• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 7
  • 3
  • Tagged with
  • 10
  • 7
  • 3
  • 3
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Estudo e desenvolvimento de nanocompósitos contendo nanopartículas de ouro conjugadas com biomoléculas: síntese e aplicações em nanomedicina / Study and development of nanocomposites containing gold nanoparticles and biomolecules: synthesis and application in nanomedicine

Marangoni, Valeria Spolon 09 February 2012 (has links)
A convergência entre a biotecnologia e a nanotecnologia tem levado ao desenvolvimento de novos nanobiocompósitos híbridos com funções sinérgicas que incorporam as propriedades de reconhecimento dos biomateriais com as propriedades eletrônicas, ópticas e catalíticas únicas das nanopartículas. Apesar do recente desenvolvimento na síntese de nanobiocompósitos, a aplicação biomédica destes materiais ainda apresenta muitos desafios, já que não apenas uma conjugação apropriada é requerida, mas também outros importantes aspectos relacionados à biocompatibilidade. O presente trabalho tem como objetivo expandir o campo da síntese e caracterização de nanoparticulas funcionalizadas com biomoléculas. Em especial, visamos o entendimento e caracterização das interações entre nanopartículas de ouro (AuNPs) e proteínas, por meio do estudo de dois sistemas distintos: AuNPs funcionalizadas com Jacalina, e AuNPs funcionalizadas com a proteína BeCen1. No primeiro sistema, o interesse advém da capacidade da lectina Jacalina de reconhecer o dissacarídeo (Galβ1-3GalNAc) associado a tumores. Neste caso, AuNPs formadas na presença do dendrímero poli(amidoamina) geração 4.0 (PAMAM G4) foram conjugadas com a Jacalina marcada com o fluóroforo Isotiocianato de fluoresceína (FITC). A formação do complexo AuNP-PAMAM G4/Jacalina foi confirmada por Microscopia Eletrônica de Transmissão (TEM), Espalhamento de Luz Dinâmico (DLS), Espectroscopia de Absorção no UV-VIS e vibracional (FTIR). A interação entre as AuNP-PAMAM G4 e a Jacalina parece ser um processo dirigido por entropia com afinidade moderada e formação de complexo, segundo os resultados de Calorimetria de Titulação Isotérmica (ITC) e supressão da fluorescência. Os resultados de Dicroísmo Circular (CD) mostraram que a conjugação da Jacalina com as AuNP-PAMAM G4 não alterou sua estrutura secundária. Testes realizados em cultura de células revelaram que o complexo apresenta maior afinidade e citotoxicidade pelas células de carcinoma do colo de útero humano (HeLa) se comparadas com fibroblastos saudáveis de adipócitos de camundongo (L929). Estes resultados são relevantes uma vez que demonstram o potencial do complexo AuNP-PAMAM G4/Jacalina-FTIR para aplicações biomédicas incluindo diagnóstico e tratamento de câncer. O segundo sistema é interessante devido a habilidade da proteína BeCen1 em formar filamentos nanométricos em função da temperatura. As AuNPs foram formadas na presença da proteína utilizando ácido fórmico diluído como agente redutor e o excesso de proteína foi separado por Cromatografia de Exclusão Molecular. Análises de CD revelaram uma pequena diminuição no conteúdo de α-hélices, confirmado por FTIR, o que pode estar relacionado à interação das AuNPs com os grupamentos amida desta proteína. Medidas de espalhamento de luz revelaram um aumento da turbidez da suspensão do complexo AuNP-BeCen1 com o aumento da temperatura e imagens de TEM, com e sem aquecimento, confirmaram uma mudança de padrão no arranjo das AuNPs. Estes resultados revelam a possibilidade de fabricação de nanobiocompósitos termorresponsivos, o que pode ser muito importante para aplicações em nanodispositivos. / The convergence between biotechnology and nanotechnology has led to the development of new hybrid nanocomposites that conjugate the bio-recognization properties of biomaterials and the unique electronic, optic and catalytic properties of the nanoparticles. Despite the recent advances in the development of nanobiocomposites, the biomedical applications of these materials are still limited, among other factors, by the low efficiency of functionalization and biocompatibility. The present study was aimed at developing proteinconjugated nanoparticles for application in nanomedicine. Our main focus were the understanding and characterization of the interactions between proteins and gold nanoparticles (AuNPs), which was accomplished using two distinct systems, viz.: Jacalin-functionalized AuNPs, and Becen1-functionalized AuNPs. In the former, the interest is due the capability of the protein Jacalin of recognize the disaccharide (Galβ1-3GalNAc), largely expressed in some tumors cells. AuNPs were synthesized in the presence of the polyamido amine generation 4.0 (PAMAM G4) and conjugated with a Jacalin target with the fluorescein isothiocyanate (FITC). The excess of protein was removed by centrifugation and the complex formation was confirmed by Transmission Electron Microscopy (TEM), Dynamic Light Scattering (DLS), UV-VIS Absorption and Vibrational Spectroscopy (FTIR). The interactions between AuNP-PAMAM G4 and Jacalin seemed to be driven by an entropic process with moderate affinity and complex formation, as revealed by Isothermal Titration Calorimetry (ITC) and quenching fluorescence measurements. Furthermore, Circular Dichroism (CD) analyses revealed that protein maintained its secondary structure upon conjugation with the nanoparticles. In vitro tests revealed that the AuNPs/Jacalin complexes presented higher affinity and cytotoxicity against human cervical cancer cell (HeLa) compared to healthy mouse fibroblasts (L929). These results are relevant, since the AuNP-PAMAM G4/Jacalin-FITC complex may be used for biomedical applications including cancer treatment and diagnostics. The second nanocomplex, comprising AuNPs and BeCen1, was chosen due to the ability of BeCen 1 to polymerize in the form of nanometric filaments as a function of temperature. The AuNPs were formed in the presence of the protein using diluted formic acid as reducing agent and the excess of protein was removed by Molecular Exclusion Chromatography. CD analysis showed a decrease in the -helix structures confirmed by FTIR, which may be related to the interaction between the AuNPs and the amide groups of the protein. Light scattering measurements revealed an increase in the turbidity of the dispersions upon increasing the temperature, indicating a change in the arrangement of the AuNPs. Such BeCen-1 induced alignment was confirmed by TEM images. The latter results point to the possibility of fabrication of novel thermoresponsive nanobiocomposites, which are of great relevance for nanodevices applications.
2

Estudo e desenvolvimento de nanocompósitos contendo nanopartículas de ouro conjugadas com biomoléculas: síntese e aplicações em nanomedicina / Study and development of nanocomposites containing gold nanoparticles and biomolecules: synthesis and application in nanomedicine

