from the cartilage tissues of porcine mandibular condyle and ankle, in response to the tension mechanical forces, related to the syntheses of DNA and proteoglycan (PTG). It was also verified the expression of mRNA type II collagen and aggrecan on the condrocytes of these two joints on culture time-dependent, using a quantitative real-time PCR analysis. The chondrocytes were submitted to tensile mechanical strains of 2 kPa (3% elongation), 5 kPa (7% elongation) and 10 kPa (12% elongation), with a frequency of 30 cycles/min for 12 and 24 hours. The results showed that the condrocytes from mandibular condyle, when submitted to tension forces of 2 kPa and 5 kPa, demonstrated a statistically significant enhancement of DNA and PTG, in 12 h. (p < 0.01) and in 24 h. (p < 0.05). Except the increase of DNA synthesis of the group submitted to the force of 5 kPa during 24 h. that was not statistically significant (p > 0.05). The force of 10 kPa caused a statistically significant decrease of DNA and PTG syntheses on the condrocytes of mandibular condyle, in both periods of mechanical stimulation (p < 0.01). On the other side, the condrocytes of ankle showed an increase of DNA and PTG syntheses when subjected to all the magnitudes of tension forces. The force of 5 kPa stimulated statistically significant the syntheses of DNA and PTG, in 12 h. and 24 h. (p < 0.01). In 10 kPa, it was observed a statistically significant increment of DNA in 12 h. (p < 0.01) and in 24 h. (p < 0.05) and PTG synthesis in 24 h. (p < 0.01). The condrocytes of ankle showed a statistically significant higher (p < 0.05) expression of collagen type II and aggrecan than the condrocytes of mandibular condyle. The type II collagen and aggrecan mRNA in mandibular condyle were highly expressed in proliferating chondrocytes and decreased progressively in matrix-forming chondrocytes. Conversely, the condrocytes from ankle showed an increase of aggrecan expression on mRNAs with the cell culture maturation, and an increase of type II collagen during the proliferating phase, followed by a slight decrease of this protein during the matrix-forming phase. The chondrocytes from the cartilage tissues of mandibular condyle and ankle showed different mechanisms of response to the mechanical loadings and distinct chondrocytes metabolism.
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Associação entre polimorfismos na região VNTR do gene aggrecan e a hérnia de disco lombar / Association between aggrecan gene VNTR polymorphism and lumbar disc herniationCasa, Nara Lígia Leão 02 December 2015 (has links)
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Previous issue date: 2015-12-02 / Introduction: Lumbar disc herniation (LDH) is the most common diagnosis among the degenerative changes in the lumbar spine and it can lead to functional limitations. Although several studies have shown a positive association between polymorphisms in the aggrecan gene and LDH, results are conflicting and vary across populations. Until now, such studies have not been carried out in Brazil. An understanding of this association can help in the prevention and intervention processes in patients with LDH. Objective: Investigate the association between polymorphisms in the aggrecan gene and LDH. Methods: This is a Case-Control study, paired by gender and age. A total of 119 male and female individuals from Goiania (Brazil) participated in the study; 39 individuals in the Case Group (CaG) and 80 in the Control Group (CtG). For each individual, sociodemographic and clinical data were collected as well as blood samples for genetic analysis. DNA was isolated and genotyped at the variable number of tandem repeats (VNTR) region of the aggrecan gene using polymerase chain reaction. Results: Both groups were homogeneous for socio-demographic, anthropometric, and life style variables. The sum of allele sizes at the VNTR region of the aggrecan gene were significantly lower in individuals with LDH, with allele A22 showing significantly higher frequency in this group. Comparison of allele size distribution indicated that shorter alleles (i.e., A13-A25) were more frequent in individuals with LDH, whereas alleles with a higher number of repeats were more frequent among healthy individuals. It should be noted, however, that differences were not significant. The most frequent alleles in both groups were A28, A27 and A29, respectively. Genotype A26/A26 was the most common among individuals in the CaG. Conclusions: An association between short alleles and LDH was observed in this