61 |
Inflammatory mechanisms in experimental neonatal brain injury and in a clinical study of preterm birth : involvement of galectin-3 and free radical formation /Doverhag, Christina, January 2010 (has links)
Diss. (sammanfattning) Göteborg : Göteborgs universitet, 2010. / Härtill 3 uppsatser. På spikbladet med titel : Inflammation in experimental neonatal brain injury and in a clinical study of preterm birth : involvement of galectin-3 and free radical formation.
|
62 |
Regulation of receptor signaling and membrane trafficking by beta1,6-branched n-glycans and caveolin-1/cholesterol membrane domain organizationLajoie, Patrick 05 1900 (has links)
Modification by glycosylation gives proteins a range of diverse functions reflecting their structural variability. N-glycans regulate many biological outcomes in mammalian cells under both normal and pathological conditions. They play a major role in various pathologies such as cancer and lysosomal storage diseases. Interplay between N-glycans and other regulators, such as membrane lipid domains, in the control of signaling pathways remains poorly understood. My thesis therefore focuses on how N-glycans and membrane lipid domains oppose and/or work together at different cellular levels to regulate various processes such as receptor signaling and diffusion, endocytosis and lysosomal organelle biogenesis.
Mgat5 encodes for ß1,6-N-acetylglucosaminyltransferase V that produces N-glycans, the preferred ligand for galectins. In tumor cells, galectins bind glycosylated receptors at the cell surface forming a lattice, that restricts receptor endocytosis and enhances its residency at the plasma membrane. In the first part of my thesis, I report that Galectin/receptor crosslinking opposes receptor sequestration by oligomerized caveolin-1 (Cav1) domains overriding its negative regulation of epidermal growth factor receptor (EGFR) signaling, cell surface diffusion and tumor growth. These results identify Cav1 as a conditional tumor suppressor.
I also demonstrate that Cav1 is a negative regulator of lipid raft-mediated endocytosis. Cav1 indirectly regulates the internalization of cholera toxin b subunit to the Golgi apparatus independently of caveolae formation. That identifies a new role for caveolin-1 outside caveolae in the regulation of raft-dependent endocytosis
Finally, Mgat5 overexpression in pneumocytes is associated with the expression of a lysosomal organelle, the multilamellar body (MLB), via autophagy. MLB expression is also a characteristic of various lysosomal storage diseases. I demonstrate that cholesterol accumulation can override the need for Mgat5 overexpression in MLB formation indicating that they may form via multiple mechanisms. However, I also demonstrate that a contribution of the autophagic pathway is a common determinant of biogenesis of MLB of various lipid compositions.
In conclusion, Mgat5-dependent protein glycosylation and Cav1/raft domains therefore both function as regulators of plasma membrane interactions, endocytosis and lysosomal organelle biogenesis. Understanding of this interplay is crucial for the understanding of the mechanisms involve in various pathologies such as cancer and lysosomal storage diseases.
|
63 |
Characterization of peptides and phage that bind galectin-3 selected from bacteriophage display libraries a study of the role of galectin-3 in metastasis-associated cancer cell adhesion /Zou, Jun, January 2005 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 2005. / "December 2005" The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Vita. Includes bibliographical references.