Valeria Spolon Marangoni 09 February 2012 (has links)
A convergência entre a biotecnologia e a nanotecnologia tem levado ao desenvolvimento de novos nanobiocompósitos híbridos com funções sinérgicas que incorporam as propriedades de reconhecimento dos biomateriais com as propriedades eletrônicas, ópticas e catalíticas únicas das nanopartículas. Apesar do recente desenvolvimento na síntese de nanobiocompósitos, a aplicação biomédica destes materiais ainda apresenta muitos desafios, já que não apenas uma conjugação apropriada é requerida, mas também outros importantes aspectos relacionados à biocompatibilidade. O presente trabalho tem como objetivo expandir o campo da síntese e caracterização de nanoparticulas funcionalizadas com biomoléculas. Em especial, visamos o entendimento e caracterização das interações entre nanopartículas de ouro (AuNPs) e proteínas, por meio do estudo de dois sistemas distintos: AuNPs funcionalizadas com Jacalina, e AuNPs funcionalizadas com a proteína BeCen1. No primeiro sistema, o interesse advém da capacidade da lectina Jacalina de reconhecer o dissacarídeo (Galβ1-3GalNAc) associado a tumores. Neste caso, AuNPs formadas na presença do dendrímero poli(amidoamina) geração 4.0 (PAMAM G4) foram conjugadas com a Jacalina marcada com o fluóroforo Isotiocianato de fluoresceína (FITC). A formação do complexo AuNP-PAMAM G4/Jacalina foi confirmada por Microscopia Eletrônica de Transmissão (TEM), Espalhamento de Luz Dinâmico (DLS), Espectroscopia de Absorção no UV-VIS e vibracional (FTIR). A interação entre as AuNP-PAMAM G4 e a Jacalina parece ser um processo dirigido por entropia com afinidade moderada e formação de complexo, segundo os resultados de Calorimetria de Titulação Isotérmica (ITC) e supressão da fluorescência. Os resultados de Dicroísmo Circular (CD) mostraram que a conjugação da Jacalina com as AuNP-PAMAM G4 não alterou sua estrutura secundária. Testes realizados em cultura de células revelaram que o complexo apresenta maior afinidade e citotoxicidade pelas células de carcinoma do colo de útero humano (HeLa) se comparadas com fibroblastos saudáveis de adipócitos de camundongo (L929). Estes resultados são relevantes uma vez que demonstram o potencial do complexo AuNP-PAMAM G4/Jacalina-FTIR para aplicações biomédicas incluindo diagnóstico e tratamento de câncer. O segundo sistema é interessante devido a habilidade da proteína BeCen1 em formar filamentos nanométricos em função da temperatura. As AuNPs foram formadas na presença da proteína utilizando ácido fórmico diluído como agente redutor e o excesso de proteína foi separado por Cromatografia de Exclusão Molecular. Análises de CD revelaram uma pequena diminuição no conteúdo de α-hélices, confirmado por FTIR, o que pode estar relacionado à interação das AuNPs com os grupamentos amida desta proteína. Medidas de espalhamento de luz revelaram um aumento da turbidez da suspensão do complexo AuNP-BeCen1 com o aumento da temperatura e imagens de TEM, com e sem aquecimento, confirmaram uma mudança de padrão no arranjo das AuNPs. Estes resultados revelam a possibilidade de fabricação de nanobiocompósitos termorresponsivos, o que pode ser muito importante para aplicações em nanodispositivos. / The convergence between biotechnology and nanotechnology has led to the development of new hybrid nanocomposites that conjugate the bio-recognization properties of biomaterials and the unique electronic, optic and catalytic properties of the nanoparticles. Despite the recent advances in the development of nanobiocomposites, the biomedical applications of these materials are still limited, among other factors, by the low efficiency of functionalization and biocompatibility. The present study was aimed at developing proteinconjugated nanoparticles for application in nanomedicine. Our main focus were the understanding and characterization of the interactions between proteins and gold nanoparticles (AuNPs), which was accomplished using two distinct systems, viz.: Jacalin-functionalized AuNPs, and Becen1-functionalized AuNPs. In the former, the interest is due the capability of the protein Jacalin of recognize the disaccharide (Galβ1-3GalNAc), largely expressed in some tumors cells. AuNPs were synthesized in the presence of the polyamido amine generation 4.0 (PAMAM G4) and conjugated with a Jacalin target with the fluorescein isothiocyanate (FITC). The excess of protein was removed by centrifugation and the complex formation was confirmed by Transmission Electron Microscopy (TEM), Dynamic Light Scattering (DLS), UV-VIS Absorption and Vibrational Spectroscopy (FTIR). The interactions between AuNP-PAMAM G4 and Jacalin seemed to be driven by an entropic process with moderate affinity and complex formation, as revealed by Isothermal Titration Calorimetry (ITC) and quenching fluorescence measurements. Furthermore, Circular Dichroism (CD) analyses revealed that protein maintained its secondary structure upon conjugation with the nanoparticles. In vitro tests revealed that the AuNPs/Jacalin complexes presented higher affinity and cytotoxicity against human cervical cancer cell (HeLa) compared to healthy mouse fibroblasts (L929). These results are relevant, since the AuNP-PAMAM G4/Jacalin-FITC complex may be used for biomedical applications including cancer treatment and diagnostics. The second nanocomplex, comprising AuNPs and BeCen1, was chosen due to the ability of BeCen 1 to polymerize in the form of nanometric filaments as a function of temperature. The AuNPs were formed in the presence of the protein using diluted formic acid as reducing agent and the excess of protein was removed by Molecular Exclusion Chromatography. CD analysis showed a decrease in the -helix structures confirmed by FTIR, which may be related to the interaction between the AuNPs and the amide groups of the protein. Light scattering measurements revealed an increase in the turbidity of the dispersions upon increasing the temperature, indicating a change in the arrangement of the AuNPs. Such BeCen-1 induced alignment was confirmed by TEM images. The latter results point to the possibility of fabrication of novel thermoresponsive nanobiocomposites, which are of great relevance for nanodevices applications.
3

Crystal Structure Of Jacalin At 3.0A Resolution

Sankaranarayanan, R 11 1900 (has links) (PDF)
No description available.
4

Further Structural Studies on Jacalin and Genomics Search for Mycobacterial and Archeal Lectins

