"Análise morfológica e bioquímica da sinóvia de coelhos imunizados com colágeno do tipo V" / Morphological and biochemical analysis of the synovia of rabbits immunized with type V collagen

Luciana Tsuzuki Ichicawa Ogido

24 June 2005

Descrevemos modelo original de sinovite experimental em coelhos imunizados com colágeno V com escasso processo inflamatório, intenso remodelamento matricial e vasculite. Analise morfológica e bioquímica foi realizada em coelhas Nova Zelândia (N=20) imunizadas com colágeno do tipo V, comparadas com controles. Foi observado o aumento dos colágenos I, III e V, oclusão do lúmen vascular e escasso processo inflamatório. A análise bioquímica confirmou a fibrose com aumento da síntese de colágeno. Nós postulamos que as alterações sinoviais descritas neste modelo foram conseqüência das particularidades do colágeno V, que promove manifestações imunológicas e clínicas semelhantes à esclerodermia / We described an original model of experimental synovitis in rabbits immunized with collagen V with scant cellular infiltration, intense matrix remodeling and vasculitis. Morphological and biochemical analysis were realized in New Zealand female rabbits (N=20) immunization with type V collagen, compared with control rabbits. It was observed increase of collagen I, III and V, vascular lumen occlusion and scant inflammatory process. Biochemical analysis confirmed the fibrosis with increased synthesis of collagen. We postulate that synovial changes described in this model are consequence of collagen V particularities, which promotes immunologic and clinical manifestations similar to scleroderma

COELHOS

COLÁGENOS FIBRILARES/análise

MODELOS ANIMAIS DE DOENÇAS

SINOVITE/induzido quimicamente

DISEASE MODELS ANIMAL

FIBRILLAR COLLAGENS/analysis

RABBITS

SYNOVITIS/chemically induced

Análise molecular e funcional dos genes formadores e reguladores do colágeno tipo I em pacientes com osteogênese imperfeita = Molecular and functional analysis of regulatory and structure-related genes of type I collagen in patients with osteogenesis imperfecta / Molecular and functional analysis of regulatory and structure-related genes of type I collagen in patients with osteogenesis imperfecta