|
64 |
Avaliação imunoistoquímica das galectinas -1, -3 e -7 em carcinoma epidermóide de lábioAlmeida, Maria Manuela Rodrigues de Lemos 27 February 2014 (has links)
Made available in DSpace on 2015-05-14T12:56:03Z (GMT). No. of bitstreams: 1
arquivototal.pdf: 2601299 bytes, checksum: 03c727557f510c297974aa71ae47105c (MD5)
Previous issue date: 2014-02-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The oral cancer is a major cause of morbidity and mortality worldwide. In Brazil, 15,000 new cases are expected for the year 2014. Lip squamous cell carcinoma features are similar to skin lesions and have as main etiological agent, the chronic sun exposure. The galectins -1, -3 and -7 are proteins involved in tumorigenesis and have been investigated due to changes in their expressions in oral cancer. The objective of this study was to evaluate the expression by Immunohistochemistry of galectins-1, -3 and -7 in 30 cases of lip squamous cell carcinoma, making the correlation with clinical data, histological grading of malignancy through the proposed systems for Bryne (1998) and WHO (2005). The parameters analyzed and expression of galectins -1, -3 and -7 were subjected to statistical analysis (Chi-square, Fisher exact test and test for comparison of Binomial proportions). There was no expression of galectin -1 in 93.3% of cases, showing statistically significant correlation (p = 0.0356) between histological grading of malignancy proposal by WHO and the marked cell type. There was no statistically significant correlation between the galectin -3 with none of the evaluated parameters. Expression of galectin-7 was present in all cases evaluated and showed statistical significance between the marked cell type and regional metastasis (p=0,0000) and between the marked cell type and histological grading proposal for Bryne. Changes in the expression of galectinas -1, -3 and -7 suggest the participation of these proteins in carcinogenesis. We conclude, through the results of this research, that the expression of these proteins in squamous cell carcinoma of lip can act as a marker of biological behaviour of this type of lesion. / O câncer oral é uma importante causa de morbidade e mortalidade em todo o mundo. No Brasil, são esperados quinze mil novos casos para o ano de 2014. O carcinoma epidermóide de lábio apresenta características semelhantes a lesões de pele e tem como principal agente etiológico a exposição solar crônica. As galectinas -1, -3 e -7 são proteínas envolvidas na tumorigênese e têm sido investigadas devido a mudanças em suas expressões em casos de câncer oral. O objetivo deste estudo foi avaliar a expressão através da imunoistoquímica das galectinas -1, -3 e -7 em 30 casos de carcinoma epidermóide de lábio, fazendo a associação com os dados clínicos, gradação histológica de malignidade através dos sistemas propostos por Bryne (1998) e OMS (2005). Os parâmetros analisados e a expressão das galectinas -1, -3 e -7 foram submetidas a análise estatística (teste do qui-quadrado, teste exato de Fisher e teste Binomial para a comparação de proporções). Houve expressão da galectina -1 em 93,3% dos casos, apresentando associação estatisticamente significativa (p=0,0356) entre a gradação histológica de malignidade proposta pela OMS e o tipo celular marcado. Não houve associação estatisticamente significante entre a galectina -3 com nenhum dos parâmetros avaliados. A imunoexpressão da galectina -7 esteve presente em todos os casos avaliados e exibiu significância estatística entre o tipo celular marcado e metástase regional (p=0,0000) e entre o tipo celular marcado e a gradação histológica proposta por Bryne. Alterações na expressão das galectinas -1, -3 e -7 sugerem a participação dessas proteínas na carcinogênese. Concluímos, através dos resultados da presente pesquisa, que a imunoexpressão dessas proteínas em carcinoma epidermóide de lábio possa atuar como marcador do comportamento biológico deste tipo de lesão.
|
65 |
Mécanismes de régulation post-transcriptionnelle de l'expression des mucines par la galectine-3 / Mechanisms of post-transcriptional regulation of mucins expression by galectin-3Coppin, Lucie 12 June 2017 (has links)
L’adénocarcinome pancréatique canalaire s’accompagne d’une néoexpression de la mucine membranaire MUC4 et d’une surexpression des mucines membranaires MUC1 et MUC16. Ces O-glycoprotéines de haut poids moléculaire sont codées par des ARNm possédant des particularités inhabituelles par rapport aux autres transcrits humains, comme une longue demi-vie et une très grande taille. La galectine-3, une lectine endogène également surexprimée au cours du cancer pancréatique, exerce de très nombreuses fonctions biologiques, en particulier dans le domaine du trafic intracellulaire des glycoprotéines et de l’épissage des pré-ARNm. Cependant, l’implication de cette galectine à un autre niveau du cycle de vie des ARNm n’avait pas été explorée jusque-là dans la littérature. De précédents travaux du laboratoire ont démontré que la suppression de l’expression de la galectine-3 dans la lignée