Abhinav, K V January 2016 (has links) (PDF)
This thesis consists of two parts. The first part is concerned with further structural and related studies of jacalin, one of the two lectins found in jack fruit seeds. The second part deals with the search of mycobacterial and archeal genomes for lectins. The β-prism I fold was identified as a lectin fold through the X-ray analysis of jacalin way back in 1996. Subsequent structural studies on jacalin are described in the first chapter in context of the overall efforts on lectins with particular reference to those on lectins with β-prism I fold. The structure of jacalin has been thoroughly characterized through the analysis of several crystals. The extended binding site of the lectin, made up of the primary binding site and secondary sites A and B, has also been characterized through studies on different jacalin-sugar complexes. However, nuances of jacalin-carbohydrate interactions remain underexplored with respect to two specific issues. The first issue is concerned with the structural basis for the lower affinity of jacalin for β-substituted sugars. The second has to do with the influence of the anomeric nature of the glycosidic linkage on the location of the reducing and non-reducing sugars in disaccharides when interacting with jacalin. Part of the work described in the thesis addresses these two issues. It was surmised that the lower affinity of β-galactosides to jacalin as compared to α-galactosides, is caused by steric interactions of the substituents in the former with the protein. This issue is explored both energetically and structurally in Chapter 2 using appropriately derivatized monosaccharide complexes of jacalin. It turns out that the earlier surmise is not correct. The interactions of the substituent with the binding site remain essentially the same irrespective of the anomeric nature of the substitution. This is achieved through a distortion of the sugar ring in β-galactosides. The difference in energy, and therefore affinity, is caused by the distortion of the sugar ring in β-galactosides. The elucidation of this unprecedented distortion of the ligand as a strategy for modulating affinity is of general interest. The crystal structures also provide a rationale for the relative affinities of the different carbohydrate ligands to jacalin. The crystal structures of jacalin complexed with α-linked oligosaccharides Gal α-(1,4) Gal and Gal α-(1,3) Gal β-(1,4) Gal, as described in Chapter 3, have been determined with the primary objective of exploring the effect of linkage on the location of reducing and non-reducing sugars in the extended binding site of the lectin, an issue which has not been studied thoroughly. Contrary to the earlier surmise based on simple steric considerations, the two structures demonstrate that α-linked sugars can bind to jacalin with non-reducing sugar at the primary binding site. This is made possible substantially on account of the hitherto underestimated plasticity of a non-polar region of the extended binding site. Modelling studies involving conformational search and energy minimization, along with available crystallographic and thermodynamic data, indicate a strong preference for complexation with Gal β-(1,3) Gal with the reducing Gal at the primary site, followed by that with Gal α-(1,3) Gal, with the reducing or non-reducing Gal located at the primary binding site. This observation is in consonance with the facility of jacalin to bind mucin type O-glycans containing T-antigen core. Crystal structures of jacalin in complex with GlcNAc β-(1,3) Gal-β-OMe and Gal β-(1,3) Gal-β-OMe have also been described in Chapter 4. The binding of the ligands to jacalin is similar to that of analogous α-substituted disaccharides. However, the β-substituted β-(1,3) linked disaccharides get distorted at the anomeric centre and the glycosidic linkage. The distortion results in higher internal energies of the ligands leading to lower affinity to the lectin. This confirms the possibility of using ligand distortion as a strategy for modulating binding affinity. Unlike in the case of β-substituted monosaccharides bound to jacalin, where a larger distortion at the anomeric centre was observed, smaller distortions are distributed among two centres in the structures of the two β-substituted β-(1,3) linked disaccharides presented here. These disaccharides, like the unsubstituted and α-substituted counterparts, bind jacalin with the reducing Gal at the primary binding site, indicating that the lower binding affinity of β-substituted disaccharides is not enough to overcome the intrinsic propensity of Gal β-(1,3) Gal based disaccharides to bind jacalin with the reducing sugar at the primary site. Although originally isolated from plants, lectins were also found subsequently in all forms of life, including bacteria. Studies on microbial lectins have not been as extensive as on those from plants and animals, although there have been some outstanding individual investigations on bacterial toxins like ADP-ribosylating toxins and neurotoxins. In addition to bacterial toxins, adhesins, β-trefoil lectins and cyanobacterial lectins form other important subgroups which have been explored using crystallography. Features pertaining to their three dimensional folds, carbohydrate specificity and biological properties are described in Chapter 5, to set the stage for the work discussed in the second part of the thesis. Studies on mycobacterial lectins were unexplored until work was initiated in the area in this laboratory some years ago. One of the lectins, identified on the basis of a bioinformatics search of M. tuberculosis H37Rv genome was cloned, expressed and crystallized. Also cloned, expressed and crystallized is another lectin from M. smegmatis. Biophysical and modelling studies were carried out on the full length protein containing this lectin. However, systematic efforts on mycobacterial lectins were conspicuous by their absence. The first chapter (Chapter 6) in the second part of the thesis is concerned with a genomic search for lectins in mycobacterial genomes. It was also realized that hardly anything is known about archeal lectins. Therefore, as discussed in the final chapter, a genomic search for archeal lectins was undertaken. Sixty-four sequences containing lectin domains with homologs of known three-dimensional structure were identified through a search of mycobacterial genomes and are described in detail in Chapter 6. They appear to belong to the β-prism II, the C-type, the Microcystis virdis (MV), and the β-trefoil lectin folds. The first three always occur in conjunction with the LysM, the PI-PLC, and the β-grasp domains, respectively while mycobacterial β-trefoil lectins are unaccompanied by any other domain. Thirty heparin binding hemagglutinins (HBHA), already annotated, have also been included in the study although they have no homologs of known three-dimensional structure. The biological role of HBHA has been well characterized. A comparison between the sequences of the lectin from pathogenic and non-pathogenic mycobacteria provides insights into the carbohydrate binding region of the molecule, but the structure of the molecule is yet to be determined. A reasonable picture of the structural features of other mycobacterial proteins containing one of the four lectin domains can be gleaned through the examination of homologous proteins, although the structure of none of them is available. Their biological role is yet to be elucidated. The work presented here is among the first steps towards exploring the almost unexplored area of the structural biology of mycobacterial lectins. As mentioned in Chapter 7, forty six lectin domains, which have homologues among well established eukaryotic and bacterial lectins of known three dimensional structure, have been identified through a search of 165 archeal genomes using a multi-pronged approach involving domain recognition, sequence search and analysis of binding sites. Twenty one of them have the 7-bladed β-propeller lectin fold while 16 have the β-trefoil fold and 7 the legume lectin fold. The remainder assumes the C-type lectin, the β-prism I and the tachylectin folds. Acceptable models for almost all of them could be generated using the appropriate lectins of known three dimensional structure as templates, with binding sites at one or more expected locations. The work represents the first comprehensive bioinformatics study of archeal lectins. The presence of lectins with the same fold in all domains of life indicates their ancient origin well before the divergence of the three branches. Further work is necessary to identify archeal lectins which have no homologues among eukaryotic and bacterial species.
5

Caracterização e modificação de membranas de quitosana-PEG com filmes automontados de jacalina e concanavalina A / Characterization and modification of chitosan-PEG membranes with self assembly films of jacalin and concanavalin A