Pedroni, Marcus Vinícius Costa, 1985-

21 August 2018

Orientadores: Lília Freire Rodrigues de Souza Li, Carlos Eduardo Steiner / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências / Made available in DSpace on 2018-08-21T05:55:45Z (GMT). No. of bitstreams: 1 Pedroni_MarcusViniciusCosta_M.pdf: 5336681 bytes, checksum: 022385349dc7fcf62951d9f8c466360f (MD5) Previous issue date: 2012 / Resumo: A Osteogênese Imperfeita (OI) é um distúrbio genético caracterizado por baixa massa e fragilidade óssea, e outras manifestações do tecido conjuntivo, decorrente de defeitos qualitativos ou quantitativos do colágeno tipo I. Está associada a mutações nos genes COL1A1 e COL1A2 que codificam respectivamente as cadeias pro'alfa'1-(I) e pro'alfa'-2(I) formadoras da molécula do colágeno tipo I, e mais raramente mutações nos genes reguladores. A OI manifesta-se através de diferentes fenótipos (I-IV), segundo a classificação de Sillence et al. O objetivo deste trabalho foi a análise molecular dos genes COL1A1 e COL1A2 em famílias brasileiras portadoras de OI, em suas diferentes formas clínicas. Fizemos biópsia da pele de 12 famílias com OI para cultura primária dos fibroblastos. Desta cultura extraímos RNA total, que foi usado como molde para transcrição reversa e reação em cadeia de polimerase (PCR) dos genes e sequenciamento automático direto de cDNA. A expressão gênica foi determinada por Real Time PCR e o padrão e grau de expressão das proteínas do colágeno foram analisados por Imunocitoquímica e Western blot. Identificamos nove mutações missense em heterozigose em nove famílias, e duas mutações com alteração na matriz de leitura em famílias com fenótipos dos tipos I, III ou IV de OI. No gene COL1A1 encontramos quatro mutações já descritas: c.613G>A (p.P205A); c.769G> A (p.G257R); c.859G>A (p.G287S); c.1678G>A (p.G560R). No gene COL1A2 encontramos uma mutação já descrita: c.2314G> A (p.G772S) e quatro novas mutações: c.214G>A (p.G72S); c.775G>A (p.G259S); c.793G> C (p.G265R) e c.3467G>A (p.R1156K). Encontramos hiperexpressão dos transcritos de COL1A1 e COL1A2, porém expressão normal das cadeias 'alfa'1 e 'alfa'2 da proteína do colágeno em todos os pacientes. As cadeias mutada apresentaram padrão desorganizado nas células. Pacientes com OI apresentaram hiperexpressão dos genes de colágeno tipo I sugerindo que estes genes são regulados e que as meia vidas destas proteínas estão reduzidas / Abstract: Osteogenesis Imperfecta (OI) is a genetic disorder characterized by low bone mass and bone fragility, and other manifestations of connective tissue, due to qualitative or quantitative defects of type I collagen. It is associated with mutations in COL1A1 and COL1A2 genes, that encode respectively the pro'alpha'-1(I) and pro'alpha'-2(I) chains, forming the molecule of type I collagen, and more rarely mutations in regulatory genes. The OI is manifested by various phenotypes (I-IV), according to the classification of Sillence et al. The objective of this study was the molecular analysis of COL1A1 and COL1A2 genes in Brazilian families with OI, in its different clinical forms. We performed skin biopsy from 12 families with OI for primary culture of fibroblasts. From this culture, we made total RNA extract, which was used as template for reverse transcription and polymerase chain reaction (PCR), and automated sequencing directly from cDNA. Gene expression was determined by Real Time qPCR and the level of expression of collagen proteins were analyzed by immunocytochemistry and Western Blot. We identified heterozygous mutations in 11 families that have phenotypes of types I, III or IV of OI. In the COL1A1 gene found four previously described mutations: c.613G> A (p.P205A), c.769G> A (p.G257R), c.859G> A (p.G287S), c.1678G> A (p. G560R). In the COL1A2 gene we found one previously described mutation: c.2314G> A (p.G772S) and four new mutations: c.214G> A (p.G72S), c.775G> A (p.G259S), c.793G> C (p.G265R) and c.3467G> A (p.R1156K). We found upregulation of the transcripts of COL1A1 and COL1A2 genes, but a normal expression of 'alpha'1 and 'alpha'2 protein chains in all patients. The mutant chain showed disorganized on the immunocytochemestry. Patients with OI showed upregulation of type I collagen genes, suggesting regulation and decreasing half lives of the proteins / Mestrado / Saude da Criança e do Adolescente / Mestre em Ciências

Colagenose

Dentinogênese imperfeita

Mutação

Colágenos fibrilares

Osso e ossos

Collagen diseases

Dentinogenesis imperfecta

Mutation

Fibrillar collagens

Bone and bones

Effect of microfibrillar cellulose on concrete equivalent mortar  fresh and hardened properties / Inverkan av mikrofibrillär cellulosa på egenskaperna hos betongekvivelent bruk i dess färska och hårdnade tillstånd