study. This finding is in agreement with other reports in the literature, corroborating the hypothesis that individuals with shorter alleles have an aggrecan gene with fewer repeats. Therefore, a smaller number of chondroitin sulfate chains bind to the aggrecan in the intervertebral disc, leading to a decrease in its physiological function of hydration of the intervertebral disc, and thus to an increase in LDH susceptibility. / Introdução: A hérnia de disco lombar (HDL) é um diagnóstico frequente dentre as alterações degenerativas da coluna lombar e causa limitações funcionais importantes. Alguns estudos apontam para uma associação positiva entre polimorfismos no gene aggrecan e a HDL, porém os resultados ainda são conflitantes e variam entre as populações, não havendo pesquisas sobre o tema na população brasileira até o momento. Compreender essa associação pode auxiliar na prevenção e intervenção junto às pessoas com HDL. Objetivo: Investigar a associação entre polimorfismos no gene aggrecan com a hérnia de disco lombar. Métodos: Estudo caso-controle, pareado em quinquênio por idade e sexo. Participaram do estudo 119 pessoas de ambos os sexos, domiciliadas em Goiânia (Brasil), sendo 39 no Grupo Caso (Ca) e 80 no Controle (Ct). Foram coletados dados sociodemográficos e clínicos e amostras de sangue periférico; o DNA foi isolado para posterior genotipagem do número variável de repetições em Tandem (VNTR) do gene aggrecan (ACAN) através de PCR convencional. Resultados: Os grupos mostraram-se homogêneos quanto às variáveis sociodemográficas, antropométricas e hábitos de vida. O escore alélico do VNTR do gene aggrecan foi significativamente menor nos voluntários com HDL; o alelo A22 mostrou-se significativamente mais prevalente nesse mesmo grupo; no grupo Ca houve maior frequência dos alelos pequenos A13 - A25, enquanto no Ct maior frequência dos alelos grandes, porém, sem diferença estatisticamente significativa; em ambos os grupos os alelos mais frequentes foram A28, A27 e A29, respectivamente; o genótipo A26/A26 foi significativamente mais comum no Grupo Ca. Conclusões: Houve associação entre alelos pequenos com a HDL nos adultos pesquisados e compatibilidade com a literatura internacional, corroborando a hipótese de que indivíduos que possuem alelos pequenos possuem um aggrecan com menor número de repetições. Portanto, um número menor de cadeias de sulfato de condroitina se ligam no aggrecan do disco intervertebral, o que resulta na diminuição da sua função fisiológica de hidratação do disco e, consequentemente, aumenta a susceptibilidade individual à HDL.
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Análise da estrutura e padrão de expressão de lubricina, SMAD2 fosforilada na cadeia de ligação e colágeno tipo I na cartilagem articular da mandíbula durante o envelhecimento / Analysis of the structure and expression of lubricin, SMAD2 phosphorylated at linker regions and type I collagen in mandibular condylar cartilage in agingWillian Grassi Bautz 30 January 2018 (has links)
A cartilagem articular da cabeça da mandíbula (CAM) é constituída por uma cartilagem secundária recoberta por tecido conjuntivo fibroso e, portanto, definida como fibrocartilagínea. Ela é constantemente submetida a forças de compressão e cisalhamento decorrentes da mastigação necessitando de lubrificação e capacidade de reparo. O envelhecimento é considerado um dos principais fatores para o aparecimento de alterações degenerativas nas articulações sinoviais. A lubricina é reconhecidamente um proteoglicano encontrado nas cartilagens articulares cuja função primordial é a lubrificação limítrofe. A via SMAD2, tem sido associada à capacidade de manutenção e reparo da cartilagem, e a sua fosforilação na cadeia de ligação (p-SMAD2L) foi relacionada ao aumento no tempo de fosforilação na cadeia C-terminal (p-SMAD2) e da transcrição gênica. Objetivo: Estudar as alterações morfológicas da CAM e as expressões da lubricina, p-SMAD2L e do colágeno tipo I no envelhecimento. Métodos: cortes coronais da CAM de ratos wistar com 2, 12 e 24 meses de vida foram corados pelas técnicas da hematoxilina e eosina, azul de toluidina e safranina-O. A imuno-histoquímica foi usada para detectar a localização da lubricina, p-SMAD2L e colágeno tipo I. Resultados: Notou-se modificações estruturais atribuídas ao processo natural do envelhecimento da CAM. Ainda, se verificou um aumento do colágeno tipo I nas camadas mais profundas e cartilaginificação da matriz extracelular (MEC) nas camadas superficiais. No grupo idoso, houve redução na