Soares, Andrey Coatrini 07 February 2013 (has links)
O polissacarídeo quitosana é usado em aplicações biológicas, tais como entrega de drogas e engenharia de tecidos como matriz para o crescimento celular, devido à sua biocompatibilidade e biodegradabilidade. Uma das suas utilizações mais frequentes é na forma de membranas obtidas por casting com poli (etileno glicol) (PEG). Neste trabalho, membranas de quitosana-PEG foram modificadas e otimizadas com filmes nanoestruturados de concanavalina A (Con A) e jacalina. O processo de purificação não afetou as propriedades da quitosana, tais como cristalinidade, tamanho de cristalitos, grupos funcionais e grau de acetilação. A única exceção foi a diminuição da massa molecular, provavelmente pela quebra de cadeias por adição de ácido acético à solução. As membranas fabricadas com mistura de quitosana e PEG exibiram superfície mais rugosa, porosa, com energia de superfície mais elevada do que aquelas com quitosana pura. Misturas com 20 e 30% de PEG foram testadas, sendo as que contêm 20% mais adequadas para a funcionalização, devido ao maior tamanho dos poros, de acordo com imagens de microscopia de força atômica. Na funcionalização das membranas de quitosana-PEG com proteínas, o objetivo é obter a cobertura mais uniforme com maior energia de superfície. No processo de otimização, a deposição do filme nanoestruturado de proteína foi confirmada com PM-IRRAS, espectroscopia de fluorescência e dicroísmo circular, e a energia de superfície foi calculada usando o modelo de Owens- Wendt-Rabel-Kaelble a partir dos ângulos de contato para diferentes líquidos. Para Con A e jacalina, propriedades otimizadas foram obtidas com a menor concentração de proteína testada, 0,1 mg/mL, para um tempo de adsorção de 90 minutos. Além disso, o filme de jacalina levou à maior energia de superfície, ou seja, 56,7 mJ/m², comparado com 55,9 mJ/m² para amostras modificadas com Con A. Além disso, sob essas condições de otimização, a atividade da proteína foi mantida por 4 semanas para membranas armazenadas a 4ºC. Portanto, as membranas funcionalizadas são promissoras para crescimento celular e aplicações de engenharia de tecidos / The polysaccharide chitosan is used in various biological applications such as drug delivery and especially in tissue engineering as a matrix for cell growth due to its biocompatibility and biodegradability. One of its most frequent uses is in the form of membranes made via casting blended with poly(ethylene glycol) (PEG). In this work, chitosan-PEG membranes were optimized and modified with nanostructured films of concanavalin A (Con A) and jacalin. The purification process did not affect the chitosan properties, such as crystallinity, crystallite size, functional groups and degree of acetylation. The only exception was a decrease in the molecular mass, probably owing to chain scission by addition of acetic acid to the solution. The membranes made with chitosan and PEG exhibited a rougher, porous surface, with higher surface energy than those with neat chitosan. Blends with 20 and 30% PEG were tested, and those with 20% were considered as more suitable for functionalization owing to the larger size of the pores, according to atomic force microscopy images. The functionalization of the chitosan-PEG membranes with the proteins is aimed at achieving the most uniform coverage with the highest surface energy. In the optimization procedure, the deposition of the protein nanostructured film was confirmed with PM-IRRAS, fluorescence spectroscopy and circular dichroism, while the surface energy was calculated using the Owens-Wendt-Rabel-Kaelble model and the measured contact angles for several liquids. For both Con A and jacalin, optimized properties were obtained with the lowest protein concentration tested, viz. 0.1 mg/mL, for an adsorption time of 90 min. Furthermore, the jacalin film led to the highest surface energy, namely 56.7 mJ/m², to be compared with 55.9 mJ/m² for samples modified with Con A. Under these optimized conditions, the protein activity was kept for ca. 4 weeks if the coated membranes were stored at 4ºC. Therefore, the functionalized membranes are promising for cell growth and tissue engineering applications
6

Efeito da lectina jacalina (artocarpus integrifolia) sobre a sobrevivÃncia e ativaÃÃo in vitro de folÃculos primordiais caprinos / Effect of jacalin lectin (Artocarpus integrifolia) on survival and activation in vitro goat primordial follicles

Regislane Pinto Ribeiro 30 April 2013 (has links)
FundaÃÃo Cearense de Apoio ao Desenvolvimento Cientifico e TecnolÃgico / Os objetivos deste estudo foram investigar o efeito de diferentes concentraÃÃes de jacalina e da interaÃÃo de jacalina e FSH sobre a sobrevivÃncia, ativaÃÃo e expressÃo gÃnica em folÃculos primordiais caprinos cultivados in vitro. Para isto, os fragmentos do cÃrtex ovariano foram cultivados em Meio Essencial MÃnimo (MEM) suplementado com diferentes concentraÃÃes de jacalina (0, 10, 25, 50 e 100 μg/mL - experimento I), por um e seis dias. ApÃs o tÃrmino do perÃodo de cultivo, os fragmentos de cÃrtex ovariano foram fixados para histologia clÃssica. Em seguida, avaliou-se a percentagem de folÃculos primordiais ou em desenvolvimento no controle nÃo cultivado e no tecido ovariano cultivado nos diferentes tratamentos. ApÃs a determinaÃÃo da concentraÃÃo de jacalina mais eficiente (50 μg/mL), realizou-se o cultivo de fragmentos de cÃrtex ovariano em MEM suplementado com a jacalina (50 μg/mL), FSH (50 ng/mL) ou ambos (experimento II). ApÃs 6 dias de cultivo, os fragmentos ovarianos foram fixados para histologia clÃssica. AlÃm disso, para cada tratamento, foram coletadas amostras de tecido para avaliar o perfil de expressÃo de RNAs mensageiros para BMP-15, KL, c-kit, GDF-9 e PCNA em folÃculos ovarianos caprinos cultivado in vitro por 6 dias. Os resultados demonstraram que apÃs seis dias de cultivo, a presenÃa de 50 μg/mL de jacalina no meio de cultivo promoveu um aumento de folÃculos morfologicamente normais, bem como uma reduÃÃo da percentagem de folÃculos primordiais e aumento de folÃculos em desenvolvimento, quando comparado ao meio controle. No experimento II, demonstrou-se que jacalina ou FSH estimulam a ativaÃÃo dos folÃculos e contribuem para a manutenÃÃo da viabilidade, mas nÃo foi observada uma interaÃÃo positiva entres essas duas substÃncias. A expressÃo de RNAm para a BMP-15 e KL apÃs o cultivo in vitro de fragmentos de ovÃrio nos diferentes tratamentos por 6 dias nÃo foi alterada. No entanto, a presenÃa de FSH aumentou os nÃveis de RNAm para o c-kit e para o PCNA, enquanto que o GDF-9 teve sua expressÃo reduzida em meio suplementado com jacalina. Em conclusÃo, jacalina e FSH foram capazes de promover a sobrevivÃncia e ativaÃÃo de folÃculos primordiais caprinos apÃs 6 dias de cultivo. A presenÃa de FSH aumentou a expressÃo do RNAm para PCNA e c-kit, enquanto que a presenÃa da jacalina reduziu a expressÃo do GDF-9. / The aims of this study were to investigate the effect of different concentrations of jacalin and the interaction of jacalin and FSH on survival, activation and gene expression of goat primordial follicles cultured in vitro. For this, fragments of ovarian cortex were cultured in Minimum Essential Medium (MEM) supplemented with different concentrations of jacalin (0, 10, 25, 50 and 100 mg/mL - experiment I) for one and six days. After the end of cultured period, the fragments of ovarian cortex were fixed for histology. Then, the percentage of primordial follicles in uncultured or cultured ovarian tissue in different treatments were evaluated. After determining the most effective concentration of jacalin (50 μg/mL), ovarian cortex fragments were cultured in MEM supplemented with jacalin (50 μg/ml), FSH (50 ng/ml) or both (experiment II). After 6 days of culture, the ovarian fragments were fixed for histology. Furthermore, for each treatment, tissue samples were collected to evaluate the expression profile of mRNA for c-kit, KL, GDF-9, BMP-15 and PCNA in goats ovarian follicles cultured in vitro for 6 days. The results showed that after six days of culture, the presence of 50 μg/ml jacalin in culture medium increased the percentage of normal follicles, and promoted a reduction in the percentage of primordial follicles and increase of developing follicles, when compared to control medium. In experiment II, jacalin or FSH stimulated primordial follicle activation and contributed to maintain follicle viability, but there was no positive interaction between these two substances. The levels of mRNA for BMP-15 and KL after in vitro culture of ovarian fragments in different treatments was not altered. However, the presence of FSH increased levels of mRNA for c-kit and PCNA, while the GDF-9 expression was reduced in medium supplemented with jacalin. In conclusion, jacalin and FSH were able to promote the survival and activation of goat primordial follicles after 6 days of culture. The presence of FSH increased expression mRNA of PCNA and c-kit, while the presence of jacalin reduced the expression of GDF-9.
7