Nilsson, Jonas, Sargenius, Peter

January 2011

A pilot project in 2010, conducted at CBI, showed the capacity for pulp, micro fibrilars from the forest industry to act as Viscosity Modifying Agent (VMA) in concrete. This project was, however, too limited to find answers for optimal use of this kind of material. The forest industry company Stora Enso wants to find out if their pulp can be used in concrete in order to somehow improve its properties. Two micro fibrilar suspensions have been tested. The tested fibrils are in two sizes, the finer material named MFC1 has undergone more homogenization than the course material named MFC2. The fibrils have been evaluated in regard to how the fibrils react with mortars in both its fresh and hardened state. Tests have been conducted on the use of concrete equivalent mortars with a maximum aggregates size of 4 mm. Two water-cement-ratios have been used in the tests, 0.45 and 0.60. Three different fibril dosages have been tested, 1, 2 and 3 kg/m³. The results of these trials of cellulose fibrils has been evaluated in respect of rheology, compressive strength, flexural strength, cracking, shrinkage, water capillary porosity, anti-wash out resistance (underwater concrete) and as a possible surface coverage. The results from the trials, conducted in this report, show that an increased dosage of fibrils leads to an increased plastic viscosity. The fibrils appear to have no effect on the flexural- and compressive strength, and no effect on the shrinkage of the test specimens. According to our results it is not advisable to use the fibrils for the purpose of acting as an agent for anti-washout resistance, or as a surface coverage.   The work have been performed at Swedish Cement and Concrete Research Institute, CBI, in Stockholm in the spring of 2011. CBI is an institution whose mission is to create, apply and disseminate knowledge in the concrete and rock area. / Ett tidigare pilotprojekt har under 2010 utförts på CBI, och där undersöktes möjligheten för cellulosafibrer från skogsindustrin att fungera som Viscosity Modifying Agent (VMA) i betong. Utrymmet i detta projekt var dock för begränsat för att finna svar för optimal användning av denna typ av material. Nu vill skogsindustriföretaget Stora Enso ta reda på om massa från deras träprodukter kan användas i betong, för att på något sätt förbättra dess egenskaper. Vi har därför provat suspensioner innehållande två olika fraktioner av cellulosafibriller. De testade fibrerna finns i två storlekar, det finare materialet heter MFC1 och har genomgått med homogenisering än det grövre materialer som heter MFC2. Dessa två typer har tillsats i bruk och utvärderats i hur de reagerar i både brukets färska och dess hårdnade tillstånd. Testerna har genomförts på bruk med en maximal ballaststorlek på 4 mm. Två vct-nivåer har använts i försöken, 0,45 och 0,60. Tre olika fibrilldoser har prövats, nämligen 1, 2 och 3 kg/m³ fibriller. Resultaten från dessa försök av cellulosafibriller har utvärderats med avseende på reologi, tryckhållfasthet, böjhållfasthet, sprickbildning, kapillaritet, krympning, anti-urvaskning och som möjlig ytbetäckning.   De tester som har genomförts visar att med ökad dos fibriller ökar den plastiska viskositeten. Fibrillerna visade sig inte ha någon effekt på böj- eller tryckhållfasheten, samt ingen effekt på krympning av provkropparna. Testerna visar att fibrillerna inte heller agerar med någon possitiv effekt som anti-urvaskningsmedel, eller som ett täckande ytskikt.   Försöken har genomförts vid CBI Betonginstitutet i Stockholm mellan 21 mars och 8 juli år 2011.CBI är en institution vars uppdrag är att skapa, tillämpa och sprida kunskap inom betong och bergområdet.

Civil Engineering

Samhällsbyggnadsteknik

Développement de nouveaux alliages thermoplastiques pour l'aéronautique / Development of new thermoplastic blends for aeronautical applications

Duval, Thomas

20 December 2012

L'objectif de cette thèse est de créer de nouveaux mélanges thermoplastiques présentant une processabilité accrue comparée à des matrices thermoplastiques hautes performances utilisées dans l'industrie aéronautique. Ces matériaux ont vocation à être intégrés en atmosphère avionique pressurisée. Afin de combler le cahier des charges imposé par le domaine aéronautique, le choix des matériaux s'est porté sur un mélange incompatible de polyétheréthercétone PEEK et de polymères à cristaux liquides LCP présentant une morphologie fibrillaire développée grâce à des conditions particulières d'écoulement lors de la mise en oeuvre.Dans un premier temps, les propriétés rhéologiques des matériaux sont caractérisées de manière à confirmer le respect des spécifications relatives à leur processabilité. La compréhension des phénomènes régissant la baisse de viscosité du mélange permet d'assurer la répétabilité et la reproductibilité des performances rhéologiques en vue d'un transfert industriel. L'étude se concentre ensuite sur les propriétés de cristallinité des mélanges, qui permettent de déterminer que la présence de deux matériaux semi-cristallins au sein d'une même structure ne perturbe pas leurs propriétés de cristallinité garantes de leurs performances thermomécaniques.Enfin, une campagne de caractérisation complète est effectuée afin de dresser une fiche matière et de la comparer aux spécifications exigées par l'industrie aéronautique. / The aim of this thesis is to create new thermoplastic blends exhibiting improved processability incomparison with high performance aeronautical thermoplastics. These materials are dedicated tointegrating pressurized avionic structures.To reach the specific aeronautical specifications, an incompatible polymer blend made ofpolyetheretherketone PEEK and liquid crystalline polymers LCP is chosen. The particular flow conditionsset for the compounding ensure the blend a fibrillar morphology.First, the material rheological properties are characterized so as to confirm that the processabilityspecifications are met. The viscosity drop causes are explained and grant the maintaining of therheological performances in any processing configuration.The study then focuses on the blend crystallinity properties in order to determine whether two interlinkedsemi-crystalline structures do not impede the thermomechanical performances.At last, a characterization campaign is led to compare the blend performances with the demandedaeronautical specifications.