concentração de proteoglicanos, na expressão da lubricina e na densidade e porcentagem de células p-SMAD2L. Conclusões: a CAM sofre modificações com o envelhecimento, inclusive degenerativas, e diminui sua capacidade de lubrificação e reparo em virtude da menor expressão da lubricina e p-SMAD2L. Sugere-se que a p-SMAD2L está envolvida na produção e acúmulo da lubricina na CAM / The mandibular condylar cartilage (MCC) consists of a secondary cartilage covered by fibrous connective tissue and, therefore, defined as fibrocartilage. It is constantly subjected to compression and shear forces resulting from chewing requiring lubrication and repair capability. Aging is considered one of the main factors for the appearance of degenerative changes in synovial joints. Lubricin is a proteoglycan found in articular cartilages whose primary function is boundary lubrication. SMAD2 signaling pathway has been associated with cartilage maintenance and repair, and its phosphorylation in the linker region (p-SMAD2L) was related to the increase in half-life of C-terminal phospho-SMAD2 (p-SMAD2) and gene transcription. Objective: To study the morphological alterations of MCC and the expressions of the lubricin, p-SMAD2L and type I collagen in aging. Methods: Coronal sections of the MCC from wistar rats with 2, 12 and 24 months old were stained with hematoxylin and eosin, toluidine blue and safranin-O. Immunohistochemistry were used for detection of lubricin, p-SMAD2L and type I collagen. Also, the total cell density, p-SMAD2L cells density and percentage were determined. Results: Structural modifications of the MCC related with natural aging process were observed. An increase in the expression of type I collagen in the deeper layers and \"cartilaginification\" of the extracellular matrix (ECM) in the superficial layers were detected. In the old group, it was observed a reduction in proteoglycan content, in the expression of the lubricin and in the density and percentage of positive cells for the p-SMAD2L. Conclusion: MCC undergoes structural and degenerative modifications with aging and decreases its lubrication and repair capacity due to the lower expression of the lubricin and p-SMAD2L. This study suggests that p-SMAD2L is involved in the production and accumulation of the lubricin in MCC
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Rôle des protéoglycanes à héparane sulfate dans le transfert de gène des cellules CHO et HEK293Delafosse, Laurence 05 1900 (has links)
La possibilité de programmer une cellule dans le but de produire une protéine d’intérêt est apparue au début des années 1970 avec l’essor du génie génétique. Environ dix années plus tard, l’insuline issue de la plateforme de production microbienne Escherichia coli, fut la première protéine recombinante (r-protéine) humaine commercialisée. Les défis associés à la production de r-protéines plus complexes et glycosylées ont amené l’industrie biopharmaceutique à développer des systèmes d’expression en cellules de mammifères. Ces derniers permettent d’obtenir des protéines humaines correctement repliées et de ce fait, biologiquement actives. Afin de transférer le gène d’intérêt dans les cellules de mammifères, le polyéthylènimine (PEI) est certainement un des vecteurs synthétiques le plus utilisé en raison de son efficacité, mais aussi sa simplicité d’élaboration, son faible coût et sa stabilité en solution qui facilite son utilisation. Il est donc largement employé dans le contexte de la production de r-protéines à grande échelle et fait l’objet d’intenses recherches dans le domaine de la thérapie génique non virale. Le PEI est capable de condenser efficacement l’ADN plasmidique (vecteur d’expression contenant le gène d’intérêt) pour former des complexes de petites tailles appelés polyplexes. Ces derniers doivent contourner plusieurs étapes limitantes afin de délivrer le gène d’intérêt au noyau de la cellule hôte. Dans les conditions optimales du transfert de gène par le PEI, les polyplexes arborent une charge positive nette interagissant de manière électrostatique avec les protéoglycanes à héparane sulfate (HSPG) qui décorent la surface cellulaire. On observe deux familles d’HSPG exprimés en abondance à la surface des cellules de mammifères : les syndécanes (4 membres, SDC1-4) et les glypicanes (6 membres, GPC1-6). Si l’implication des HSPG dans l’attachement cellulaire des polyplexes est aujourd’hui largement acceptée, leur rôle individuel vis-à-vis de cet attachement et des étapes subséquentes du transfert de gène reste à confirmer.