Caracterização e modificação de membranas de quitosana-PEG com filmes automontados de jacalina e concanavalina A / Characterization and modification of chitosan-PEG membranes with self assembly films of jacalin and concanavalin A

Andrey Coatrini Soares 07 February 2013 (has links)
O polissacarídeo quitosana é usado em aplicações biológicas, tais como entrega de drogas e engenharia de tecidos como matriz para o crescimento celular, devido à sua biocompatibilidade e biodegradabilidade. Uma das suas utilizações mais frequentes é na forma de membranas obtidas por casting com poli (etileno glicol) (PEG). Neste trabalho, membranas de quitosana-PEG foram modificadas e otimizadas com filmes nanoestruturados de concanavalina A (Con A) e jacalina. O processo de purificação não afetou as propriedades da quitosana, tais como cristalinidade, tamanho de cristalitos, grupos funcionais e grau de acetilação. A única exceção foi a diminuição da massa molecular, provavelmente pela quebra de cadeias por adição de ácido acético à solução. As membranas fabricadas com mistura de quitosana e PEG exibiram superfície mais rugosa, porosa, com energia de superfície mais elevada do que aquelas com quitosana pura. Misturas com 20 e 30% de PEG foram testadas, sendo as que contêm 20% mais adequadas para a funcionalização, devido ao maior tamanho dos poros, de acordo com imagens de microscopia de força atômica. Na funcionalização das membranas de quitosana-PEG com proteínas, o objetivo é obter a cobertura mais uniforme com maior energia de superfície. No processo de otimização, a deposição do filme nanoestruturado de proteína foi confirmada com PM-IRRAS, espectroscopia de fluorescência e dicroísmo circular, e a energia de superfície foi calculada usando o modelo de Owens- Wendt-Rabel-Kaelble a partir dos ângulos de contato para diferentes líquidos. Para Con A e jacalina, propriedades otimizadas foram obtidas com a menor concentração de proteína testada, 0,1 mg/mL, para um tempo de adsorção de 90 minutos. Além disso, o filme de jacalina levou à maior energia de superfície, ou seja, 56,7 mJ/m², comparado com 55,9 mJ/m² para amostras modificadas com Con A. Além disso, sob essas condições de otimização, a atividade da proteína foi mantida por 4 semanas para membranas armazenadas a 4ºC. Portanto, as membranas funcionalizadas são promissoras para crescimento celular e aplicações de engenharia de tecidos / The polysaccharide chitosan is used in various biological applications such as drug delivery and especially in tissue engineering as a matrix for cell growth due to its biocompatibility and biodegradability. One of its most frequent uses is in the form of membranes made via casting blended with poly(ethylene glycol) (PEG). In this work, chitosan-PEG membranes were optimized and modified with nanostructured films of concanavalin A (Con A) and jacalin. The purification process did not affect the chitosan properties, such as crystallinity, crystallite size, functional groups and degree of acetylation. The only exception was a decrease in the molecular mass, probably owing to chain scission by addition of acetic acid to the solution. The membranes made with chitosan and PEG exhibited a rougher, porous surface, with higher surface energy than those with neat chitosan. Blends with 20 and 30% PEG were tested, and those with 20% were considered as more suitable for functionalization owing to the larger size of the pores, according to atomic force microscopy images. The functionalization of the chitosan-PEG membranes with the proteins is aimed at achieving the most uniform coverage with the highest surface energy. In the optimization procedure, the deposition of the protein nanostructured film was confirmed with PM-IRRAS, fluorescence spectroscopy and circular dichroism, while the surface energy was calculated using the Owens-Wendt-Rabel-Kaelble model and the measured contact angles for several liquids. For both Con A and jacalin, optimized properties were obtained with the lowest protein concentration tested, viz. 0.1 mg/mL, for an adsorption time of 90 min. Furthermore, the jacalin film led to the highest surface energy, namely 56.7 mJ/m², to be compared with 55.9 mJ/m² for samples modified with Con A. Under these optimized conditions, the protein activity was kept for ca. 4 weeks if the coated membranes were stored at 4ºC. Therefore, the functionalized membranes are promising for cell growth and tissue engineering applications
8

