Global ETD Search

51	Identificação de proteínas secretadas por duas espécies de Leptospira, uma patogênica e uma saprófita. / Identification of secreted proteins of two species of Leptospira, one pathogenic and one saprophyte. Ricardi, Ligia Maria Piassi 26 March 2013 (has links) A leptospirose é uma zoonose de distribuição mundial causada por espiroquetas patogênicas do gênero Leptospira. Resultados experimentais demonstraram que a patogênese pode estar relacionada com a capacidade destas bactérias em aderir a proteínas da matriz extracelular, escapar da resposta imune do hospedeiro e de produzir toxinas. Este trabalho teve como objetivo identificar proteínas secretadas por Leptospira interrogans sorovar Pomona estirpe Fromm kennewicki (patogênica) e Leptospira biflexa sorovar Patoc estirpe Patoc I (saprófita), através de análise proteômica. As leptospiras foram cultivadas em meio EMJH suplementado com soro de coelho ou albumina bovina. Os sobrenadantes foram filtrados, dialisados e liofilizados para aplicação das tecnologias de análise proteômica utilizando gel bidimensional e análise em solução. A análise dos peptídeos obtidos, nos dois procedimentos, foi realizada utilizando-se LC/MS/MS. Foi possível a identificação de 159 proteínas diferentes nas amostras de L.interrogans, entre as quais 64 foram positivas em pelo menos uma das ferramentas usadas para a predição. Em L. biflexa, 104 proteínas diferentes foram identificadas, entre elas 43 proteínas foram positivas pela análise in silico. Entre as proteínas identificadas, estão aquelas que possuem peptídeo sinal sec ou tat dependentes. Em outras, a predição da localização celular é desconhecida ou podem ter múltiplos sítios de localização, e ainda, proteínas que não possuem peptídeo sinal e que podem ser secretadas por mecanismos não convencionais. Muitos destas são proteínas hipotéticas sem domínios conservados detectados. No que diz respeito à atividade proteolítica, foi identificada a presença de metaloproteases no secretoma de L.interrogans. Não houve detecção da presença significativa de proteases bacterianas em amostras de L. biflexa. A identificação e a caracterização funcional de proteínas secretadas poderão contribuir para a elucidação dos mecanismos patogênicos e no desenvolvimento de novas estratégias para o tratamento e prevenção de leptospirose. / Leptospirosis is a zoonosis of worldwide distribution caused by pathogenic spirochetes of the genus Leptospira. The mechanisms by which leptospires invade the host and cause the disease are not yet fully understood. Experimental results have shown that the pathogenesis may be related to the ability of these bacteria to bind to extracellular matrix proteins, to escape hosts immune responses and to produce toxins. This work aimed to identify secreted proteins by Leptospira interrogans serovar Pomona strain Fromm kennewicki (pathogenic) and Leptospira biflexa serovar strain Patoc Patoc I (saprophyte) through proteomic analysis. The leptospires were grown in EMJH supplemented with rabbit serum or BSA. Supernatants were filtered, dialyzed and lyophilized to proteomic technology, two-dimensional gel and non-gel. The analysis of the obtained peptides in two procedures was performed using LC/MS/LC. It was possible to identify 159 different proteins in the samples of L.interrogans; among them, 64 were positive proteins in at least one of the tools used for prediction. In L. biflexa, 104 different proteins were identified; among them, 43 positive proteins were positive by in silico analysis. Among the identified proteins are those that possess sec or tat dependent signal peptide. In others, the prediction of the cellular location is unknown or may have multiple sites of localization, and even proteins which have no signal peptide can be secreted by unconventional mechanisms. Many of these are hypothetical proteins with no detected putative conserved domains. The presence of metalloproteases has been identified in the L.interrogans´ secretome, using proteolytic assay. There was no significant detection of the presence of bacterial proteases in samples of L. biflexa. The identification and functional characterization of secreted proteins may contribute to the elucidation of pathogenic mechanisms and in the developing of new strategies for the treatment and prevention of leptospirosis. Extracellular matrix proteins Leptospirose Leptospirosis Pathogenesis animal Patogenia animal Proteínas Proteínas de matriz extracelulares Proteins Secreção Secretion
