Exploração funcional do processo de glicosilação aberrante em tumores: mecanismos envolvidos na atividade pró-migratória de galectina-3 / Exploiting the functional significance of aberrant glycosylation in tumors: mechanisms involved in the promigratory activity of galectin-3

Melo, Fabiana Henriques Machado de

23 February 2006

Ao longo do processo de progressão tumoral, se observa alteração na expressão de glicoconjugados contendo oligossacarídeos N-ligados. Uma das formas mais comuns de glicosilação aberrante observada em células transformadas e em tumores humanos é representada por (poli)lactosaminas presentes em oligossacarídeos N-ligados. Estes glicanos são ligantes de galectina-3. Com o objetivo de identificar a expressão e distribuição dos ligantes de galectina-3 associados a processos fisiopatológicos, como a transformação maligna, desenvolvemos uma proteína quimérica, a galectina-3 conjugada a fosfatase alcalina (Gal-3/FA). Observamos que a Gal-3/FA possui a mesma especificidade de galectina-3 e que pode ser usada como sonda em ensaios de overlay e ensaios de imunoistoquímica. Entre os ligantes de galectina-3 identificamos a ?1 integrina, mediador de processos biológicos dependentes da interação célula-matriz como a migração celular. Linhagens de células de origem mesenquimal derivadas de tumores induzidos com metilcolantreno de animais selvagens (linhagens S11 e S12) e nulizigoto (linhagem ?12) para o gene da galectina-3 foram estabelecidas. Avaliamos a capacidade migratória dessas células e os nossos resultados mostraram que células que expressam galectina-3 são mais migratórias em superfícies de laminina-1. Este dado sugere que a galectina-3 seja um modulador positivo do processo de migração celular em superfícies de laminina-1. No entanto, o mecanismo pelo qual a galectina-3 medeia esse processo não é conhecido. Células que possuem fenótipo mais migratório apresentam um estado intermediário de adesão. Nós observamos que a galectina-3 se encontra nos complexos focais. Na presença de galectina-3 observamos diminuição de FAK fosforilado e recrutamento da fosfatase SHP-2 para os complexos focais. A diminuição de FAK fosforilado no lamelipódio leva ao turnover dos complexos focais e ao aumento da migração celular. Analisamos também a via de sinalização e observamos que a galectina-3 não ativa PAK. Contudo, o inibidor de PI3quinase, wortmanina, inibiu o efeito pró-migratório de galectina-3. Esses dados reforçam a noção do papel de galectina-3 na modulação do processo de migração de fibroblastos transformados, funcionando como uma molécula / Altered expression of cell surface N-linked oligosaccharides are often associated with malignant transformation of cells. One of the most common forms of aberrant glycosylation in transformed cells and human tumors is the highly elevated ?1,6 branching of N-linked oligosaccharides caused by increased expression of N-acetylglucosaminytransferase V (Mgat5). Galectin-3, a ?-galactoside binding protein, binds preferentially to poly-N-acetyllactosamines, which are the products of Mgat5. In order to exploit this hallmark of cancer cells, we have developed a tool for in situ identification of these tumors associated glycoconjugates. Human galectin-3 was fused to bacterial alkaline phosphatase, generating a hybrid molecule displaying both the carbohydrate binding properties of galectin-3 and enzymatic activity of alkaline phosphatase (Gal-3/FA). Gal-3/FA has the same fine of galectin-3 which was confirmed in direct binding assays. The tool presented herein was therefore useful for several immunoenzymatic assays, and will allow to establish whether the expression pattern of galectin-3 ligands have any physiological or clinical significance. We have identified ?1 integrin as a galectin-3 ligand. ?1 integrins are the actual effector of cell adhesion and migration. We have established cell lines from methylcholantrene-induced sarcomas from both wild type and galectin-3 null mice. In this system, galectin-3 null cells were less migratory than control cells in laminin-1. When galectin-3 was transiently expressed in galectin-3 null sarcoma cells, it inhibited cell adhesion to laminin-1 and stimulate the migratory response to laminin-1. The addition of exogenous galectin-3 also enhanced the migratory capacity of ?12 cells in a carbohydrate dependent way. Galectin-3 was found in focal contacts of ?12 cells where it may interact with many glycoproteins containing polyllactosamines on the cell surface. Here we showed that ?1 integrins are among them. Exogenously added galectin-3 led to a decrease in phosphorylated-FAK in lamellipodia and increased the recruitment of Shp-2 phosphatase of migrating cells. The effect of galectin-3 in migration was not dependent on the activation of the p21-activated kinase (PAK). Wortmannin inhibited the increased migration elicited by galectin-3, suggesting the involvement of the PI3-kinase signaling in the galectin-3 pathway. We propose that extracellular galectin-3 bound ?1integrins and disrupted the focal adhesion plaque, thus favoring cell migration.