Polymères à Cristaux Liquides

Morphologie Fibrillaire

Amélioration de processabilité

Application aéronautique

High Performance Polymer Blends

Liquid Crystalline Polymers

Fibrillar Morphology

Processability Improvement

Aeronautical Application

Distribuição diferencial e remodelamento dos elementos fibrilares da matriz extracelular no coração de ratos espontaneamente hipertensos / Differential distribution and remodelling of fibrillar elements of the extracellular matrix in the heart of spontaneously hypertensive rat

Galhardo, Milene Sanches

30 January 2013

A linhagem de ratos espontaneamente hipertensos (SHR) tem sido utilizada para como modelo animal para hipertensão humana, uma vez que estes animais desenvolvem pressóricos aumentados, hipertrofia ventricular esquerda, aumento de colágeno intersticial e disfunção diastólica. Embora o excesso de colágeno fibrilar tenha sido bem estudado neste modelo e esteja envolvido na insuficiência cardíaca observada, não há estudos quantitativos acurados (baseados na estereologia) para avaliar precisamente o volume tecidual ocupado pelo colágeno fibrilar e o remodelamento das fibrilas de colágeno segundo seu diâmetro uma vez que variações no diâmetro das fibrilas têm grande impacto funcional Mais ainda, nunca foi estudado neste modelo o remodelamento das fibras do sistema elástico (oxitalânicas, elaunínicas e elásticas propriamente ditas), que juntamente com o componente colagênico são responsáveis pelas características biomecânicas do tecido. Assim sendo, os corações de ratos Wistar (WIS), Wistar Kyoto (WKY) e SHR foram submetidos a análise hemodinâmicas e foram processados para microscopia de luz e eletrônica, segundo amostragem estereológica. Cortes corados com HE foram utilizados para avaliação do diâmetro dos cardiomiócitos e do volume absoluto do coração e do ventrículo esquerdo; cortes corados com Picrossirius-hematoxilina foram utilizados para a avaliação da fração de volume ocupada por colágeno no ventrículo esquerdo e volume absoluto de colágeno; cortes ultra-finos foram utilizados para avaliação do diâmetro das fibrilas de colágeno cortadas transversalmente e para avaliação da distribuição das fibras oxitalânicas, elaunínicas e elásticas. Os resultados mostram que a hipertrofia ventricular dos animais SHR deveu-se à hipertrofia dos cardiomiócitos associada à maior quantidade de colágeno fibrilar (3,8 x maior no SHR que no WIS). A análise ultraestrutural mostrou que as fibrilas de colágeno no endomísio variam, em nanômetros, de 31 a 53 nos animais WIS, de 36 a 67 nos WKY e de 31 a 85 nos SHR, com medianas respectivamente de 39,58, 48,38 e 54,39, sendo que do ponto de vista estatístico a distribuição dos diâmetros das fibrilas colágenas dos animais SRH é diferente das outras duas linhagens.A análise uttra-estrutural das fibras do sistema elástico mostrou que as fibras oxitalânicas, elaunínicas e elásticas apresentam uma distribuição diferencial nos diversos compartimentos da parede cardíaca dos animais, sendo que nas três linhagens há fibras elásticas propriamente ditas no endocárdio e epicárdio; no entanto, no perimísio as fibras elásticas e elaunínicas aparecem raramente nos ratos SRH e com maior freqüência nos WIS e WKY; no endomísio dos ratos SRH não foi possível observar a mesma riqueza de fibras elásticas e elaunínicas presentes nas outras linhagens, havendo assim um predomínio de fibras oxitalânicas no vi endomísio dos animais SHR. Os resultados mostram que, além das modificações quantitativas no conteúdo de colágeno no miocárdio do ventrículo esquerdo dos animais SHR, há também uma alteração qualitativa na população de fibrilas colagênicas que passa a ser constituída por fibrilas mais grossas. Mais ainda, os resultados mostram que, em relação às fibras do sistema elástico, a predominância de fibras oxitalânicas no endomísio dos animais SHR sugere que as forças de tensão maiores no coração destes animais modulem não somente o sistema colagênico mas também o sistema elástico no sentido de acumular fibras que suportam melhor as cargas, contribuindo para a perda da complacência da parede ventricular / The strain of spontaneously hypertensive rats (SHR) has been used as an animal model for human hypertension, since these animals develop increased blood pressure, left ventricular hypertrophy, increased interstitial collagen and diastolic dysfunction. Although excess fibrillar collagen has been well studied in this model and is involved in observed heart failure, there are no accurate quantitative studies (i.e., based on stereology) to precisely assess the volume of tissue occupied by fibrillar collagen neither the remodeling of collagen fibrils with respect to their diameters, and such studies are very important because variations in the diameter of the fibrils have a major functional impact. Moreover, the remodeling of elastic system fibers (oxytalan, elauninic and elastic proper), which together with the collagenous component are responsible for biomechanical features of the tissue, has never been studied in this model. Thus, the hearts of Wistar (WIS), Wistar Kyoto (WKY) and SHR rats went through hemodynamic analysis and were processed for light and electron microscopy, according to stereological sampling criteria. HE-stained sections were used to evaluate the diameter of the cardiomyocytes and the absolute volume of the heart while left ventricular sections stained by Picrosirius-hematoxylin were used to evaluate the volume fraction occupied by collagen in the left ventricle as well as its absolute volume of collagen; ultra-thin sections were used for evaluation of the diameter of transversally sectioned collagen fibrils and for evaluation of the distribution of oxytalan, elauninic and elastic proper fibers. The results show that the ventricular hypertrophy of SHR rats was due to cardiomyocyte hypertrophy associated with a higher amount of fibrillar collagen (3.8 times as high as in the WIS rats). The ultrastructural analysis showed that the collagen fibrils in the endomysium range in nanometers, from 31 to 53 in WIS animals, 36 to 67 in the WKY and 31 to 85 in SHR, with medians 39.58, 48.38 and 54.39, respectively. The distribution of diameters of collagen fibrils is statistically different in SRH animals when compared to the other two strains. The ultrastructural analysis of the fibers of the elastic system showed that oxytalan, elauninic and elastic fibers present a differential distribution across the various compartments of the heart wall of the animals. In the three strains there are elastic fibers proper in the endocardium and epicardium, while in the perimysium, the elastic fibers proper and the elauninic fibers rarely appear in SRH rats, being more frequent in WIS and WKY rats; the endomysium of SRH rats did not exhibit the same richness of elastic fibers proper and elauninic fibers present in other strains, occurring thus a predominance of oxytalan fibers in the endomysium of SHR rats. viii The results also show that, in addition to the quantitative changes in collagen content of left ventricular myocardium of SHR rats, there is a qualitative alteration in the population of collagen fibrils that is richer in thicker fibrils. Moreover, the results show that, with respect to the fibers of the elastic system, the predominance of the oxytalan fibers in the endomysium of SHR rats suggests that the higher tensile forces in the hearts of these animals modulate not only the collagenous system but also the elastic system, entailing accumulation of fibers suited to better support the loads, contributing to the loss of ventricular wall compliance