Après avoir optimisées les conditions de transfection des cellules de mammifères CHO et HEK293 dans le but de produire des r-protéines secrétées, nous avons entrepris des cinétiques de capture, d’internalisation des polyplexes et aussi d’expression du transgène afin de mieux comprendre le processus de transfert de gène. Nous avons pu observer des différences au niveau de ces paramètres de transfection dépendamment du système d’expression et des caractéristiques structurelles du PEI utilisé. Ces résultats présentés sous forme d’articles scientifiques constituent une base solide de l’enchaînement dans le temps des évènements essentiels à une transfection efficace des cellules CHO et HEK293 par le PEI.
Chaque type cellulaire possède un profil d’expression des HSPG qui lui est propre, ces derniers étant plus ou moins permissifs au transfert de gène. En effet, une étude menée dans notre laboratoire montre que les SDC1 et SDC2 ont des rôles opposés vis-à-vis du transfert de gène. Alors que tous deux sont capables de lier les polyplexes, l’expression de SDC1 permet leur internalisation contrairement à l’expression de SDC2 qui l’inhibe. De plus, lorsque le SDC1 est exprimé à la surface des cellules HEK293, l’efficacité de transfection est augmentée de douze pourcents. En utilisant la capacité de SDC1 à induire l’internalisation des polyplexes, nous avons étudié le trafic intracellulaire des complexes SDC1 / polyplexes dans les cellules HEK293. De plus, nos observations suggèrent une nouvelle voie par laquelle les polyplexes pourraient atteindre efficacement le noyau cellulaire.
Dans le contexte du transfert de gène, les HSPG sont essentiellement étudiés dans leur globalité. S’il est vrai que le rôle des syndécanes dans ce contexte est le sujet de quelques études, celui des glypicanes est inexploré. Grâce à une série de traitements chimiques et enzymatiques visant une approche « perte de fonction », l’importance de la sulfatation comme modification post-traductionnelle, l’effet des chaînes d’héparanes sulfates mais aussi des glypicanes sur l’attachement, l’internalisation des polyplexes, et l’expression du transgène ont été étudiés dans les cellules CHO et HEK293.
L’ensemble de nos observations indique clairement que le rôle des HSPG dans le transfert de gène devrait être investigué individuellement plutôt que collectivement. En effet, le rôle spécifique de chaque membre des HSPG sur la capture des polyplexes et leur permissivité à l’expression génique demeure encore inconnu. En exprimant de manière transitoire chaque membre des syndécanes et glypicanes à la surface des cellules CHO, nous avons déterminé leur effet inhibiteur ou activateur sur la capture des polyplexes sans pouvoir conclure quant à l’effet de cette surexpression sur l’efficacité de transfection. Par contre, lorsqu’ils sont présents dans le milieu de culture, le domaine extracellulaire des HSPG réduit l’efficacité de transfection des cellules CHO sans induire la dissociation des polyplexes. Curieusement, lorsque chaque HSPG est exprimé de manière stable dans les cellules CHO, seulement une légère modulation de l’expression du transgène a pu être observée.