Biotechnology

Biotecnologia

Cell movement

Experimental sarcoma

Galectin-3

Galectina-3

Glicosilação

Glycosylation

Movimento celular

Sarcoma experimental

The interaction of Helicobacter pylori O-antigen with the immunomodulatory lectins DC-SIGN and galectin-3

Flood, Warren

January 2014

Helicobacter pylori are unique in their ability to colonise the human gastric mucosa. They persist lifelong in untreated individuals despite the presence of a continuous and specific immune response being mounted against it. H. pylori O-antigen is thought to be involved in immune-evasion and subversion by the bacteria and expression has been shown to facilitate colonisation and exacerbate pathology in murine models. This study investigates immuno-relevant roles of H. pylori O-antigen as a pathogen-associated molecular pattern (PAMP) and its interaction with two pattern recognition receptors (PRRs); galectin-3 and DC-SIGN. These PRRs possess distinct carbohydrate recognition domain (CRD) structures and binding affinities. Despite this, we have demonstrated that they compete for adhesion to both Lewis antigen glycoconjugates and whole cell H. pylori 26695 in solid phase binding assays. Galectin-3 significantly reduces DC-SIGN adhesion at a 2:1 stoichiometric ratio in both Lex glycoconjugate and whole cell H. pylori 26695 assays, and abrogates carbohydrate-specific binding in Lex glycoconjugate assays at a 22:1 ratio. These results suggest that galectin-3 may play a role in inhibiting or modulating the interaction between H. pylori O-antigen and DC-SIGN in vivo. Supporting this, we have shown that galectin-3 secreted by AGS cells during competitive infection with H. pylori 26695 is sequestered by H. pylori O-antigen. We have demonstrated that competitive infection of the O-antigen deficient mutant H. pylori 26695 galE in DC-SIGN expressing THP-1 cells reveals a significant reduction in intracellular survival at 8 hours compared to H. pylori 26695 Wt. Co-incubation of H. pylori 26695 Wt with 10 µg ml-1 galectin-3 reduced intracellular survival to the levels of H. pylori 26695 galE at 8 hours. Furthermore, H. pylori 26695 galE displayed rapid association of the endocytic markers Rab5 and Rab7 at 15 minutes compared to H. pylori 26695 Wt. Monoclonal antibody-mediated blocking of DC-SIGN in H. pylori 26695 Wt-THP-1 infections resulted in rapid association of the endocytic markers Rab5 and Rab7, corresponding to that of H. pylori 26695 galE, indicating that DC-SIGN-O-antigen interactions alters intracellular processing of the bacteria and reduces the rate at which these markers are recruited. Together these results elucidate novel mechanisms of H. pylori O-antigen and its interaction with galectin-3 and DC-SIGN that warrant further investigation in vivo. The identification of two PRRs competing for the same PAMP is unconventional and inspires a re-evaluation of PRRs in innate immune recognition.

Caracterização imuno-histoquímica da Galectina-3 como ferramenta prognóstica em melanomas orais caninos / Immunohistochemical characterization of Galectin-3 as prognostic tool in canine oral melanomas