cellulaire cancéreuse pancréatique humaine CAPAN-1 s’accompagne d’une diminution de l’expression des transcrits de certaines mucines membranaires. L’objectif de ce travail a donc été d’étudier les mécanismes de régulation de l’expression des mucines membranaires, et plus particulièrement MUC4, par la galectine-3.Nous avons démontré que la galectine-3, in vitro, régule l’expression de MUC4 au niveau post-transcriptionnel en stabilisant les transcrits de cette mucine. Ceci passe par la potentialisation de la fixation de la RNA Binding Protein hnRNP-L sur l’élément cis-régulateur CA repeat présent dans le 3’UTR de MUC4. Nos résultats indiquent que cette régulation est présente in vivo au niveau physiologique dans des tissus épithéliaux digestifs murins. Par ailleurs, nous avons mis en évidence que la galectine-3 interagit avec hnRNP-L dans le cytoplasme mais qu’elle interagit faiblement avec des marqueurs de P-Bodies ou de granules de stress. Concernant le rôle de la galectine-3 dans le cycle de vie des ARNm, nos données révèlent que celle-ci se lie à aux transcrits matures de MUC4 au niveau périnucléaire, probablement dans des granules de stockage qui ne sont ni des granules de stress ni des P-bodies et dont le type reste à déterminer. Nous avons également élargi nos résultats en étudiant l’implication de cette lectine dans le métabolisme d’autres ARNm et nos analyses indiquent que la galectine-3 serait impliquée dans la régulation post-transcriptionnelle positive ou négative d’un ensemble de transcrits dont les fonctions convergent vers les voies UPR (Unfolded protein response) et ERAD (Endoplasmic-reticulum-associated protein degradation) mais également plus généralement vers le processing des protéines en réponse au stress du réticulum endoplasmique.En conclusion, nos travaux mettent en évidence un nouveau rôle de la galectine-3 en tant que RNA binding protein dans la stabilisation des ARNm de MUC4 mais aussi un nouveau rôle dans la coordination de l’expression de répertoires de transcrits matures ayant des rôles biologiques communs (RNA regulon) permettant à la cellule de s’adapter au plan morphologique, métabolique et biologique à des changements physiopathologiques. Ceci renforce les interconnexions largement décrites dans la littérature entre mucines, galectine-3 et les grandes fonctions cellulaires qui sont perturbées en situation cancéreuse. / Pancreatic ductal adenocarcinoma is characterized by a neo expression of the membrane-bound mucin MUC4 and an overexpression of membrane-bound mucins MUC1 and MUC16. These high molecular weight O-glycoproteins are encoded by mRNA sharing unusual features among human transcripts, such as a long half-life and a very large size. Galectin-3, an endogenous lectin frequently over-expressed in pancreatic cancer, has many biological functions, especially in intracellular glycoprotein trafficking and pre-mRNA splicing. However, the involvement of this lectin in another step of mRNA life cycle has not been explored in literature yet. Previous works performed in the laboratory have demonstrated that LGALS3 gene knock-down in a human cancerous pancreatic cancer cell line is followed by a decrease of the expression of several membrane-bound mucin mRNAs. The aim of this present work was to study the mechanism of the regulation of mucins expression, especially for MUC4, by galectin-3.We have demonstrated that galectin-3, in vitro, regulates MUC4 expression at the post-transcriptionnal level through the stabilization of the transcripts of this mucin. Galectin-3 potentiates the binding of hnRNP-L, a RNA-Binding protein, on the CA repeat region present in MUC4 3’UTR. Our results show that this regulation occurs physiologically in vivo in mice digestive epithelial tissues. Moreover, we have demonstrated that galectin-3 interacts with hnRNP-L in cell cytoplasm but scarcely with protein markers of P-Bodies or stress granules markers. Regarding the influence of galectin-3 in mRNA life cycle, our results suggest that it binds to mature MUC4 transcripts in the perinuclear area, probably in storage granules whose type should to be determined. We have also broadened our results by studying this lectin’s involvement in the metabolism of other mRNA. Our analyzes suggest that galectin-3 could be involved in the positive or negative post-transcriptionnal regulation of a mRNA subset whose functions are linked to unfolded protein response (UPR) and Endoplasmic-reticulum-associated protein degradation (ERAD) pathways, but also more generally towards protein processing in response to endoplasmic reticulum stress.In conclusion, our work highlights a new function for galectin-3 as a RNA binding protein in the stabilization of MUC4 mRNA, but also a new function in the coordination of the expression of repertories of mature transcripts with shared functions or (RNA regulon) allowing morphological, biological and metabolic cell adaptation to physiopathological changes. These results strengthen the interplay between mucins, galectin-3 and cellular functions which are disturbed in cancer.