52	Expressão da família de proteínas SIBLING nos tecidos regenerados em defeitos de furca em câes / The SIBLING family of proteins expression in regenerative tissues in furcation defects in dogs Christiane Watanabe Yorioka 13 September 2010 (has links) O presente estudo teve como objetivo caracterizar a expressão da família SIBLING (Small Integrin-Binding Ligand, N-linked Glycoproteins) após tratamento regenerativo de furca com enxerto de tecido reparativo de alvéolos dentários. Para isto, os 2os e 3os pré-molares superiores foram extraídos em quatro cães s.r.d. Cinco dias após as extrações, defeitos padronizados de furca classe II foram criados nos 2os, 3os e 4os pré-molares inferiores, bilateralmente. Estes defeitos foram tratados imediatamente com raspagem, alisamento e polimento corono-radicular (RAPCR) e retalho deslocado coronariamente (RDC) (Grupo Controle) ou com RAPCR + RDC + enxerto de tecido reparativo de alvéolos dentários (Grupo Teste) em um experimento de boca-dividida. Após um período de 6 semanas de reparação, os animais foram sacrificados e foi realizada análise imuno-histoquímica para avaliar a localização dos membros da família de proteínas SIBLING, composta pelas seguintes proteínas nãocolágenas da matriz extracelular: osteopontina (OPN), sialoproteína óssea (BSP), proteína da matriz dentinária 1 (DMP1), sialofosfoproteína da dentina (DSPP) e fosfoglicoproteína da matriz extracelular (MEPE). Não foram encontradas diferenças na expressão da família SIBLING entre os grupos teste e controle. Todas as proteínas foram expressas no novo osso, novo cemento e novo ligamento periodontal, em ambos os grupos. Os osteoclastos demonstraram imunolocalização intracelular intensa somente para a OPN. Cementócitos e o novo ligamento periodontal demonstraram, particularmente, marcação intensa para a MEPE. Houve uma diferença evidente entre o padrão de marcação entre o lado tratado (vestibular) e o não-tratado (lingual) de todos os espécimes, com presença de maior marcação do lado vestibular, para todos os anticorpos testados. Podemos concluir que não houve diferenças no padrão de expressão da família SIBLING após o uso do enxerto de tecido reparativo de alvéolos dentários. A família de proteínas SIBLING é expressa durante o processo de reparação de defeitos de furca, indicando possíveis papéis e funções para as proteínas OPN, BSP, DMP1, DSP e MEPE como moléculas alvo em terapias de regeneração periodontal. / The present study aimed in characterizing the expression of the SIBLING (Small Integrin- Binding Ligand, N-linked Glycoproteins) family in a regenerative treatment of furcation defects with a reparative tissue graft obtained from extraction sockets. The second and third upper premolars were extracted in four mixed breed dogs. Five days later, standardized class II furcation defects were created in the second, third and fourth mandibular premolars, bilaterally. The defects were immediately treated with either debridement and root planning (DRP) combined with a coronally positioned flap (CPF) (Control Group), or with DRP+CPF + a reparative tissue graft derived from the second and third premolar extraction sockets (Experimental Group) in a split-mouth design. After 6 weeks period of healing, the animals were sacrificed and immunohistochemistry was carried out to assess the localization of members of the SIBLING family of noncollagenous extracellular matrix proteins, namely osteopontin (OPN), bone sialoprotein (BSP), dentin matrix protein 1 (DMP1), dentin sialophosphoprotein (DSPP) and matrix extracellular phosphoglycoprotein (MEPE). No differences in the SIBLING family of proteins expression were noted between the control and experimental group. All proteins were expressed in new bone, new cementum and new periodontal ligament in both groups. Osteoclasts exhibited intense intracellular localization only for OPN. Cementocytes and the newly formed periodontal ligament demonstrated particularly intense staining for MEPE. There was