Thiago Henrique Moroni Vargas

02 February 2018

Os melanomas correspondem a 7% de todas as neoplasias malignas em cães e são principalmente encontrados em cavidade oral e lábios, correspondendo a 33% dos tumores de boca, possuem um prognóstico ruim devido ao fato de serem diagnosticados tardiamente, por sua grande capacidade de invasão local e formação de metástases, além de altas taxas de recidiva após o tratamento cirúrgico. A Galectina-3 (Gal-3) é uma proteína responsável por diversas funções fisiológicas como adesão, apoptose, angiogênese, proliferação e diferenciação. Em medicina veterinária existem poucos estudos relacionando à expressão da Gal-3 com prognóstico e a progressão da neoplasia. Realizamos imuno-histoquímica para Gal-3 em 27 melanomas orais caninos que foram avaliados de maneira semiquantitativa e quantitativa, e comparamos os resultados obtidos com a sobrevida, outros marcadores prognósticos (Ki67, índice mitótico e atipia nuclear), expressão de proteínas relacionadas à apoptose (BCL2 e CASP3) e parâmetros histopatológicos (grau de pigmentação e tipo histológico). Detectamos alta expressão de Gal-3 em melanomas com maior sobrevida pós-cirúrgica e uma alta expressão nuclear de Gal-3 em melanomas com menor sobrevida pós-cirúrgica. Além disso, houve correlação entre as expressões de Gal-3 e BCL2, assim como entre atipia nuclear e sobrevida pós-cirúrgica. É sabido que a Gal-3 é capaz de formar heterodímeros com a BCL2 no citoplasma para atuar na evasão da morte por apoptose, impedindo a liberação da citocromo C. Já no núcleo, a Gal-3 induz à parada do ciclo celular, reduzindo a taxa da proliferação. Apesar do reduzido número amostral devido à dificuldade nos acompanhamentos clínicos nossos dados permitem sugerir que a Gal-3 é possui potencial para ser um marcador prognóstico de sobrevida em casos de melanomas orais caninos. Novos estudos devem ser realizados afim de confirmar nossas observações e elucidar o papel da Gal-3 nesta neoplasia. / Melanomas are almost 7% of all malignant neoplasms in dogs. They are mainly found in the oral cavity and lips, corresponding to 33% of tumors of the oral cavity. They carry a poor prognosis because of late diagnoses, local invasiveness, high metastatic and recurrence rates after surgical treatment. Galectin-3 (Gal-3) is a protein with a variety of biological roles such as in adhesion, apoptosis, angiogenesis, proliferation and differentiation. In veterinary medicine, there are few studies comparing the expression of Gal-3 with prognosis and tumor progression. We performed immunohistochemistry for Gal-3 in 27 canine oral melanomas and evaluated the immunolabelling both semi-quantitatively and quantitatively. The results were compared with survival, other prognostic markers (Ki67, mitotic index and nuclear atypia), expression of proteins related to apoptosis (BCL2 and CASP3) and histopathological parameters (degree of pigmentation and histological type). We detected higher expression of Gal-3 in cases of melanoma that presented longer post-surgical survival and a higher nuclear expression of Gal-3 in dogs with melanoma that had shorter post-surgical survival. In addition, there was correlation between the Gal-3 and BCL2 expressions, as well as between nuclear atypia and post-surgical survival. It is known that Gal-3 is able to form heterodimers with BCL2 in the cytoplasm leading to evasion of apoptosis, through preventing mitochondrial cytochrome C release. Nuclear Gal-3 induces the cell cycle arrest, reducing the proliferation rate. Despite the small sample size due to the difficulty in clinical follow-up, our data suggest that Gal-3 has the potential to be a prognostic marker for survival in cases of canine oral melanomas. Further studies should be performed to confirm our observations and elucidate the role of Gal-3 in this neoplasm.

Apoptose

Galectina 3

Melanoma

Núcleo

Prognóstico

Apoptosis

Galectin 3

Melanoma

Nuclei

Prognostic

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

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.

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

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.

Mécanismes de régulation post-transcriptionnelle de l'expression des mucines par la galectine-3 / Mechanisms of post-transcriptional regulation of mucins expression by galectin-3

Coppin, Lucie

12 June 2017

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.

Adénocarcinome pancréatique canalaire

ARN

Galectine-3

Mucines

Pancreatic ductal adenocarcinoma

NRA

Galectin-3

Mucins

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 hypoxia

Ikemori, Rafael Yamashita

13 August 2018

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

Glioma

NG97ht

Galectina 3

Pseudopaliçada

Gliomas

NG97ht

Galectin 3

Pseudopalisading

Cellular hypoxia

Exploração funcional do processo de glicosilação aberrante em tumores: mecanismos envolvidos na atividade pró-migratória de galectina-3 / Exploiting the functional significance of aberrant glycosylation in tumors: mechanisms involved in the promigratory activity of galectin-3