Colágeno fibrilar

Coração

Elastic fiber

Fibras elásticas

Fibrillar collagen

Heart

Hipertensão

Hypertension

Microscopia eletrônica de transmissão

Rato espontaneamente hipertenso

Spontaneously hypertensive rat

Transmission electron microscopy

Distribuição diferencial e remodelamento dos elementos fibrilares da matriz extracelular no coração de ratos espontaneamente hipertensos / Differential distribution and remodelling of fibrillar elements of the extracellular matrix in the heart of spontaneously hypertensive rat

Milene Sanches Galhardo

30 January 2013

A linhagem de ratos espontaneamente hipertensos (SHR) tem sido utilizada para como modelo animal para hipertensão humana, uma vez que estes animais desenvolvem pressóricos aumentados, hipertrofia ventricular esquerda, aumento de colágeno intersticial e disfunção diastólica. Embora o excesso de colágeno fibrilar tenha sido bem estudado neste modelo e esteja envolvido na insuficiência cardíaca observada, não há estudos quantitativos acurados (baseados na estereologia) para avaliar precisamente o volume tecidual ocupado pelo colágeno fibrilar e o remodelamento das fibrilas de colágeno segundo seu diâmetro uma vez que variações no diâmetro das fibrilas têm grande impacto funcional Mais ainda, nunca foi estudado neste modelo o remodelamento das fibras do sistema elástico (oxitalânicas, elaunínicas e elásticas propriamente ditas), que juntamente com o componente colagênico são responsáveis pelas características biomecânicas do tecido. Assim sendo, os corações de ratos Wistar (WIS), Wistar Kyoto (WKY) e SHR foram submetidos a análise hemodinâmicas e foram processados para microscopia de luz e eletrônica, segundo amostragem estereológica. Cortes corados com HE foram utilizados para avaliação do diâmetro dos cardiomiócitos e do volume absoluto do coração e do ventrículo esquerdo; cortes corados com Picrossirius-hematoxilina foram utilizados para a avaliação da fração de volume ocupada por colágeno no ventrículo esquerdo e volume absoluto de colágeno; cortes ultra-finos foram utilizados para avaliação do diâmetro das fibrilas de colágeno cortadas transversalmente e para avaliação da distribuição das fibras oxitalânicas, elaunínicas e elásticas. Os resultados mostram que a hipertrofia ventricular dos animais SHR deveu-se à hipertrofia dos cardiomiócitos associada à maior quantidade de colágeno fibrilar (3,8 x maior no SHR que no WIS). A análise ultraestrutural mostrou que as fibrilas de colágeno no endomísio variam, em nanômetros, de 31 a 53 nos animais WIS, de 36 a 67 nos WKY e de 31 a 85 nos SHR, com medianas respectivamente de 39,58, 48,38 e 54,39, sendo que do ponto de vista estatístico a distribuição dos diâmetros das fibrilas colágenas dos animais SRH é diferente das outras duas linhagens.A análise uttra-estrutural das fibras do sistema elástico mostrou que as fibras oxitalânicas, elaunínicas e elásticas apresentam uma distribuição diferencial nos diversos compartimentos da parede cardíaca dos animais, sendo que nas três linhagens há fibras elásticas propriamente ditas no endocárdio e epicárdio; no entanto, no perimísio as fibras elásticas e elaunínicas aparecem raramente nos ratos SRH e com maior freqüência nos WIS e WKY; no endomísio dos ratos SRH não foi possível observar a mesma riqueza de fibras elásticas e elaunínicas presentes nas outras linhagens, havendo assim um predomínio de fibras oxitalânicas no vi endomísio dos animais SHR. Os resultados mostram que, além das modificações quantitativas no conteúdo de colágeno no miocárdio do ventrículo esquerdo dos animais SHR, há também uma alteração qualitativa na população de fibrilas colagênicas que passa a ser constituída por fibrilas mais grossas. Mais ainda, os resultados mostram que, em relação às fibras do sistema elástico, a predominância de