|
66 |
Glykobie nádorů hlavy a krku / Glycobiology of the head and neck cancerValach, Jaroslav January 2014 (has links)
iii Abstract Glycobiology represents a very progressive subject of cell biology. Protein-saccharide interactions play not only supporting and cell organization role, but they also represent medium for information storage and its decoding. Galectins, group of animal lectins (saccharide-binding proteins), which have selective affinity to ß-galactosides, are multifactorial molecules. They participate in cell-cell and cell-matrix interaction, transmembrane signaling, apoptosis, pre- mRNA splicing and are also present in various types of carcinomas. High expression of galectin-1 has been detected in cancer stroma originated from squamous cell epithelium. In the previous study we established that the fibroblasts - myofibroblasts transition, apart from the known TGF- beta, is also induced by galectin-1. We compared relationship between galectin-1 expression, presence of myofibroblasts and gene expression in tissue samples from patients with head and neck squamous cell carcinoma. Cancer stroma with myofibroblasts was rich in galectin-1 expression in comparison with stroma without myofibroblasts. Moreover, we used microarray analysis (ILLUMINA) to compare the whole genome transcriptome from samples with and without presence of galectin-1. High expression of galectin-1 in tissue samples corresponded with expression...
|
67 |
Interações moleculares no mecanismo de ação da galectina-4 humana / Molecular interactions on mechanism action of human galectin-4Patricia Suemy Kumagai 23 March 2016 (has links)
A galectina-4 humana (HGal-4), pertencente à família das galectinas, possui dois domínios de reconhecimento de carboidratos (CRDs) com alta afinidade para β-galactosídeos e se encontra amplamente distribuída em células normais e neoplásicas de diferentes organismos. Suas funções snglobam uma grande variedade de eventos celulares, tais como processos inflamatórios, neoplásicos, progressão tumoral e metástase. Entretanto, muitas perguntas sobre suas interações com diferentes carboidratos, a especificidade destas interações e o papel específico das galectinas permanecem ainda sem resposta. No presente trabalho, propomos a investigação das interações galectina-glicano da galectina-4 humana e de seus domínios CRDs independentes (CRD-I e CRD-II) através de um conjunto de métodos biofísicos. Através do método de dicroísmo circular (CD), usando várias regiões espectrais, e fluorescência fomos capazes de entender mudanças ocorrentes na estrutura secundária e terciária das protéinas quando da interação com lactose/sacarose. Estes dados, juntamente com testes de hemaglutinação, mostraram que a glectina-4 e os CRDs respondem de forma distinta à ligação com açúcar. Por diferentes técnicas (fluorescência, ITC e MST) determinamos as constantes de dissociação para os domínios CRDs (Kd ~0,5 mM) e para HGal-4 e, de forma qualitativa, os valores obtidos indicaram possíveis estados oligoméricos dessas proteínas. A investigação da interação proteína-membrana da HGal-4 foi feita, primeiramente, com miméticos de membranas e monitorada pela técnica de RPE em crescente complexidade de composição de tais miméticos, indo desde composições mais simples, passando por lipid rafts na presença de diferentes glicolipídeos (GM1, LPS) e chegando-se à interação com células tumorais (U87MG, T98G e HT-29). Tais experimentos mostraram que galectina-4 reconhece e se liga naqueles modelos onde existem glicanos complexos na superfície. Investigamos também a participação de HGal-4 endógena e exógena no tratamento quimioterápico de células tumorais e verificamos um papel importante de HGal-4 para células HT-29. Finalizando esta tese, apresentamos o trabalho realizado em um ano de estágio na University of Oxford, durante o qual, investigamos a estrutura da região C-terminal de um receptor da família GPCR, qual seja o receptor de neurotensina NTS1. Aqui, mais uma vez, foi empregada a técnica de RPE que aliada à produção/marcação de mutantes do receptor, permitiu determinar que a hélice H8 se estabiliza quando em proteolipossomos. / Human galectin-4 (HGal-4), a member of the galectin family, contains two carbohydrate recognition domains (CRDs) with high affinity for β-galactosides and is widely distributed in normal and neoplastic cells of different organisms. Its functions include a wide variety of cellular events such as inflammation, cancer, cell adhesion, tumor progression and metastasis. However, many questions about their interactions with different carbohydrates, the specificity of these interactions and the specific role of galectins remain unanswered. In this study, we propose the investigation of galectin-glycan interactions of human galectin-4 and its independent CRDs (CRD-I and-II) through a combination of biophysical methods. From circular dichroism (CD), measured in different spectral ranges, and fluorescence experiments we were able to understand changes in secondary and terciary structure of the protein while interacting with lactose/sucrose. These results along with hemagglutination assays showed that galectin-4 and its CRDs respond differently to sugar binding. From fluorescence, ITC and MST measurements we determined the dissociation constants for the CRDs (Kd ~0.5 mM) and for HGal-4. These values qualitatively indicated the formation of potential oligomers of CRDs and of HGal-4. The investigation of the HGal-4 interaction with membranes was firstly performed using mimetic membranes and monitored by EPR spectroscopy. The composition of the mimetic membranes was gradually increased so that to span simple compositions (such as DMPC), passing by lipid rafts in the presence of different glycolipds (GM1, LPS) up to interactions with tumor cells (U87MG, T98G e HT-29). These experiments showed that galectin-4 recognizes and binds to membrane models constituted by complex glycans on their surface. We also investigated the involvement of endogenous and exogenous HGal-4 in chemotherapies of tumor cells and found an important role of HGal-4 in the case of HT-29 cells. At last, we presented the work done in an one-year internship at the University of Oxford, during which we investigated the C-terminal region of the GPCR family receptor, the neurotensin receptor NTS1. Here, we used once again the EPR technique combined with the production/spin-labelling of mutants of the receptors, and determined that helix H8 was stabilized upon receptor reconstitution in proteolipossomes.