Fabiana Henriques Machado de Melo

23 February 2006

Ao longo do processo de progressão tumoral, se observa alteração na expressão de glicoconjugados contendo oligossacarídeos N-ligados. Uma das formas mais comuns de glicosilação aberrante observada em células transformadas e em tumores humanos é representada por (poli)lactosaminas presentes em oligossacarídeos N-ligados. Estes glicanos são ligantes de galectina-3. Com o objetivo de identificar a expressão e distribuição dos ligantes de galectina-3 associados a processos fisiopatológicos, como a transformação maligna, desenvolvemos uma proteína quimérica, a galectina-3 conjugada a fosfatase alcalina (Gal-3/FA). Observamos que a Gal-3/FA possui a mesma especificidade de galectina-3 e que pode ser usada como sonda em ensaios de overlay e ensaios de imunoistoquímica. Entre os ligantes de galectina-3 identificamos a ?1 integrina, mediador de processos biológicos dependentes da interação célula-matriz como a migração celular. Linhagens de células de origem mesenquimal derivadas de tumores induzidos com metilcolantreno de animais selvagens (linhagens S11 e S12) e nulizigoto (linhagem ?12) para o gene da galectina-3 foram estabelecidas. Avaliamos a capacidade migratória dessas células e os nossos resultados mostraram que células que expressam galectina-3 são mais migratórias em superfícies de laminina-1. Este dado sugere que a galectina-3 seja um modulador positivo do processo de migração celular em superfícies de laminina-1. No entanto, o mecanismo pelo qual a galectina-3 medeia esse processo não é conhecido. Células que possuem fenótipo mais migratório apresentam um estado intermediário de adesão. Nós observamos que a galectina-3 se encontra nos complexos focais. Na presença de galectina-3 observamos diminuição de FAK fosforilado e recrutamento da fosfatase SHP-2 para os complexos focais. A diminuição de FAK fosforilado no lamelipódio leva ao turnover dos complexos focais e ao aumento da migração celular. Analisamos também a via de sinalização e observamos que a galectina-3 não ativa PAK. Contudo, o inibidor de PI3quinase, wortmanina, inibiu o efeito pró-migratório de galectina-3. Esses dados reforçam a noção do papel de galectina-3 na modulação do processo de migração de fibroblastos transformados, funcionando como uma molécula / Altered expression of cell surface N-linked oligosaccharides are often associated with malignant transformation of cells. One of the most common forms of aberrant glycosylation in transformed cells and human tumors is the highly elevated ?1,6 branching of N-linked oligosaccharides caused by increased expression of N-acetylglucosaminytransferase V (Mgat5). Galectin-3, a ?-galactoside binding protein, binds preferentially to poly-N-acetyllactosamines, which are the products of Mgat5. In order to exploit this hallmark of cancer cells, we have developed a tool for in situ identification of these tumors associated glycoconjugates. Human galectin-3 was fused to bacterial alkaline phosphatase, generating a hybrid molecule displaying both the carbohydrate binding properties of galectin-3 and enzymatic activity of alkaline phosphatase (Gal-3/FA). Gal-3/FA has the same fine of galectin-3 which was confirmed in direct binding assays. The tool presented herein was therefore useful for several immunoenzymatic assays, and will allow to establish whether the expression pattern of galectin-3 ligands have any physiological or clinical significance. We have identified ?1 integrin as a galectin-3 ligand. ?1 integrins are the actual effector of cell adhesion and migration. We have established cell lines from methylcholantrene-induced sarcomas from both wild type and galectin-3 null mice. In this system, galectin-3 null cells were less migratory than control cells in laminin-1. When galectin-3 was transiently expressed in galectin-3 null sarcoma cells, it inhibited cell adhesion to laminin-1 and stimulate the migratory response to laminin-1. The addition of exogenous galectin-3 also enhanced the migratory capacity of ?12 cells in a carbohydrate dependent way. Galectin-3 was found in focal contacts of ?12 cells where it may interact with many glycoproteins containing polyllactosamines on the cell surface. Here we showed that ?1 integrins are among them. Exogenously added galectin-3 led to a decrease in phosphorylated-FAK in lamellipodia and increased the recruitment of Shp-2 phosphatase of migrating cells. The effect of galectin-3 in migration was not dependent on the activation of the p21-activated kinase (PAK). Wortmannin inhibited the increased migration elicited by galectin-3, suggesting the involvement of the PI3-kinase signaling in the galectin-3 pathway. We propose that extracellular galectin-3 bound ?1integrins and disrupted the focal adhesion plaque, thus favoring cell migration.