an evident difference between the staining pattern between the treated (buccal side) and non-treated (lingual) side of the specimens, with a more intense staining pattern in the buccal side, for all the tested antibodies. In conclusion, there were no differences in the pattern of SIBLING expression following the use of a reparative tissue graft obtained from extraction sockets. The SIBLING family of proteins is expressed during the healing process of furcation defects indicating possible roles and functions of OPN, BSP, DMP1, DSPP and MEPE as target molecules in periodontal regeneration therapies. Defeitos da furca Imuno-histoquímica Proteínas da matriz extracelular Extracellular matrix proteins Furcation Defects Immunohistochemistry
53	Estudo do efeito do ozônio diluído em água na reparação óssea através de avaliação imunoistoquímica / Study of the effect of ozone dissolved in water in the bone repair by immunohistochemical evaluation Juliana Noguti 10 May 2010 (has links) A aplicação de ozônio pode ser usada como uma alternativa no tratamento de inúmeras patologias. O objetivo é interferir positivamente na reparação tecidual e na anti-sepsia de injúrias, uma vez que o ozônio é um potente agente antimicrobiano e possui a capacidade de estimular a circulação sanguínea e a resposta imunomodulatória. Tais características justificam o interesse da sua aplicação na Medicina e na Odontologia. Quando em contato com fluidos orgânicos, o ozônio age como um oxidante gerando a formação de moléculas reativas do oxigênio e produtos de lipídeos oxidantes que influenciam em eventos bioquímicos do metabolismo celular. A proposição deste estudo foi avaliar a aplicação do ozônio diluído em água no processo de reparação óssea através de análise morfológica e imunoistoquimica em modelo animal. Nossos resultados mostraram que a irrigação da ferida cirúrgica com ozônio diluído em água ocasionou atraso na reparação e que este era mais exuberante no início do processo. / The ozone therapy can be used as an alternative for the treatment of numerous diseases. The goal is to positively affect tissue repair and antisepsis as ozone is a potent antimicrobial agent and has the ability to stimulate blood circulation and immunomodulatory response. These characteristics justify the interest of its application in Medicine and Dentistry. When in contact with body fluids, ozone acts as an oxidant generating reactive oxygen molecules and oxidative products of lipids influencing biochemical events of cellular metabolism. Therefore, the purpose of this study was to evaluate, in an animal model, the effect of ozone application during the bone wound healing process. These analyses were performed by the study of bone cells morphology and immunohistochemical expression of bone matrix proteins. Our results showed that the use of ozone diluted in water for irrigation caused a delay in early stages of bone repair. This delay was more prominent in the first phase of the bone wound healing. Ozônio Proteínas da matriz óssea Reparação óssea Bone matrix proteins Bone repair Ozone
54	Upregulation of matrix metalloproteinases -2 and -9 and type IV collagen degradation in skeletal muscle reperfusion injury Roach, Denise Margaret. January 2002 (has links) (PDF) Includes bibliographical references (leaves 292-352) Determines the role of matrix metalloproteinases, MMP-2 and MMP-9 in reperfusion injury following skeletal muscle ischaemia; and, whether inhibition of MMPs by doxycycline protects against tissue damage. Extracellular matrix proteins Reperfusion injury Pathophysiology Ischemia
55	Upregulation of matrix metalloproteinases -2 and -9 and type IV collagen degradation in skeletal muscle reperfusion injury / Denise Margaret Roach. Roach, Denise Margaret January 2002 (has links) Includes bibliographical references (leaves 292-352) / xvi, 352 leaves : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Determines the role of matrix metalloproteinases, MMP-2 and MMP-9 in reperfusion injury following skeletal muscle ischaemia; and, whether inhibition of MMPs by doxycycline protects against tissue damage. / Thesis (M.D.)--University of Adelaide, Dept. of Surgery, 2002 Extracellular matrix proteins Reperfusion injury Pathophysiology. Ischemia.