|
68 |
Analise de possiveis mecanismos e consequencias funcionais da expressão de galectina-3 em celulas de glioma expostas a condições hipoxicas / Analysis of possible mechanisms and functional consequences of galectin-3 expression in glioma cells exposed to hypoxiaIkemori, Rafael Yamashita 13 August 2018 (has links)
Orientador: Liana Maria Cardoso Verinaud, Roger Chammas / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-13T19:24:03Z (GMT). No. of bitstreams: 1
Ikemori_RafaelYamashita_M.pdf: 4516080 bytes, checksum: 6a332c77058e884f308075bb69496592 (MD5)
Previous issue date: 2009 / Resumo: Gliomas são tumores primários do sistema nervoso central e o glioblastoma multiforme é sua forma clínica mais comum e de pior prognóstico. Na tentativa de entender sua biologia, a linhagem NG97 foi estabelecida, demonstrando características de glioblastoma com atipia nuclear e elevadas taxas de mitose.
Recentemente, descobriu-se que esta é uma linhagem híbrida humano-murina derivada da fusão de células de astrocitoma humano e estroma murino que provavelmente ocorreu no processo de estabelecimento desta linhagem, a qual foi posteriormente denominada NG97ht.
Esta linhagem apresenta crescimento de massas tumorais quando inoculada em camundongos imunodeficientes, demonstrando características histopatológicas de pseudopaliçada, comuns a glioblastomas. Estas são regiões hipercelulares que margeiam ambientes necróticos e postula-se que sejam células migrantes de ambientes necróticos/hipóxicos.
Além disso, estas áreas têm como característica a expressão de moléculas relacionadas à adaptação a hipóxia, como o fator induzido por hipóxia (HIF), atuando na sobrevivência celular pela indução de diferentes genes. É visto que em hipóxia há aumento da produção de galectina-3, a qual está envolvida em diversos processos celulares e que é somente expressa nestas regiões de pseudopaliçada, não sendo detectada em suas áreas tumorais adjacentes.
A galectina-3 é uma lectina que possui ligação a beta-galactosídeos e se relaciona com o aumento da mobilidade, adesão, crescimento e progressão tumoral. Além disso, estudos indicam que em alguns tipos tumorais, a metilação do promotor de galectina-3 é responsável pela modulação de sua expressão. Nossos resultados apresentados neste trabalho demonstraram que a hipóxia é capaz de modular positivamente a expressão de galectina-3, tanto em câmara de hipóxia quanto em cloreto cobaltoso, composto químico capaz de mimetizar a hipóxia, apresentando aumento de expressão de galectina-3 em meio completo ou privado de soro fetal bovino, mimetizando ambientes necróticos com pouco oxigênio e nutrientes. Além disso, foi demonstrado que a regulação da expressão gênica de galectina-3 in vitro e in vivo não é realizada pela metilação de seu promotor.
Ensaios utilizando a técnica de interferência por RNA demonstraram que o knockdown de galectina-3, em situação in vitro com privação de oxigênio e nutrientes, induziu aumento das taxas de morte celular. Estes dados podem indicar também que a galectina-3 protege as células tumorais dentro de ambientes necróticos em glioblastomas, criando as áreas de pseudopaliçada.