Biotecnologia

Galectina-3

Glicosilação

Movimento celular

Sarcoma experimental

Biotechnology

Cell movement

Experimental sarcoma

Galectin-3

Glycosylation

Avaliação do papel de galectina-3 no recrutamento de macrófagos e sua participação na angiogênese em modelo de fibrossarcoma / Evaluation of the role of galectin-3 in macrophage recruitment and its participation in angiogenesis in a fibrosarcoma model

Karina Mie Furuzawa

04 November 2016

Assim como tecidos normais, tumores possuem uma demanda de nutrientes e oxigênio, suprida através da vasculatura a eles associada que resulta do processo de angiogênese. Fatores pró-angiogênicos são capazes de atrair monócitos, os quais se diferenciam em macrófagos associados a tumores (TAMs). TAMs comumente apresentam fenótipo M2, cujas características são consideradas pró-tumorais, como a promoção da angiogênese e a degradação de matriz extracelular. Estudos indicam que galectina-3 (gal-3), uma proteína pleiotrópica que se liga a ?-galactosídeos, participa do controle da angiogênese e da infiltração de macrófagos M2 na massa tumoral, mas pouco se sabe sobre os mecanismos envolvidos. No presente estudo, utilizamos um modelo de sarcoma induzido por carcinógeno em camundongos selvagens (WT) e knockout para gal-3 (Gal- 3 KO). Comparando os tumores de animais WT e Gal-3 KO, não observamos diferenças no padrão de crescimento tumoral, na área necrótica relativa, na proliferação celular e na quantificação de fibras de colágeno. Demonstramos que, embora ambos os grupos desenvolvam tumores, a angiogênese foi inibida em um microambiente desprovido de gal-3. Entretanto, não houve diferença na produção do fator de crescimento endotelial vascular (VEGF). As imagens obtidas in vivo indicaram que gal- 3 também influencia na formação estrutural de vasos adjacentes ao tumor. Além de mediar aspectos morfológicos relacionados à angiogênese, demonstramos que gal-3 também contribuiu para a funcionalidade vascular, pois houve uma redução na velocidade de fluxo sanguíneo nos vasos intratumorais de animais Gal-3 KO. Nossos dados sugeriram que há menos macrófagos no tumor que não expressa gal-3 e, dentre os TAMs, há mais M2 em comparação ao tumor gal-3-positivo. A análise do tecido onde o tumor se desenvolve, na fase inicial da tumorigênese, indicou que a ausência de gal-3 está relacionada a uma maior densidade de macrófagos M2. Considerando que a presença maior de macrófagos M2 nos sarcomas gal-3-negativos não resultou em maior produção de VEGF, mas sim na inibição da angiogênese, nossos resultados apontam para uma participação significativa de gal-3 na mediação da angiogênese pelos macrófagos / As well as normal tissues, tumors require nutrients and oxygen, which are supplied by the associated vasculature that results from the process of angiogenesis. Pro-angiogenic factors are able to attract monocytes and they differentiate into tumor-associated macrophages (TAMs). TAMs commonly exhibit M2 phenotype, which has characteristics considered pro-tumoral, such as angiogenesis promotion and degradation of extracellular matrix. Studies show that galectin-3 (gal-3), a pleiotropic ?-galactosidebinding protein, participates in angiogenesis control and M2 macrophage infiltration into the tumor mass, but little is known about the mechanisms involved. In this work, we established a model of carcinogen-induced sarcoma in wild-type (WT) and gal-3 knockout (Gal-3 KO) mice. Comparing tumors from WT and Gal-3 KO animals, there were no differences in the pattern of tumor growth, relative necrotic area, cell proliferation and collagenous fibers. We demonstrated that, although both groups develop tumors, angiogenesis was inhibited in a microenvironment devoid of gal-3. However, there was no difference in the production of vascular endothelial growth factor (VEGF). The images obtained in vivo indicated that gal-3 also influenced the structural formation of vessels adjacent to the tumor. In addition to mediating morphological aspects related to angiogenesis, we demonstrated that gal-3 also contributes to vascular functionality, since there was a reduction in blood flow velocity in intratumoral vessels from Gal-3 KO animals. Our data suggested that there are fewer macrophages in tumors without gal-3 and, among TAMs, there are more M2 compared to gal-3-positive tumors. Analysis of the tissue where the tumor develops, in early stages of tumorigenesis, indicated that the lack of gal-3 is related to an increased density of M2 macrophages. Since the greater number of M2 macrophages in gal-3-negative fibrosarcomas did not result in increased VEGF production, but inhibited angiogenesis, our results suggest a significant role of gal-3 in regulation of angiogenesis by macrophages

Angiogênese

Carcinógenos

Fibrossarcoma

Galectina 3

Macrófagos

Microambiente tumoral

Angiogenesis, Macrophages

Carcinogens

Fibrosarcoma

Galectin 3

Tumor microenvironment

Mecanismos associados à perda de expressão do gene de galectina-3 em um modelo de progressão de melanoma murino / Mechanisms associated to the loss of galectin-3 gene expression in a model of murine melanoma progression