Structural Studies On Three-Fold Symmetric Plant Lectins

Sharma, Alok 05 1900 (has links) (PDF)
Lectins, multivalent carbohydrate-binding proteins of non-immune origin, have the unique ability to decode the information contained in complex carbohydrate structures of glycoproteins and glycolipids by stereo-specifically recognizing and binding to carbohydrates and carbohydrate linkages. The ubiquitous distribution of lectins in all forms of life and viruses along with their involvement in various biological processes such as cell-cell communication, host-pathogen interaction, cancer metastasis, embryogenesis, tissue development and mitogenic stimulation further emphasizes the importance of lectins in biological systems. Although not much is known about the endogenous roles of plant lectins, they constitute the most thoroughly studied class of lectins. On the basis of their subunit folds plant lectins have been divided in six major classes. They include jelly roll fold lectins (or legume lectins), hevein domain lectins (or cereal lectins), β-trefoil fold lectins, β-prism II fold lectins (or bulb lectins), β-prism I fold lectins and the most recently discovered lectin homologous to cyanovirin-N (http://www.cermav.cnrs.fr/lectines). Interestingly, of these, lectin subunits harbor an approximate three-fold symmetry in three cases and each subunit is believed to have evolved through successive gene duplication, fusion and divergent evolution. One of the major research activities in this laboratory involves structural studies on plant lectins. Decades of extensive studies in the laboratory have shed light on various structural and functional aspects of lectins such as variability in quaternary association, lectin-carbohydrate interactions, strategies for generating ligand specificity and multivalency. Furthermore, the β-prism I fold was first identified as a lectin fold in this laboratory through the X-ray analysis of the methyl-α-galactose complex of jacalin, one of the two lectins from the seeds of Artocarpus integrifolia. Subsequently, many other lectins with the same fold have been structurally characterized here and else where (http://www.cermav.cnrs.fr/lectines). They include mannose specific tetrameric artocarpin and dimeric banana lectin studied in this laboratory. Also investigated here is the structure of first dimeric β-prism II fold lectin, namely, garlic lectin. The subsequent work, carried out by the author, on the structure and dynamics of three-fold symmetric lectins form the subject matter of this thesis. Different web-servers available at NCBI and EXPASY web sites were used for sequence annotation studies. MRBAYES and MEGA were used for phylogenetic analysis. Molecular dynamics (MD) simulations were carried out using the simulation package GROMACS v.3.3.1. OPLS-AA/L and GLYCAM-06 force fields were used for proteins and carbohydrates respectively. Simulations were performed in explicit water system with TIP4P water model under NPT conditions with unit dielectric constant. The hanging drop method was used for crystallizing banana lectin and its complexes. Intensity data were collected on a MAR 345 image plate mounted on a Rigaku RU200 rotating-anode X-ray generator. The Oxford cryosystem was used when collecting data at low temperature. The data were processed using DENZO and SCALEPACK of HKL suite of programs. The structure factors from the processed data were calculated using TRUNCATE of CCP4 suite of programs. The molecular replacement program MOLREP was used for structure solution. Structure refinements were carried out using the CNS software package and REFMAC of CCP4. Model building was done using the molecular graphics program COOT. INSIGHT II, ALIGN, CONTACT, MUSTANG and SC of CCP4 were used for analysis of structural features. PROCHECK and web-server MOLPROBITY were used for the validation of the refined structures. The β-prism II fold lectins of known structure, all from monocots, invariably have three carbohydrate-binding sites in each subunit / domain. Until recently, β-prism I fold lectins of known structure were all from dicots and they exhibited one carbohydrate-binding site per subunit / domain. However, the recently determined structure of the β-prism I fold lectin from banana, a monocot, has two very similar carbohydrate-binding sites. This prompted a detailed analysis of all the sequences appropriate for the two lectin folds and which carry one or more relevant carbohydrate-binding motifs. The recent observation of a β-prism I fold lectin, griffithsin, with three binding sites in each domain further confirmed the need for such an analysis. The detailed sequence and phylogenetic analysis of all the β-prism I fold lectin or lectin-like sequences, available then, with particular attention to their carbohydrate-binding sites in them, in conjunction with the analysis of available three-dimensional structures demonstrate substantial diversity in the number of binding sites, unrelated to the taxonomical position of the plant source. However, the number of binding sites and the symmetry within the sequence exhibit reasonable correlation. The distribution of the two families of β-prism fold lectins among plants and the number of binding sites in them, appear to suggest that both of them arose through successive gene duplication, fusion and divergent evolution of the same primitive carbohydrate-binding motif involving a Greek key. Analysis with sequences in individual Greek keys as independent units lends further support to this conclusion. It would seem that the prepondence of three carbohydrate-binding sites per domain in monocot lectins, particularly those with the β-prism II fold, is related to the role of plant lectins in defence. Jacalin is the most thoroughly studied β-prism I fold lectin. A wealth of structural and thermodynamic data, mostly from this laboratory, led to a thorough characterization of carbohydrate-recognition in the case of jacalin. One aspect of jacalin that has not been investigated so far was its dynamics. The issue was addressed through reasonably long MD simulations, in explicit solvent system using all atom force field, of all the jacalin-carbohydrate complexes of known structure, models of unliganded molecules derived from the complexes and also models of relevant complexes where X-ray structures are not available. Results of the simulations and the available crystal structures involving jacalin permit delineation of the relatively rigid and flexible regions of the molecule and the dynamical variability of the hydrogen bonds involved in stabilizing the structure. Local flexibility appears to be related to solvent accessibility. Hydrogen bonds involving side chains and water bridges involving buried water molecules appear to be important in the stabilization of loop structures. The lectin-carbohydrate interactions observed in crystal structures, the average parameters pertaining to them derived from simulations, energetic contribution of the stacking residue estimated from quantum mechanical calculations and the scatter of the locations of carbohydrate and carbohydrate-binding residues, are consistent with the known thermodynamic parameters of jacalin-carbohydrate interactions. The simulations, along with X-ray results, provide a fuller picture of carbohydrate binding by jacalin than provided by crystallographic analysis alone. The simulations confirm that in the unliganded structures water molecules tend to occupy the positions occupied by carbohydrate oxygens in the lectin-carbohydrate complexes. Population distributions in simulations of the free lectin, the ligands and the complexes indicate a combination of conformational selection and induced fit. Mannose-specific β-prism I fold lectins, like lectins belonging to other plant families, exhibit interesting variability in their quaternary association. Mannose specific artocarpin and MornigaM are tetrameric, heltuba is octameric in the crystal structure and banana lectin and calsepa are dimeric. The modes of the dimerization in the last two are however, entirely different. This variability was explored through modelling and molecular dynamics simulations based on the known three-dimensional structures. This study, which combines computational approaches and results of X-ray analyses, provides valuable insights into the origin of the variability in quaternary association. MD simulations on individual subunits and the oligomers provide insights into the changes in the structure brought about in the protomers on oligomerization, including swapping of the N-terminal stretch in one instance. The regions which undergo changes also tend to exhibit dynamic flexibility during MD simulations. The internal symmetries of individual oligomers are substantially retained during the calculations. Simulations were also carried out on models using all possible oligomers employing the four different protomers. The unique dimerization pattern observed in calsepa could be traced to unique substitutions in a peptide stretch involved in dimerization. The impossibility of a specific mode of oligomerization involving a particular protomer is often expressed in terms of unacceptable steric contacts or dissociation of the oligomer during simulations. The calculations also lead to a rationale for the observation of a heltuba tetramer in solution although the lectin exists as an octamer in the crystal, in addition to providing insights into relations among evolution, oligomerization and ligand binding. The known crystal structures of banana lectin in its native and ligand bound forms revealed interesting features including the presence of two functional carbohydrate-binding sites per subunit. However, some confusion remained on the role of glycosidic linkage in carbohydrate-binding. The three crystal structures reported in this thesis provide information on details of the interactions of mannose and mannosylα-1,3-mannose with banana lectin and evidence for the binding of glucosyl-α-1,2glucose to the lectin. The known structures involving the lectin include a complex with glucosyl-β-1,3-glucose. Modelling studies on the three disaccharide complexes with the reducing end and the non-reducing end at the primary binding site are also presented here. The results of the X-ray and modelling studies show that the disaccharides with an α-1,3 linkage prefers to have the non-reducing end at the primary binding site while the reducing end is preferred at the site when the linkage is β-1,3 in mannose/glucose specific β-prism I fold lectins. In the corresponding galactose-specific lectins, however, α-1,3 linked disaccharides cannot bind the lectin with the non-reducing end at the primary binding site on account of steric clashes with an aromatic residue which occurs only when the lectin is galactose-specific. MD simulations based on the known structures involving banana lectin enrich the information on lectin-carbohydrate interactions obtained from crystal structures. They demonstrate that conformational selection as well as induced fit operate when carbohydrates bind to banana lectin. Snake gourd seed lectin (SGSL) isolated from Trichosanthes anguina is a glycosylated, galactose-specific, non-toxic lectin similar to type II ribosome inactivating proteins (RIPs) with a molecular weight of ~53kDa. It was established through preliminary X-ray studies that chain A with molecular weight of ~23kDa adopts the same fold as that of type I RIPs and the toxic chain of type II RIPs. Chain B with molecular weight ~32kDa has two β-trefoil fold domains and is responsible for the lectin activity of the protein. The two chains are connected with a disulphide bond. The sequence of the protein could not be determined using conventional methods despite extensive effort. It was derived from X-ray data at 2.4 Å resolution, which was used for structure analysis. The non-toxicity of SGSL appears to result from a combination of changes in the catalytic site in chain A and sugar-binding site in chain B. Detailed analysis of the sequences of type II RIPs of known structure and their homologues with unknown structure, provide valuable insights into the evolution of this class of proteins. It also indicates some variability in carbohydrate-binding sites, which appears to contribute to different levels of toxicity exhibited by lectins from various sources. In addition to the work on plant lectins, the author was also involved in studies on the crystal structures of the adipic acid complexes of L- and DL-Lysine. This investigation is presented in an appendix. A part of the work presented in the thesis has been reported in the following publications. Sharma, A., Thamotharan, S., Roy, S., & Vijayan, M. (2006). X-ray studies of crystalline complexes involving amino acids and peptides. XLIII. Adipic acid complexes of L- and DL-lysine. Acta Cryst, C62, o148-o152. Sharma, A., Chandran, D., Singh, D.D., & Vijayan, M. (2007). Multiplicity of carbohydrate-binding sites in beta-prism fold lectins: occurrence and possible evolutionary implications. J Biosci, 32, 1089-1110. Sharma, A., Sekar, K., & Vijayan, M. (2009). Structure, dynamics, and interactions of jacalin. Insights from molecular dynamics simulations examined in conjunction with results of X-ray studies. Proteins, 77, 760-777.
9