Em conclusão, estes experimentos demonstram as propriedades da galectina-3 de proteção contra a morte em privação de oxigênio e nutrientes, comuns dentro de tumores, destacando sua importância como alvo para agentes anti-neoplásicos. / Abstract: Gliomas are primary Central Nervous System tumors. Among them, glioblastomas are the most common clinical forms and have the worst prognosis. In an attempt to understand glioma biology, the NG97 cell line was established. This cell line presents glioblastoma's characteristics, showing nuclear atipia and high growth rate.
Recently, it was discovered that this is a human-murine hybrid cell line derived from the fusion between human astrocytoma and murine stroma cells that likely occurred in the process of cell line establishment. The cell line was therefore renamed NG97ht.
This cell line grows as tumors in immunodeficient mice displaying histopathological characteristics of pseudopalisades commonly seen in glioblastomas. These areas are comprised by hypercellular regions in the edge of necrotic environments and are possibly constituted by actively migrating cells out of necrotic/hypoxic environments. Besides, these pseudopalisades show the expression of molecules related to adaptation to oxygen deprivation, like Hypoxia Inducible Factor (HIF), which is involved in cell survival through the induction of many genes. Also, it has been shown that under hypoxia, galectin-3 production is stimulated, a protein involved in diverse cellular processes and that is only present in these pseudopalisades in glioblastomas, not being detected in its adjacent areas.
Galectin-3 is a lectin that binds to beta-galactosides and is related to increased motility, adhesion, tumor growth and progression. Also, studies describe that galectin-3 expression is related to its promoter methylation degree in some tumor types. Our results presented here demonstrated that assays performed in hypoxic chamber and in a chemical condition mimicking hypoxia (incubation with cobaltous chloride) showed galectin-3 induction in either complete medium or deprived of fetal bovine serum, mimicking tumor's necrotic areas deprived of oxygen and nutrients. Besides, it was demonstrated that galectin-3 modulation in vitro and in vivo is not due to promoter methylation.
Tests related to galectin-3 knockdown in oxygen and nutrient deprivation demonstrated that this protein has a key role in protection against cell death. It is possible that these results may indicate that galectin-3 can also protect tumor cells inside glioblastoma's necrotic areas, acting as a survival factor in disadvantageous environments with low concentrations of oxygen and nutrients.
In conclusion, these experiments demonstrate galectin-3 properties related to protection against cell death in environments deprived of oxygen and nutrients, commonly found inside tumors, highlighting its importance as a target to antineoplastic agents. / Mestrado / Imunologia / Mestre em Genética e Biologia Molecular
|
69 |
Estudo da interação de galectina-1 e mastócitos / Study of the interaction between Gal-1 and mast cellDaniel Roberto Callejon 06 June 2008 (has links)
A galectina-1 (Gal-1) pertence à uma família de proteínas ligantes de ?-galactosídeos e participa de vários processos biológicos, tais como a modulação da resposta inflamatória. Os mastócitos desempenham um importante papel em eventos inflamatórios e alérgicos. Entretanto, o impacto da Gal-1 na biologia dos mastócitos é pouco conhecido. Neste trabalho, foram analisados os aspectos morfológicos e funcionais de células RBL-2H3 tratadas com Gal-1. Além disso, foi investigado o efeito da ausência de Gal-1 endógena sobre a desgranulação in vivo. A avaliação da interação de Gal-1Texas-Red com células RBL-2H3, por citometria de fluxo, indicou que esta lectina ligou-se às superfícies dessas células de modo dose-dependente. A Gal-1 foi capaz de promover a exposição de fosfatidilserina (FS, um marcador de apoptose) nas superfícies dessas células por meio de reconhecimento de carboidratos. Entretanto, as células RBL-2H3 tratadas com Gal-1 não apresentaram apoptose e/ou necrose, como indicado pelos resultados obtidos dos ensaios de TUNEL, DNA laddering, hipodiploidia, citotoxicidade