Global ETD Search

1	Total Synthesis of the Tumor-Associated Carbohydrate Antigen Lewis A Lewis X Hexasaccharide and Selected Fragments Mickael, Guillemineau 13 August 2012 (has links) Carbohydrates constitute the most abundant class of natural products in the living world and they play various roles. They are notably involved in cell-cell interactions and immune reactions. It has been observed that tumor cells express, on their surface, unusual oligosaccharides named Tumor-Associated Carbohydrate Antigen (TACA). One TACA of interest to our research group is the Lewis A Lewis X hexasaccharide that is displayed on the surface of squamous lung carcinoma cells. Since carbohydrates are involved in immune reactions and can be recognized by antibodies, it becomes possible to design a carbohydrate-based vaccine against these tumor cells. This thesis describes the total synthesis of the TACA Lewis A Lewis X hexasaccharide and the preparation of two fragments: one tetra- and one pentasaccharide. These molecules were prepared as hexyl and aminohexylglycosides. In addition, the hexasaccharide was synthesized as a disulfide. This diversity of these synthons will allow conjugation to a protein, analysis by nuclear magnetic resonance techniques, and immobilization on gold of the antigen. Without doubt, this work is a significant contribution to the development of an anti cancer vaccine as it constitutes the first stage of the process. Fucosylation Galactosylation Match-Mismatch Regioselectivity N-Acylglucosamine
2	Identification of Novel Tumor Markers for Oral Squamous Cell Carcinoma Using Glycoproteomic Analysis Chen, Yi Ting, Chong, Yi Min, Cheng, Chu Wen, Ho, Chung Liang, Tsai, Hung Wen, Kasten, Frederick H., Chen, Yu Ling, Chang, Chuan Fa 01 January 2013 (has links) Background: Oral cancer, the largest subset of head and neck cancer, has become one of the most lethal malignancies during the last two decades. Although several diagnostic tools have been applied for the early detection of oral malignancies, it is still urgent to identify novel tumor markers. In this study, we explored the cell surface N-glycomes of primary cultured human oral keratinocytes (HOK), immortalized human gingival keratinocytes (SG cells), and oral squamous cell carcinoma (OC2). Methods: Enzymatically hydrolyzed cell surface N-glycans were analyzed by MALDI-TOF mass spectrometry. Results: High levels of fucosylated N-glycans, especially core-fucosylated N-glycans, were observed on the OC2 cell surface whereas the major N-glycans on SG and HOK cells were high mannose type. In addition, the mRNA expression level of fucosyltransferase 8 was elevated significantly in OC2 cells than in SG and HOK cells. Core-fucosylated glycoproteins of OC2 cells were then purified with lectin affinity chromatography and a key adhesion molecule in cancer cells, CD147, was identified. Finally, overexpression of cell surface CD147 was confirmed on OC2 cells and oral cancer tissues (tissue array). Conclusions: CD147 was discovered by glycoproteomic approaches and suggested to be a potential novel tumor marker for oral cancer diagnosis. CD147 core-fucosylation EMMPRIN FUT8 oral cancer
3	Identification of Novel Tumor Markers for Oral Squamous Cell Carcinoma Using Glycoproteomic Analysis Chen, Yi Ting, Chong, Yi Min, Cheng, Chu Wen, Ho, Chung Liang, Tsai, Hung Wen, Kasten, Frederick H., Chen, Yu Ling, Chang, Chuan Fa 01 January 2013 (has links) Background: Oral cancer, the largest subset of head and neck cancer, has become one of the most lethal malignancies during the last two decades. Although several diagnostic tools have been applied for the early detection of oral malignancies, it is still urgent to identify novel tumor markers. In this study, we explored the cell surface N-glycomes of primary cultured human oral keratinocytes (HOK), immortalized human gingival keratinocytes (SG cells), and oral squamous cell carcinoma (OC2). Methods: Enzymatically hydrolyzed cell surface N-glycans were analyzed by MALDI-TOF mass spectrometry. Results: High levels of fucosylated N-glycans, especially core-fucosylated N-glycans, were observed on the OC2 cell surface whereas the major N-glycans on SG and HOK cells were high mannose type. In addition, the mRNA expression level of fucosyltransferase 8 was elevated significantly in OC2 cells than in SG and HOK cells. Core-fucosylated glycoproteins of OC2 cells were then purified with lectin affinity chromatography and a key adhesion molecule in cancer cells, CD147, was identified. Finally, overexpression of cell surface CD147 was confirmed on OC2 cells and oral cancer tissues (tissue array). Conclusions: CD147 was discovered by glycoproteomic approaches and suggested to be a potential novel tumor marker for oral cancer diagnosis. CD147 core-fucosylation EMMPRIN FUT8 oral cancer