Efeito adjuvante e potencial imunoestimulador das lectinas de Artocarpus integrifolia (KM+ e Jacalina) e Synadenium carinatum (ScLL) na imunização de camundongos contra Neospora caninum

Cardoso, Mariana de Resende Damas 25 February 2011 (has links)
Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Lectins are proteins that bind specifically to carbohydrates and have important role in modulation of the immune response. KM+ and Jacalin (JAC) are lectins from the seeds from jackfruit (Artocarpus integrifolia) and ScLL is a lectin from the Synadenium carinatum latex. Neospora caninum is an apicomplexan parasite that causes neuromuscular disease in dogs and reproductive disorders in cattle, with serious economic impact on the livestock industry. The immunestimulatory role of plant lectins has been investigated in several parasitic infections, but not in neosporosis. This study aimed to evaluate the adjuvant effect and the immunestimulatory potential of KM+, JAC and ScLL in immunization of mice against neosporosis. C57BL 6 mouse groups were subcutaneously immunized three times at 15-day intervals with Neospora lysate antigen (NLA) associated with lectins (NLA+KM, NLA+JAC and NLA+ScLL groups), NLA alone, lectins alone (KM, JAC and ScLL groups), and PBS group (infection control). Animals were challenged with Nc-1 isolate (2x107 tachyzoites) and evaluated for morbidity, mortality, specific antibody response, cytokine production by spleen cells, cerebral parasite burden and histopathological lesions. Serological assays demonstrated higher levels of IgG to N. caninum for NLA+KM and NLA+ScLL than NLA+JAC and NLA groups. NLA+KM group induced higher levels of IgG2a isotype whereas NLA+ScLL induced higher levels of IgG1 isotype. In all groups, IgG1 response was higher than IgG2a response before and after challenge, but the IgG2a/IgG1 ratio increased after challenge in NLA+KM, NLA+ScLL and KM groups. Cytokine production after in vitro antigenic stimulation showed that NLA+KM induced high levels of IFN-g and IL-10, presenting the highest IFN-g/IL-10 ratio, followed by NLA+ScLL group, indicating a pattern of immune response toward Th1 type. NLA+JAC induced low levels of these cytokines and the lowest IFN-g/IL-10 ratio in relation to other groups, indicating a profile of Th2 type immune response. After parasite challenge, NLA+KM mice showed the highest survival with low brain parasite burden and moderate tissue inflammation, whereas NLA+ScLL mice presented intermediate survival with low brain parasite burden and low scores of morbidity and inflammation. NLA+JAC group exhibited intermediate survival, but with the highest brain parasite burden and mild inflammation. In conclusion, KM+ and ScLL lectins showed suitable adjuvant effect by increasing NLA immunogenicity and immunostimulatory role by conferring partial protection of mice immunized and challenged with lethal dose of N. caninum, while the JAC lectin showed no adequate adjuvant effect in the immunization against neosporosis. / Lectinas são proteínas que se ligam especificamente a carboidratos e possuem importantes papéis na modulação da resposta imune. KM+ e Jacalina (JAC) são lectinas da semente da jaca (Artocarpus integrifolia) e ScLL é uma lectina do látex da planta Synadenium carinatum. Neospora caninum é um parasito do filo Apicomplexa que causa doença neuromuscular em cães e desordens reprodutivas em bovinos, causando sério impacto econômico na indústria agropecuária. O papel imunoestimulador de lectinas de plantas tem sido investigado em diversas infecções parasitárias, mas não na neosporose. Esse estudo teve como objetivo avaliar o efeito adjuvante e o potencial imunoestimulador de KM+, JAC e ScLL na imunização de camundongos contra a neosporose. Grupos de camundongos C57BL/6 foram imunizados subcutaneamente por três vezes, em intervalos de quinze dias, com o antígeno de lisado total de Neospora (NLA) associado com as lectinas (grupos NLA+KM, NLA+JAC, NLA+ScLL), NLA somente, lectinas somente (KM, JAC e ScLL), além do grupo PBS (controle da infecção). Os animais foram desafiados com isolado Nc-1 (2x107 taquizoítas) e avaliados quanto aos escores de morbidade, mortalidade, resposta imune humoral específica, produção de citocinas por células do baço, carga parasitária cerebral e lesões histopatológicas. Resultados sorológicos demonstraram maiores níveis de IgG anti N. caninum produzidos pelos animais dos grupos NLA+KM e NLA+ScLL que NLA+JAC e NLA somente. O grupo NLA+KM induziu maiores níveis do isotipo IgG2a, enquanto NLA+ScLL induziu maiores níveis do isotipo IgG1. Em todos os grupos, a resposta de IgG1 foi maior do que de IgG2a antes e após o desafio, porém a razão IgG2a/IgG1 aumentou após o desafio nos grupos NLA+KM, NLA+ScLL e KM. A produção de citocinas após o estímulo antigênico in vitro demonstrou que NLA+KM induziu altos níveis de IFN-g e IL-10, apresentando a maior razão IFN-g/IL-10, seguido pelo grupo NLA+ScLL, indicando um padrão de resposta imune direcionado ao perfil Th1. NLA+JAC induziu baixos níveis destas citocinas e menor razão IFN-g/IL-10 em relação aos demais grupos, indicando um padrão de resposta imune do tipo Th2. Após o desafio com o parasito, camundongos do grupo NLA+KM apresentaram a maior sobrevida com baixa carga parasitária cerebral e moderada inflamação tecidual, enquanto animais imunizados com NLA+ScLL apresentaram sobrevida intermediária com baixa carga parasitária cerebral e baixos escores de morbidade e inflamação. O grupo NLA+JAC exibiu sobrevida intermediária, mas com alta carga parasitária cerebral e suave inflamação. Em conclusão, as lectinas KM+ e ScLL mostraram ser adjuvantes satisfatórios por aumentar a imunogenicidade do NLA e apresentaram efeito imunoestimulador por conferir proteção parcial dos camundongos imunizados e desafiados com dose letal de N. caninum, enquanto a lectina Jacalina não produziu efeito adjuvante suficiente na imunização contra a neosporose. / Mestre em Imunologia e Parasitologia Aplicadas
10