e microscopia eletrônica de transmissão. As análises de microscopia eletrônica de varredura e Differential Interference Contrast (DIC) de células tratadas com Gal-1 (10 µM-1 hora) indicaram que essa lectina induziu ondulações apenas nas porções apicais das membranas plasmáticas de células RBL-2H3. Além disso, a Gal-1 modulou negativamente a formação de ondulações nas superfícies de células RBL-2H3 estimuladas via Fc?RI. A distribuição de componentes de Lipid Rafts relacionados ao processo de ativação celular via Fc?RI (Lyn, LAT e GD1b) foi modificada pelo tratamento dessas células com Gal-1 (10 µM), por 1 hora. As células RBL-2H3 tratadas com Gal-1(10µM-45 minutos) apresentaram níveis de liberação da enzima ?-hexosaminidase (?-HEX) semelhantes ao do controle negativo, sugerindo que essa lectina não promove a desgranulação de células RBL-2H3. Por outro lado, a Gal-1 inibiu a desgranulação de células RBL-2H3 ativadas via Fc?RI. O valor máximo de inibição (80%) da liberação de ?-HEX foi atingido quando as células foram tratadas com 10 µM de Gal-1 por 24 horas. Este efeito inibitório não foi detectado quando as células foram tratadas com Gal-1 na presença de ?-D-Tiogalactopiranosídeo (TDG), quando estimuladas com ionóforo de cálcio ou tratadas com a forma monomérica da Gal-1. Os dados de microscopia confocal mostraram que os grânulos secretórios de células submetidas ao procedimento de estimulação via Fc?RI, foram fracamente marcados com o anticorpo AD1 e apresentaram uma distribuição citoplasmática difusa. Entretanto, células tratadas com Gal-1 (10 µM - 24 horas) e estimuladas via Fc?RI foram intensamente marcadas com anticorpo AD1 e mostraram um padrão perinuclear, como detectado em células não estimuladas. De modo interessante, camundongos deficientes para o gene de Gal-1 quando submetidos ao ensaio de anafilaxia passiva cutânea (PCA) apresentaram uma reação significativamente maior que os animais selvagens. Com base no conjunto de resultados obtidos sugere-se que a Gal-1 pode participar da homeostase de mastóctios sem provocar apoptose e/ou necrose dessas células. Além disso, a Gal-1 pode modular o processo de exocitose de mastócitos por meio das propriedades lectínica e de dimerização dessa proteína e esse efeito modulatório parece estar associado a eventos de sinalização celular anteriores ao influxo de cálcio. / Galectin-1 (Gal-1) belongs to a family of ?-galactoside-binding proteins and is involved in several biological processes, including modulation of the inflammatory response. Mast cells play a critical role in allergic and inflammatory events, however, little is known about the impact of Gal-1 on mast cell biology. In this study, we examined the role of Gal-1 in mast cell function using RBL-2H3 (Rat Basophilic Leukemia) and galectin-1 deficient mice. We report that Gal-1 recognized glycoconjugates on mast cells and this interaction promotes phosphatidylserine (PS) exposure in the absence of cell death or apoptosis. Morphological analysis of Gal-1-treated RBL-2H3 cells, by scanning electron microscopy and Differential Interference Contrast (DIC), indicated that Gal-1 induces modifications on cell membranes and modulation of ruffles formation on cell surface of stimulated RBL-2H3 cells. Interesting, Gal-1 treatment of RBL-2H3 cells, with or without stimulation, promotes alterations in the distribution of the components (Lyn, LAT and GD1b) of Lipid Rafts. Gal-1 did not promote degranulation on RBL-2H3 with or without prior sensitization with IgE. However, Gal-1 treatment inhibits the cell degranulation mediated by via Fc?RI and this effect was time and dose-dependent. Also, this inhibition was related to carbohydrate recognition domain and required Gal-1 dimerization. Importantly, confocal microscopy analysis showed that Gal-1 was distributed in cytoplasm close to secretory granules stained AD-1 antibody on RBL-2H3 with or without prior stimulation with Fc?RI. In addition, we found significantly increased passive cutaneous anaphylaxis reaction in Gal-1 deficient mice. The results demonstrated that Gal-1 may participate of homeostasis and exocytose in mast cells suggesting that Gal-1 can have important role in allergic and inflammatory process.