fibras oxitalânicas no endomísio dos animais SHR sugere que as forças de tensão maiores no coração destes animais modulem não somente o sistema colagênico mas também o sistema elástico no sentido de acumular fibras que suportam melhor as cargas, contribuindo para a perda da complacência da parede ventricular / The strain of spontaneously hypertensive rats (SHR) has been used as an animal model for human hypertension, since these animals develop increased blood pressure, left ventricular hypertrophy, increased interstitial collagen and diastolic dysfunction. Although excess fibrillar collagen has been well studied in this model and is involved in observed heart failure, there are no accurate quantitative studies (i.e., based on stereology) to precisely assess the volume of tissue occupied by fibrillar collagen neither the remodeling of collagen fibrils with respect to their diameters, and such studies are very important because variations in the diameter of the fibrils have a major functional impact. Moreover, the remodeling of elastic system fibers (oxytalan, elauninic and elastic proper), which together with the collagenous component are responsible for biomechanical features of the tissue, has never been studied in this model. Thus, the hearts of Wistar (WIS), Wistar Kyoto (WKY) and SHR rats went through hemodynamic analysis and were processed for light and electron microscopy, according to stereological sampling criteria. HE-stained sections were used to evaluate the diameter of the cardiomyocytes and the absolute volume of the heart while left ventricular sections stained by Picrosirius-hematoxylin were used to evaluate the volume fraction occupied by collagen in the left ventricle as well as its absolute volume of collagen; ultra-thin sections were used for evaluation of the diameter of transversally sectioned collagen fibrils and for evaluation of the distribution of oxytalan, elauninic and elastic proper fibers. The results show that the ventricular hypertrophy of SHR rats was due to cardiomyocyte hypertrophy associated with a higher amount of fibrillar collagen (3.8 times as high as in the WIS rats). The ultrastructural analysis showed that the collagen fibrils in the endomysium range in nanometers, from 31 to 53 in WIS animals, 36 to 67 in the WKY and 31 to 85 in SHR, with medians 39.58, 48.38 and 54.39, respectively. The distribution of diameters of collagen fibrils is statistically different in SRH animals when compared to the other two strains. The ultrastructural analysis of the fibers of the elastic system showed that oxytalan, elauninic and elastic fibers present a differential distribution across the various compartments of the heart wall of the animals. In the three strains there are elastic fibers proper in the endocardium and epicardium, while in the perimysium, the elastic fibers proper and the elauninic fibers rarely appear in SRH rats, being more frequent in WIS and WKY rats; the endomysium of SRH rats did not exhibit the same richness of elastic fibers proper and elauninic fibers present in other strains, occurring thus a predominance of oxytalan fibers in the endomysium of SHR rats. viii The results also show that, in addition to the quantitative changes in collagen content of left ventricular myocardium of SHR rats, there is a qualitative alteration in the population of collagen fibrils that is richer in thicker fibrils. Moreover, the results show that, with respect to the fibers of the elastic system, the predominance of the oxytalan fibers in the endomysium of SHR rats suggests that the higher tensile forces in the hearts of these animals modulate not only the collagenous system but also the elastic system, entailing accumulation of fibers suited to better support the loads, contributing to the loss of ventricular wall compliance