Ces travaux ont contribué à la compréhension des mécanismes d'action du vecteur polycationique polyéthylènimine et à préciser le rôle des protéoglycanes à héparane sulfate dans le transfert de gène des cellules CHO et HEK293. / With the aim to express a protein of interest, the transfer of exogenous genetic material into host cells was established in early 70s with the development of genetic engineering. Approximately ten years later, insulin was the first human recombinant protein (r-protein) produced at large scale in Escherichia coli and commercialized. Challenges associated with the production of more complex and glycosylated r-proteins brought the pharmaceutical industry to develop mammalian expression platforms. Thus, the expressed r-proteins are correctly folded and biologically actives. As a means to transfer genetic materials of interest into mammalian cells, the synthetic vector polyethylenimine (PEI) is probably the most popular due to its efficacy, ease of use, cost-effectiveness and stability in solution. Consequently, PEI is largely employed for the production of r-proteins by large scale and extensively studied in the context of non-viral gene therapy. PEI is capable to efficiently condense plasmid DNA (expression vector containing the gene of interest) to form small nanoparticles termed polyplexes. The latter must circumvent several steps to deliver the gene of interest to the cell nucleus. When formed at the optimum conditions, polyplexes exhibit a net positive charge which can interact electrostatically with negatively charged heparan sulfate proteoglycans (HSPG) located at the cell surface. There are two major families of HSPG that are largely expressed at the surface of mammalian cells: the syndecans (4 members, SDC1-4) and the glypicans (6 members, GPC1-6). Although it is generally accepted that HSPG are involved in the binding of polyplexes, their individual role toward polyplex binding and the subsequent phases of gene transfer need to be confirmed.
Following optimization of the mammalian CHO and HEK293 cells transfection conditions, we undertook an in-depth study of polyplexes uptake, internalization kinetics, as well as transgene expression kinetics with the aim to better understand the mechanisms underlying gene transfer. We observed several contrasting differences between the two cell lines and the type of PEI used. Our results presented as a scientific article, establish strong basis of the gene transfer process over-time.
Every cell type possesses its own expression profile of HSPG which can display individual potency toward gene transfer. Indeed, a preliminary study conducted in our laboratory showed that SDC1 and SDC2 have distinct features with regard to gene transfer. While both are capable to bind polyplexes at the cell surface, the expression of SDC1 enhances polyplexes internalization whereas the expression of SDC2 drastically inhibits it. Furthermore, when SDC1 is expressed at the surface of HEK293 cells, the transfection efficiency is increased by twelve percent compared to control cells. By using the ability of SDC1 to mediate efficient internalization of polyplexes, we have studied the intracellular traffic of SDC1 / polyplexes complexes. Our conclusions lead to new insights concerning the path by which polyplexes can mediate efficient transfection.
In the context of gene transfer, HSPG have been essentially studied in their entirety. Although the role of syndecans is the subject of some studies, that of glypicans is unexplored. Thanks to a series of chemical and enzymatic treatments leading to « loss of functions », the importance of sulfation as post-translational modification, the effect of HS chains and of glypicans on the attachment, internalization of polyplexes as well as transgene expression were investigated in CHO and HEK293 cells.
Taken together, our observations indicate clearly that the role of HSPG should be investigated individually instead of collectively. Consequently, the individual potency of each HSPG member regarding gene transfer remains to be defined. We demonstrated that, in fact, the transient expression of some HSPG in CHO cells have a beneficial effect on polyplexes uptake while others have a negative effect. Unfortunately, this method did not allow concluding about their effect on transfection efficacy. However, when present in the culture medium, the extracellular domain of HSPG decreases transfection efficacy of CHO cells without inducing polyplexes dissociation. Strangely, when each HSPG is stably expressed in CHO cells, only subtle modulations of the gene expression level were observed.
This study contributed to a better understanding of the mechanisms underlying PEI mediated gene transfer in CHO and HEK293 cells and clarify the role of HSPG in gene transfer.
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Évaluation par IRM 3T, par échographie et par microscopie du cartilage épiphysaire de poulains de 0-6 mois d’âge : mieux comprendre et diagnostiquer l’ostéochondroseMartel, Gabrielle 05 1900 (has links)
No description available.