56	Granulocyte Adhesion to Matrix Proteins and the Effect on the Release of Granule Proteins : Development of a Simple Method and its Application in Experimental and Clinical Studies Xu, Xiaoyan January 2001 (has links) <p>Granulocyte adhesion and release of their granule proteins are key steps during selective accumulation of a certain cell to an inflammatory site. Eosinophils are specifically recruited to sites of allergic inflammation and parasitic infection, whereas neutrophil influx predominates in bacterial infection and rheumatoid arthritis. </p><p>A simple, reliable and convenient method was developed for the measurement of granulocyte adhesion and release of granule proteins by using the normal population of granulocytes. The design allows simultaneous quantitative assessment of eosinophil and neutrophil adhesion to proteins and degranulation. </p><p>Using this method, manganese ions (Mn<sup>2+</sup>) induced a higher level of eosinophil adhesion to fibronectin, fibrinogen and albumin as compared with neutrophils. PMA induced comparable levels of eosinophil and neutrophil adhesion. F-MLP stimulated a rapid, short-term adhesion of neutrophils to fibrinogen. </p><p>In the same conditions PMA alone stimulated a dose-dependent release of ECP from cells that adhered to both fibronectin and fibrinogen. Meanwhile, Mn<sup>2+</sup> amplified the release of ECP induced by PMA. Furthermore, release of ECP was shown to be associated with cell death.</p><p>PMA, in combination with Mn<sup>2+</sup>, induced a marked release of ~ 80%of the intracellular content of lactoferrin and HNL in neutrophils. PMA or f-MLP alone induced 30-40% release of lactoferrin and HNL. A maximal release of MPO of 15-20% was obtained from neutrophils stimulated by PMA and Mn<sup>2+</sup>. Release of lactoferrin and HNL showed a significant negative relationship to the viability of cells.</p><p>Stimulated by PMA, eosinophils from pollen-atopic patients during early pollen season displayed a markedly enhanced adhesion and release of ECP of eosinophils compared with eosinophils from the references. Priming with IL-5 caused a significantly higher adhesion and release of ECP by eosinophils in response to PMA. GM-CSF priming enhanced eosinophil adhesion in response to PAF and PMA plus Mn<sup>2+</sup>, but did not enhance the release of ECP.</p><p>In conclusion, the assay allows a simple quantification of eosinophil and neutrophil adhesion, as well as degranulation by using the normal population of granulocytes. Cellular adhesion plays an important role in the regulation of both eosinophil and neutrophil degranulation, but adhesion and degranulation can be induced separately.</p> Medical sciences Eosinophils Neutrophils Adhesion Release of ECP Extracellular matrix proteins Granulocytes MEDICIN OCH VÅRD MEDICINE MEDICIN
57	Deposition of Thin Films of Biocompatible Calcium Carbonate via Template-Driven Mineralization Ajikumar, Parayil Kumaran, Lakshminarayanan, Rajamani, Valiyaveettil, Suresh 01 1900 (has links) Natural bone is a composite of collagen based hydrogel and inorganic dahilite crystals. The unusual combination of a hard inorganic material and an underlying elastic hydrogel network endows native bone with unique mechanical properties, such as low stiffness, resistance to tensile and compressive forces and high fracture toughness. Throughout the cavities of the bone, there are bone cells and myriads of soluble and extracellular matrix components that are constantly involved in the bone formation and remodeling process. Among the extra cellular component the acidic matrix proteins that are attached to the collagen scaffold play important templating and inhibitory roles during the mineralization process. It would be interesting to generate such functional scaffolds that mimic a template driven mineralization and which can assist cell adhesion, proliferation, migration and differentiation. Towards this direction, we have chosen one synthetic (Nylon 66 membrane) and one natural (eggshell membrane) scaffold and carried out a template driven mineralization of CaCO₃ as model systems. The surface modifications were carried out by the pre-adsorption of acidic polymers before the deposition of the CaCO₃. The deposition of the crystalline calcium carbonate on these modified templates were archived from a supersaturated solution of Ca(HCO₃)₂. / Singapore-MIT Alliance (SMA) acidic matrix proteins template driven mineralization Nylon 66 membrane eggshell membrane