|
70 |
Expressão de Galectinas-1 e 3 em Neoplasias Mieloproliferativas / Galectin-1 and 3 expression in Myeloproliferative NeoplasmsLívia Gonzaga Moura 26 October 2012 (has links)
Doenças Mieloproliferativas Crônicas são desordens hematológicas malignas caracterizadas pela alteração na célula-tronco hematopoética e independência ou hipersensibilidade dos progenitores hematopoéticos a citocinas. Em 2008 a OMS renomeou esse grupo como Neoplasias Mieloproliferativas (NMPs), no qual estão inclusas as entidades nosológicas Policitemia Vera (PV), Trombocitemia Essencial (TE) e Mielofibrose Primária (MFP), doenças alvo desse estudo. Apesar dos avanços no diagnóstico das NMPs e nos mecanismos envolvidos com a fisiopatologia dessas doenças, sua patogênese permanece desconhecida. Alterações na maquinaria apoptótica parecem estar envolvidas em na fisiopatologia das NMP e por isso a compreensão dos mecanismos de regulação da apoptose e a interferência das galectinas-1 e 3 nesse processo, em pacientes com NMPs, é relevante para a busca de novos alvos terapêuticos. Neste contexto, os objetivos deste trabalho foram: avaliar em leucócitos de sangue periférico e células tronco hematopoéticas CD34+ de medula óssea dos pacientes com PV, TE e MFP os níveis de expressão das LGALS1 e LGALS3 e a concentração de galectina-3 plasmática. Foram determinadas as correlações dos níveis de expressão de LGALS1 e LGALS3 e da concentração da galectina-3 plasmática com os níveis de expressão do RNAm das moléculas reguladoras da apoptose e com os dados clínico-laboratoriais dos pacientes como a concentração de hemoglobina, percentagem de hematócrito, porcentagem de alelos mutados JAK2V617F, contagem de leucócitos e esplenomegalia. A expressão de LGALS1 estava diminuída em células CD34+ em PV e MFP e em leucócitos de sangue periférico de pacientes com MFP. Os pacientes de TE apresentaram aumento na expressão de LGALS3 em leucócitos de sangue periférico e alta concentração de galectina-3 no plasma. Houve correlação entre os níveis de expressão de LGALS1 e a porcentagem de alelos mutados e a contagem de leucócitos, em pacientes com PV. Foi detectada a correlação entre os níveis de expressão de LGALS3 a porcentagem de alelos mutados e o tamanho do baço, em pacientes com MFP. Com relação aos genes reguladores da apoptose, foram observadas correlações entre os níveis de expressão de LGALS1 e BCL-2 em células CD34+ de pacientes PV e entre LGALS3 e A1, MCL-1, BAX e C-FLIP em leucócitos de de pacientes com TE. Os resultados obtidos indicam que as NPM apresentam expressão diferencial de LGALS1 e LGALS3 e sugerem a associação entre a expressão de galectinas e o status da mutação JAK2V617F, principalmente em pacientes com MFP / Chronic myeloproliferative diseases are haematological malignant disorders characterized by the presence of an altered haematopoietic stem cell and independence or hypersensibility of their hematopoietic progenitors to cytokines. In 2008, WHO renamed this group of diseases as Myeloproliferative Neoplasms (MPN) in which is included Polycythemia Vera (PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF). There have been advances concerning the knowledge about the mechanisms involved in MPN pathophysiology, however their pathogenesis remains unknow. Deregulation in apoptotic machinery seems to be involved in MPN pathophysiology. Fully understanding of apoptotic machinery and the influence of galectin-1 and 3 in this process in NMP patients might unveil novel targets for manipulation. The aims of the present study were to evaluate in leukocytes and CD34+ hematopoietic stem cells from PV, ET and PMF patients the LGALS1 and LGALS3 expression levels, the Galectin-3 plasma levels and to correlate LGALS1 and LGALS3 expression levels with galectin-3 plasma levels, apoptosis-related genes expression, JAK2 mutation status and clinic-laboratorial parameters. PV and PMF patients showed decreased expression levels of LGALS1 in CD34+ cells and also decreased LGALS1 expression levels in PMF leukocytes. ET patients presented an increased expression level of galectin-3 in leukocytes and plasma. We detected the correlations between LGALS3 gene expression with JAK2 allele burden and with leukocytes number in PV patients. We also observed in PMF patients the correlation between LGALS3 expression levels with JAK2 allele burden and spleen size. We also detected the correlation between LGALS1 expression levels BCL-2 gene expression in PV CD34+ HSC cells and between LGALS3 expression and A1, MCL-1, BAX and C-FLIP gene expression in TE leukocytes. Taken together, the results suggest the LGALS1and LGALS3 differential expression in NMP and the relation between JAK2V617F status with galectins expression, especially in PMF patients.
|
Page generated in 0.0419 seconds