Veronica Rodrigues Teixeira

11 April 2007

Galectina-3 é uma lectina animal que apresenta afinidade por b- galactosídeos e que tem sido associada à progressão tumoral e metástase. A expressão de galectina-3 encontra-se alterada durante a progressão tumoral de diferentes neoplasias. Em tumores como carcinoma de tiróide e bexiga a expressão de galectina-3 encontra-se aumentada, enquanto que em tumores como carcinoma de mama e ovário a expressão desta lectina encontra-se diminuída. Neste trabalho nós utilizamos um modelo de progressão tumoral de melanoma murino para investigar os mecanismos envolvidos na perda de expressão de galectina-3. Este modelo é composto por uma linhagem de melanócitos imortalizados (melan-a) e duas linhagens de melanoma de crescimento vertical (Tm1 e Tm5) estabelecidas após submeter a linhagem melan-a a inúmeros ciclos de de-adesão. Enquanto melan-a acumula grandes quantidades de galectina-3, as linhagens Tm1 e Tm5 deixaram de expressar o gene de galectina-3. Análise da região 5\' do gene de galectina-3 demonstrou que esta região apresentava grande conteúdo de dinucleotídeos CpG e vários sítios SP1. O seqüenciamento desta região após tratamento do DNA com bissulfito de sódio mostrou que esta região estava totalmente metilada nas linhagens Tm1 e Tm5 e desmetilada na linhagem melan-a. O tratamento da linhagem Tm1 com 5-Aza-2\'-deoxicitidina (5-Aza-CdR), um inibidor da DNA metiltransferase, provocou um decréscimo significativo nos níveis de metilação da região 5\' do gene de galectina-3 que por sua vez levou a re-expressão do RNAm e da proteína. O tratamento de Tm1 com os inibidores de histono deacetilases tricostatina A e 4-ácido-fenilbutírico em combinação com 5-Aza-CdR não aumentou os níveis de expressão do gene de galectina-3 e curiosamente, reverteu o efeito induzido por 5-Aza-CdR. Em adição, a expressão da enzima DNMT1 apresentou um discreto aumento nas linhagens Tm1 e Tm5 em relação a melan-a. Em conjunto esses resultados sugerem que mecanismos epigenéticos como a metilação estão envolvidos no controle de expressão do gene de galectina- 3 ao longo da progressão tumoral de melanoma murino. / Galectin-3 is a b-galactoside-binding animal lectin, shown to be involved in tumor progression and metastasis. Galectin-3 expression has been found altered along tumor progression of different tumors. In some types of cancers such as thyroid carcinoma and bladder carcinoma, galectin-3 expression has been found increased, whereas in tumors such as breast carcinoma and ovary carcinoma the expression of this lectin has been found decreased along tumor progression. In this study, we have used a murine melanoma model to investigate the mechanisms responsible for the loss of galectin-3 gene expression. This model consists of a cell line of immortalized melanocytes (melan-a) and two cell lines of vertical growth phase melanoma (Tm1 and Tm5) established after submitting melan-a cells to several deadhesion cycles. While melan-a expressed high amounts of galectin-3, both Tm1 and Tm5 cells lost galectin-3 gene expression. Analysis of the 5\' upstream region of the galectin-3 gene demonstrated the presence of a high CpG content and several SP1 binding sites. Bisulfite sequencing of this region showed that it was fully methylated in Tm1 and Tm5 cells and unmethylated in melan-a cells. Treatment of Tm1 cells with 5-aza-2\'-deoxycytidine (5-Aza-CdR), a DNA methyltransferase inhibitor, led to a marked decrease in the methylation levels of the 5\' upstream region of the galectin-3 gene, which led to transcription of the galectin-3 gene. Treatment of Tm1 cells with the histone-deacetylase inhibitors trichostatin A and 4- acid-phenilbutyrate in combination with 5-Aza-CdR did not increase the levels of galectin-3 gene expression and intriguingly, reverted the effect of 5-Aza-CdR alone. In addition, the expression of DNMT1 showed a modest, but significant increase in Tm1 and Tm5 cells as compared with melan-a cells. Altogether these results indicate that epigenetic mechanisms such as methylation play a role in the regulation of the galectin-3 gene expression along murine melanoma progression.

Cromatina

Expressão gênica

Galectina 3

Melanoma

Metilação

Chromatin

Galectin 3

Gene expression

Melanoma

Methylation