Colágeno fibrilar

Coração

Fibras elásticas

Hipertensão

Microscopia eletrônica de transmissão

Rato espontaneamente hipertenso

Elastic fiber

Fibrillar collagen

Heart

Hypertension

Spontaneously hypertensive rat

Transmission electron microscopy

Structural insights into fibrillar proteins from solid-state NMR spectroscopy / Études structurales des protéines fibrillaires par spectroscopie de RMN à l’état solide

Habenstein, Birgit

19 October 2011

La RMN à l’état solide est une méthode de choix pour l’étude des protéines insolubles et des complexes protéiques de haut poids moléculaire. L’insolubilité intrinsèque des protéines fibrillaires, ainsi que leur architecture complexe, rendent difficile leur caractérisation structurale par la cristallographie et par la RMN en solution. La RMN à l‘état solide n’est pas limitée par le poids moléculaire et constitue donc un outil puissant pour l’étude des protéines fibrillaires. L’attribution des résonances RMN est le prérequis pour obtenir des informations structurales à résolution atomique. La première partie de ce travail de thèse décrit le développement de méthodes en RMN à l’état solide pour l’attribution des résonances. Nous avons appliqué ces méthodes afin d’attribuer le domaine C-terminal du prion Ure2 (33 kDa), qui est à ce jour la plus grande protéine attribuée par RMN à l’état solide. Nos résultats fournissent les bases pour l’étude de protéines à haut poids moléculaire à l’échelle atomique. Ceci est démontré dans la seconde partie de ce travail de thèse avec les premières études RMN à l’état solide des fibrilles des prions Ure2 et Sup35. Nous avons caractérisé la structure de ces prions pour les fibrilles entières ainsi que pour les domaines isolés. La troisième fibrille étudiée est l’α- synuclein, fibrille associée à la maladie de Parkinson, pour laquelle nous présentons l’attribution des résonances RMN ainsi que la structure secondaire d’un nouveau polymorphe. Les études présentées ici fournissent de nouvelles clés pour comprendre la diversité des architectures de fibrilles, en considérant les fibrilles comme entités individuelles d’un point de vue structural / Solid-state NMR is the method of choice for studies on insoluble proteins and other high molecular weight protein complexes. The inherent insolubility of fibrillar proteins, as well as their complex architecture, makes the application of x-ray crystallography and solution state NMR difficult. Solid-state NMR is not limited by the molecular weight or by the absence of long-range structural order, and is thus a powerful tool for the 3D structural investigation of fibrillar proteins. The assignment of the NMR resonances is a prerequisite to obtain structural information at atomic level. The first part of this thesis describes the development of solid-state NMR methods to assign the resonances in large proteins. We apply these methods to assign the 33 kDa C-terminal domain of the Ure2p prion which is up to now the largest protein assigned by solid-state NMR. Our results provide the basis to study high molecular weight proteins at atomic level. This is demonstrated in the second part with the first high-resolution solid-state NMR study of Ure2 and Sup35 prion fibrils. We describe the conformation of the functional domains and prion domains in the full-length fibrils and in isolation. The third fibrillar protein addressed in this work is the Parkinson’s disease related α-synuclein whereof we demonstrate the NMR resonance assignment and the secondary structure determination of a new polymorph. Thus, the studies described here provide new insights in the structural diversity of fibril architectures, and plead to view fibrils as individuals from a structural point of view, rather than a homogenous protein family