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Mechanical Strain-Mediated Syndecan Regulation and Its Effects on Adhesion of Vascular Smooth Muscle CellsJulien, Mathéau A. 19 January 2005 (has links)
An injured vascular system has a substantial impact on an individuals overall health, and an understanding of the mechanisms that underlie blood vessel pathophysiology is required for the development of rational and effective treatment strategies. The phenotypic modulation of smooth muscle cells (SMC) during vascular injury, characterized by altered adhesion, migration and synthetic behavior, plays an important role in the eventual outcome. Specifically, the ability of SMCs to adhere to and remodel their extracellular environment via regulation of the syndecan class of cell adhesion molecules dictates the response of the vascular wall to local injury. The effect of in vitro syndecan-4 regulation on SMC adhesion was investigated through the use of a glass microsphere centrifugation assay, and an antisense-mediated reduction in gene expression was found to correlate with decreased adhesive strength. Regulation of syndecan-1, syndecan-2, and syndecan-4 gene expression was observed experimentally by mechanical strain of SMCs. Using real-time polymerase chain reaction (PCR), the kinetics of both static and cyclic mechanical strain were found to modify the gene expression in a time and strain magnitude-dependent manner unique to each syndecan. In particular, the responses of syndecan-4 were acute, but transient, while the evolution of syndecan-1 and syndecan-2 regulation was delayed by comparison. Mechanical strain also modulated syndecan-4 protein expression and ectodomain shedding, as measured by Western immunoblotting, and this effect was found, through selective inhibition, to be at least in part dependent on mitogen-activated protein (MAP) kinase signaling. In particular, intact extracellular signal-regulated MAP kinase (ERK) 1/2 and c-Jun NH2-terminal kinase / stress-activated protein kinase (JNK/SAPK) signaling pathways were found to be required for the observed strain-induced shedding. These findings offer a better understanding of syndecan function in response to mechanical strain and suggest potential new mechanisms by which physical forces may modulate vascular SMC behavior and regulation during normal physiology, pathologic conditions, and engineered arterial substitute development.
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Les réseaux d’interactions de l’endostatine, de l’angiogenèse à la maladie d’Alzheimer / The interaction networks of endostatin, from angiogenesis to Alzheimer's diseaseSalza, Romain 16 September 2015 (has links)
La matrice extracellulaire est composée d’environ 300 protéines et protéoglycanes qui constituent le matrisome et de 800 protéines associées (Naba et al., 2012a) et glycosaminoglycanes. C’est un protéome sous-exploré qui est modifié dans de nombreuses pathologies. Les fragments bioactifs issus de la matrice extracellulaire (matricryptines) sont capables de réguler des processus physiopathologiques et notamment l’angiogenèse et les pathologies cérébrales (Ricard-Blum and Salza, 2014). Environ 90 % des patients atteints de la maladie d’Alzheimer (MA) ont une angiopathie amyloïde cérébrale. L’angiogenèse contribue au déroulement de la MA. Nous nous sommes intéressés à l’endostatine (ES), une matricryptine du collagène XVIII qui possède des activités anti-angiogéniques, anti-tumorales et est également présente dans les plaques amyloïdes chez les patients atteints de la MA. Elle est libérée par les neurones et est capable de former des fibrilles amyloïdes in vitro (Kranenburg et al., 2003). Elle pourrait donc avoir une implication dans la MA. Nous avons montré que l'ES est présente dans le liquide céphalorachidien et que le rapport de sa concentration à celle des marqueurs classiques de la MA permet d’améliorer le diagnostic des patients atteint de démence fronto-temporale (DFT) et de discriminer les patients atteints de MA de ceux atteint de DFT et de pathologie nonMA/nonDFT. Nous avons établi les répertoires d’interactions extracellulaire du peptide -amyloïde (1-42) sous formes monomérique, oligomérique, fibrillaire ou agrégée et montré que l’oligomérisation et la fibrillogenèse augmentent la capacité d’interaction du peptide -amyloïde. Nous avons établi le réseau d’interaction global de l’endostatine par résonance plasmonique de surface en mode imagerie et identifiés 21 nouveaux partenaires de cette matricryptine. Nous avons plus particulièrement caractérisé son interaction avec la Procollagen C-Proteinase Enhancer-1, une protéine dont nous avons montré qu’elle donne naissance à une matricryptine anti-angiogénique. Nous avons enfin construit les réseaux d’interactions extracellulaires spécifiques de l’angiogenèse et de la maladie d’Alzheimer et des processus amyloïdes pour identifier les protéines connectant ces deux processus qui sont