58	Granulocyte Adhesion to Matrix Proteins and the Effect on the Release of Granule Proteins : Development of a Simple Method and its Application in Experimental and Clinical Studies Xu, Xiaoyan January 2001 (has links) Granulocyte adhesion and release of their granule proteins are key steps during selective accumulation of a certain cell to an inflammatory site. Eosinophils are specifically recruited to sites of allergic inflammation and parasitic infection, whereas neutrophil influx predominates in bacterial infection and rheumatoid arthritis. A simple, reliable and convenient method was developed for the measurement of granulocyte adhesion and release of granule proteins by using the normal population of granulocytes. The design allows simultaneous quantitative assessment of eosinophil and neutrophil adhesion to proteins and degranulation. Using this method, manganese ions (Mn2+) induced a higher level of eosinophil adhesion to fibronectin, fibrinogen and albumin as compared with neutrophils. PMA induced comparable levels of eosinophil and neutrophil adhesion. F-MLP stimulated a rapid, short-term adhesion of neutrophils to fibrinogen. In the same conditions PMA alone stimulated a dose-dependent release of ECP from cells that adhered to both fibronectin and fibrinogen. Meanwhile, Mn2+ amplified the release of ECP induced by PMA. Furthermore, release of ECP was shown to be associated with cell death. PMA, in combination with Mn2+, induced a marked release of ~ 80%of the intracellular content of lactoferrin and HNL in neutrophils. PMA or f-MLP alone induced 30-40% release of lactoferrin and HNL. A maximal release of MPO of 15-20% was obtained from neutrophils stimulated by PMA and Mn2+. Release of lactoferrin and HNL showed a significant negative relationship to the viability of cells. Stimulated by PMA, eosinophils from pollen-atopic patients during early pollen season displayed a markedly enhanced adhesion and release of ECP of eosinophils compared with eosinophils from the references. Priming with IL-5 caused a significantly higher adhesion and release of ECP by eosinophils in response to PMA. GM-CSF priming enhanced eosinophil adhesion in response to PAF and PMA plus Mn2+, but did not enhance the release of ECP. In conclusion, the assay allows a simple quantification of eosinophil and neutrophil adhesion, as well as degranulation by using the normal population of granulocytes. Cellular adhesion plays an important role in the regulation of both eosinophil and neutrophil degranulation, but adhesion and degranulation can be induced separately. Medical sciences Eosinophils Neutrophils Adhesion Release of ECP Extracellular matrix proteins Granulocytes MEDICIN OCH VÅRD MEDICINE MEDICIN
59	Endothelial Cell Factors Involved in Bartonella Bacilliformis Pathogenesis Soni, Tanushree 30 April 2009 (has links) The genus Bartonella comprises emerging pathogens that are causative agents of a wide range of clinical manifestations such as cat scratch disease, bacillary angiomatosis, and Carrion’s disease. All species are transmitted by blood-sucking arthropods and infect erythrocytes and endothelial cells of hosts. Carrion’s disease is a bi-phasic infection caused by Bartonella bacilliformis which is characterized by hemolysis of infected erythrocytes followed by invasion of the vascular endothelium. This provokes pronounced cellular proliferation, angiogenesis and skin eruptions called verruga peruana. Endothelial cells are thought to be the primary niche wherein bacteria reside between inoculation and erythrocyte infection. This study aims to elucidate some of the endothelial factors involved during the verruga peruana phase of Carrion’s disease. In order to adhere to and invade human microvascular endothelial cells (HMEC-1), B. bacilliformis engages a family of cell receptors called integrins. We used anti-integrin antibodies to show that the primary integrin involved is the fibronectin receptor á5â1, although the vitronectin receptor áVâ3 also plays a minor role. We show B. bacilliformis invasion is also dependent on integrin