RMN à l’état solide

Attribution des résonances RMN

Prion

Protéines fibrillaires

Solid-state NMR

NMR resonance assignment

Prion

Fibrillar proteins

3D protein structure

571.4

Toward nanofiltration membranes with layer-by-layer assembled and nano-reinforced separation layers / Vers des membranes de nanofiltration avec des couches de separation nano-renforcées et assemblées couche-par-couche

Lin, Xiaofeng

17 June 2016

Ce travail de thèse a été consacré à l'élaboration d'un nouveau type de membranes de nanofiltration efficaces avec des propriétés améliorées (flux élevé et rétention élevée, et de bonnes propriétés mécaniques) en déposant un revêtement assemblé couche-par-couche (LbL) sur des supports poreux. Après avoir systématiquement étudié le mécanisme de croissance des films assemblés couche par couche des polyélectrolytes choisis et la relation entre les structures de ces films et les performances des membranes résultant, nous avons identifié avec succès les meilleures structures multicouches pour la construction de membranes de nanofiltration de référence avec des performances optimales. En outre, en prenant avantage de la technique LbL, nous avons introduit une couche de diffusion latérale assemblée soit de nanofibrilles de cellulose ou de nanotubes de carbone, qui permet d’augmenter le flux de 30% tout en conservant la même rétention par rapport à la membrane de référence. En plus, les films assemblés à base de chitosan et nanofibrils de cellulose ont montré une forte résistance à la traction allant jusqu’à 450 MPa et un module d’Young jusqu’à 50 GPa. / This thesis work was devoted to the development of a novel and efficient nanofiltration membrane with improved properties (high flux and high retention, good mechanical strength) by coating Layer-by-Layer (LbL) assembled films onto porous membrane support. After having systematically studied the growth mechanism of LbL-assembled films of chosen polyelectrolytes and the relationship between the structures of these films and the membrane performance of the resulting NF membranes, we successfully identified the best multilayer structures for constructing nanofiltration membranes (NF) of reference with optimal membrane performance. Furthermore, taking advantages of the LbL-assembly, we successfully introduced LbL-assembled lateral diffusion layer that is made of either cellulose nanofibrils or carbon nanotubes, which in turn led to membranes with 30% higher flux. In addition, the LbL-assembled films of chitosan and cellulose nanofibrils showed surprisingly strong tensile strength of up to 450 MPa and a high Young modulus of up to 50 GPa.

Membranes de nanofiltration

Assemblage couche-par-couche

Couche de séparation polymère

Nanofibrils de cellulose

Nanotubes de carbone

Nanofiltration membranes

Layer-by-layer assembly

Polymeric separation layer

Fibrillar lateral diffusion layer

Cellulose nanofibrils

Carbon nanotubes

541.3

Examining the Relationships between Form, Function, Environment, and Behavior in Adhesive Pad-bearing Lizards

Garner, Austin Michael

16 July 2021

No description available.

Zoology

Evolution and Development

Ecology

Biology

Animals

Anatomy and Physiology

Morphology

Materials Science

Anolis

subdigital pads

Dactyloidae

Gekkonidae

Gekkota

setae

fibrillar adhesion

bio-inspired adhesion

functional morphology

contact splitting

convergent evolution