des cibles thérapeutiques potentielles. Ces réseaux d’interactions ont été créés à l’aide de 239 interactions que nous avons identifiées expérimentalement et des interactions décrites dans la littérature. Ces données seront à terme disponibles dans la base de données spécifique des interactions extracellulaires créée au laboratoire, MatrixDB, dans la nouvelle version à laquelle nous avons contribué. / The extracellular matrix include approximately 300 proteins and proteoglycans which constitute the matrisome and 800 associated proteins (Naba et al., 2012a) and glycosaminoglycans. It is an under-explored proteome which is modified in many diseases. Extracellular matrix bioactives fragments (matricryptins) are able to regulate physiopathological process like angiogenesis and cerebral disorders (Ricard-Blum and Salza, 2014). About 90 % of patients with Alzheimer's disease (AD) have cerebral amyloid angiopathy. Angiogenesis contributes to the development of AD. We are studying endostatin (ES), a matricryptin of collagen XVIII which has anti-angiogenic and anti-tumoral activities and is also present in amyloid plaques in AD patients. ES is released by neurons and is able to form amyloid fibrils in vitro (Kranenburg et al., 2003). This anti-angiogenic matricryptin could therefore be involved in AD. We have shown that ES is present in the cerebrospinal fluid of AD patients and the ratio of its concentrations to conventional markers of AD improves the diagnosis of patients with frontotemporal dementia (FTD) and discriminate AD patients from those suffering from FTD and pathology noAD/noDFT. We have established the extracellular interactions repertoires of the -amyloid peptide (1-42) in monomeric, oligomeric, fibrillar or aggregated forms and showed that the oligomerization and fibrillogenesis increase the interaction capacity of the -amyloid peptide. We have established the global interaction network of endostatin by surface plasmon resonance imaging and identified 21 new partners of this matricryptin. Specifically, we characterized its interaction with the Procollagen C-Proteinase Enhancer-1, a protein which gives rise to an anti-angiogenic matricryptin. We finally built networks of specific extracellular interactions of angiogenesis and of Alzheimer's disease and amyloid process to identify proteins connecting these two processes that are potential therapeutic targets. These interaction networks have been built using 239 interactions including those we have identified experimentally and those described in the literature. This data will be available in the database specific of extracellular interactions created in the laboratory, MatrixDB, in the new version of which we contributed.
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The Development and Regeneration of the Serotonergic SystemHawthorne, Alicia Lynn 06 July 2010 (has links)
No description available.
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Structural studies of Norrin dependent Wnt/beta-catenin signalingChang, Tao-Hsin January 2014 (has links)
Norrin is a secreted cystine-knot growth factor that plays critical roles in vascular development in the brain, retina, and cochlea, as well as the uterus. Although Norrin is unrelated to the lipid-modified morphogens Wnts, Norrin activates the canonical Wnt/β-catenin pathway by binding to receptor Frizzled4 cysteine-rich domain (Fz4-CRD) and co-receptors of low density lipoprotein receptor related protein 5/6 ectodomain (Lrp5/6-ECD) in conjunction with Tetraspanin-12 (Tspan-12). Like Wnts, Norrin has limited extracellular diffusion properties as a result of associating with heparan sulfate proteoglycans (HSPGs). Mutations lead to inherited disordered retinal vascularization diseases such as Norrie disease, familial exudative vitreoretinopathy and coats' disease. However, the molecular mechanism of how Norrin initiates signalling by engagement with Fz4, Lrp5/6, and HSPGs has remained unresolved. Here, novel strategies for protein production of recombinant human Norrin and Fz4-CRD as well as the complex are developed. The crystal structures of Norrin and its complex with Fz4-CRD, plus complex bound with the heparin mimic sucrose octasulphate, and unliganded structures of Fz4-CRD are presented. These structural data together with biophysical and cellular assays not only reveal the Fz4 and Lrp5/6 binding sites on distinct patches of the Norrin surface, but also indicate the HSPGs binding site on Norrin and Fz4-CRD as well as providing a framework to explain numerous disease-related mutations. Structural comparison with Xenopus Wnt8 in complex with mouse Fz8-CRD provides molecular insights for our understanding of ligand-receptor binding specificity and promiscuity, which has important implications for developing therapeutic strategies against Norrin dependent retinal disorders, and cancers caused by abnormal Wnt signaling.
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