ligands, fibronectin and vitronectin as antibodies against these proteins decreased invasion and attachment, whereas pre-treatment of the bacteria with these molecules enhanced infection of endothelial cells. Bacterial uptake requires various host cytoplasmic signaling pathways to work in tandem, and our study identified three mitogen activated protein kinases involved. Apart from MAPKs, phosphotidylinositol 3 kinase plays a role during invasion and cell survival. PI3K inhibitors blocked bacterial internalization and B. bacilliformis infected cells showed accelerated apoptosis. Lastly, microarray analysis was performed to study the gene expression profile of B. bacilliformis infected HMEC-1 cells. Numerous molecules of the integrin signaling pathways are involved, suggesting integrins as the major receptor recruited for the successful infection by B. bacilliformis. In summary this is the first study to demonstrate the role of integrins as B. bacilliformis receptors and integrin ligands as facilitators of infection. Gene expression analysis suggests the possibility that integrin mediated signaling pathways are the key modulators of cellular alterations during B. bacilliformis infection. This hypothesis is supported by the identification of some members of the integrin signaling pathway necessary for B. bacilliformis entry into endothelial cells. Microarray Analysis Bartonella Invasion Integrins Endothelial cells Kinases Extracellular Matrix Proteins Biology, general
60	The role of fibulin-5 in the growth and remodeling of mouse carotid arteries Wan, William 14 November 2011 (has links) The evolution of biomechanical behavior of arteries plays a key role in the onset and progression of cardiovascular disease. Biomechanical behavior is governed by the content and organization of the key structural constituents (e.g., collagen, elastin, and smooth muscle) and vessel geometry. The evolution of biomechanical behavior of arteries is governed by biologically-mediated synthesis, degradation, and reorganization of these key structural constituents. A hallmark goal in biomechanics is quantifying the relationship between the microstructure of tissues and their mechanical response throughout tissue growth and remodeling; this will provide a crucial link in understanding the tissue level effects of biological processes involved in disease and normal growth Fibulin-5 (fbln5) is an ECM protein that binds tropoelastin and interacts with integrins. Arteries from fbln5 knockout mice lack functional elastic fibers and provide a system for investigating the link between an artery's microstructure and its mechanical response. The overall goal of this project was to develop multi-scaled theoretical and experimental frameworks to quantify the relationship between microstructural content and organization and tissue level material properties of arteries from fbln5 null mice and littermate controls and to quantify the effects of fbln5 on the in vivo maturation of mouse carotid arteries. We found significant differences in the mechanical properties of carotid arteries of fbln5 null mice, and these differences were correlated with altered extracellular matrix organization. We also developed a microstructurally-motivated 3-dimensional constrained mixture model for vascular growth and remodeling. Using physiological rates of constituent growth and turnover, the model captured the salient findings found in the literature. Incorporating experimentally measured fiber angle data into constitutive relations yielded greater predictive accuracy. This dissertation incorporates experimental data quantified at the micro (microstructural-level fiber distributions) and macro (tissue-level mechanical response) scale and incorporates these data into microstructurally motivated constitutive relations. The use of structurally motivated constitutive relations and experimentally measured microstructural data provides a foundation for future work in further understanding the relationship between processes governing microstructure and the tissue level effects of disease and normal growth. Growth and remodeling Arteries Carotid Mouse Fibulin-5 Extracellular matrix proteins Arteries Mechanical properties Microstructure

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