Avaliação de frações antigênicas da forma metacestódea de Taenia saginata no imunodiagnóstico da neurocisticercose humana

Oliveira, Heliana Batista de 16 May 2008 (has links)
Application of Taenia saginata metacestodes as alternative antigen is an important alternative for neurocysticercosis (NC) serodiagnosis. The cross reaction with Echinococcus granulosus infection occurred in homologous and heterologous antigens, and could be avoid with different purified methods. This study analyzed antigen fractions obtained from crude saline extract of T. saginata metacestodes purified by affinity chromatography with the lectin jacalin (unbound and bound fraction), concanavalin A (unbound and bound fraction), concanavalin A using jacalina unbound fraction (unbound and bound fraction) and N-acetil (unbound and bound fraction). The fraction were tested for the detection of IgG antibodies by enzyme linked immunosorbent assay (ELISA) and immunoblot for the laboratory diagnosis of human NC. The application of T. saginata metacestodes as an alternative antigen for use in ELISA and WB tests compared with the metacestodes antigen of Taenia solium in CFS samples was also analyzed. Serum samples were obtained from 142 individuals: 40 were diagnosed with NC, 62 presented Taenia sp. and other parasitic diseases and 40 were apparently healthy individuals. The CSF samples were obtained from 35 patients with definitive neurocysticercosis; and 35 patients with other neurological disorder. Among the fractions, unbound concanavalin A demonstrated statically higher sensitivity and specificity by ELISA (90% and 93.1 %, respectively). By Immunoblot, the concanavalin unbound showed 100% of sensitivity and specificity, where only serum samples from patients with NC recognized the protein of 64-68 kDa, so this antigen fraction may be used as specific antigen for diagnosis of NC. The sensitivity and specificity of ELISA using antigen obtained from T. solium applied to CSF samples results of 100%. When the tests were conducted using T. saginata metacestodes, results were 100% and 94.3%, respectively. The 47-52, 64-68 and 70 kDa antigens were recognized by only CSF samples from patients with NC. The results indicated that T. saginata metacestodes can be used as alternative antigen for NC diagnosis using LCR samples. / A utilização de metacestódeos de Taenia saginata como antígeno alternativo constitui uma importante ferramenta no sorodiagnóstico da neurocisticercose humana (NC). A reatividade cruzada com indivíduos infectados por Echinococcus granulosus é comum em antígenos homólogos e heterólogos, podendo ser evitada com diferentes métodos de purificação. O presente estudo analisou as diferentes frações antigênicas obtidas, a partir do extrato salino total de metacestódeos de T. saginata, por cromatografia de afinidade em coluna de Jacalina (fração ligante e não ligante), de Concanavalina A (fração ligante e não ligante), de Concanavalina A utilizando a fração não ligante de Jacalina (fração ligante e não ligante) e Coluna de N-acetil (fração ligante e não ligante). As frações foram avaliadas quanto a detecção de anticorpos IgG anti-metacestódeos de Taenia solium nos testes ELISA e Immunoblotting. Foi avaliada a utilização do extrato salino total de metacestódeos de T. saginata como antígeno alternativo nos testes ELISA e Immunoblotting para detecção de anticorpos IgG no LCR. Foram obtidas 142 amostras de soro, sendo 40 de pacientes com diagnóstico definitivo de NC, 62 de indivíduos infectados por Taenia sp e por outros parasitos e 40 de indivíduos saudáveis. Foram coletadas 70 amostras de LCR, sendo 35 de pacientes com diagnóstico definitivo de NC e 35 de indivíduos com outras manifestações neurológicas. Entre todas as frações analisadas, a fração não ligante de Concanavalina A demonstrou maior sensibilidade e especificidade pelo teste ELISA em amostras de soro (90% e 93,1%, respectivamente). Pelo Immunoblotting esta mesma fração demonstrou 100% de sensibilidade e especificidade, sendo que apenas pacientes com NC reconheceram a banda especifica de 64-68 kDa, indicando que esta fração antigênica pode se usada como antígeno especifico no sorodiagnóstico da NC humana. A sensibilidade e especificidade do teste ELISA utilizando o antígeno homólogo no LCR humano foi de 100%. Quando este teste foi conduzido com o antígeno heterólogo obteve-se 100% de sensibilidade e 94,3% de especificidade. Na reação de Immunoblotting as bandas antigênicas de 47-52, 64-68 e 70 kDa foram reconhecidas exclusivamente no LCR de pacientes com NC. Os resultados conferem ao extrato salino de T. saginata sensibilidade e especificidade para ser utilizado como antígeno alternativo para o diagnostico da NC no LCR. / Doutor em Imunologia e Parasitologia Aplicadas

Page generated in 0.0584 seconds