4	Enhancing the migration and engraftment of human and mouse long-term hematopoietic stem cells Al-Amoodi, Asma S. 05 1900 (has links) For over 50 years, bone marrow transplants have used CD34 to select stem cells. Recent research suggests that the most primitive hematopoietic stem cells (HSCs), long-term HSCs (LT-HSCs), are found in the CD34-negative portion of murine and human bone marrow cells. LT-HSCs are rare and cannot be isolated directly, making them difficult to study. During a bone marrow transplant, these stem cells must find their way to the bone marrow niche and engraft to become blood cells. Several cell adhesion molecules on the stem cell engage with their ligands on the endothelial cells lining the bone marrow vasculature to control this migration. Human LT-HSCs cells do not migrate and engraft well when infused in vivo, which may be due to a lack of adhesion molecules. Thus, the goal of this study was to determine whether this population of HSCs lacked adhesion systems (proteins and carbohydrate modifications) and, if so, to improve their migration and engraft ability by modifying key mechanistic steps in the adhesion cascade. Therefore, we investigated how distinct hematopoietic stem cell populations migrate to the bone marrow using adhesion mechanisms. This study represents the first direct analysis of adhesion molecules expression in LT-HSC and will potentially shed light on methods to optimally use these very valuable cells in the clinical bone marrow and cord blood transplants worldwide. Hematopoietic stem cells HSCs transplantation fucosylation
5	Analyses biochimiques et fonctionnelles de protéines cibles de POFUT1 / Biochemical and functional analyses of POFUT1 target proteins Pennarubia, Florian 14 December 2018 (has links) La O-fucosylation, catalysée par Pofut1, est une glycosylation rare qui consiste en l’ajout d’un fucose O-lié sur la sérine ou la thréonine d’une séquence consensus (C2X4(S/T)C3), portée par un domaine EGF-like (ELD) d’une glycoprotéine membranaire ou sécrétée. Notre analyse de la lignée murine Pofut1cax/cax, hypomorphe pour le gène Pofut1, a révélé une hypertrophie musculaire post-natale associée à une diminution du pool de cellules satellites. Ce phénotype est en partie associé à un défaut d’interaction entre les récepteurs NOTCH hypo-O-fucosylés des myoblastes dérivés de cellulessatellites (MDCS) et leurs ligands DSL, ce qui aboutit à une plus faible activation de la signalisation Notch. D’autres protéines potentiellement impliquées dans la myogenèse peuvent également être la cible de POFUT1. C’est notamment le cas de la protéine Wnt inhibitory factor 1 (WIF1), qui dispose de cinq ELDs, dont deux sont potentiellement aptes à recevoir un O-fucose (ELDs III et V). Par une approche phylogénétique, nous avons montré la conservation de ces deux sites de O-fucosylation et de deux sites de N-glycosylation chez la plupart des bilatériens. Nos expériences démontrent l’occupationde tous ces sites, excepté le site de O-fucosylation de l’ELD V, chez la protéine WIF1 murine. La capacité de l’ELD III, produit de manière isolée, à recevoir un fucose O-lié a été démontrée après O-fucosylation in vitro, par l’association de cycloaddition azide-alcyne assistée au cuivre (CuAAC) et de spectrométrie de masse en mode MRM. Cette nouvelle approche expérimentale a par la suite été standardisée et sa sensibilité évaluée en comparant deux autres ELDs (ELDs 12 et 26 de NOTCH1) connus pour être O-fucosylés mais présentant des affinités différentes pour POFUT1. De façonsurprenante, l’ELD V de WIF1 ne peut être O-fucosylé, probablement en raison d’un clash stérique entre cet ELD et POFUT1, prévenant ainsi leur interaction. L’analyse de la protéine WIF1 entière a confirmé les résultats obtenus sur les ELDs isolés et démontre l’occupation des deux sites de N-glycosylation. Enfin, nos résultats montrent également l’importance de ces deux N-glycanes, mais également celle du O-fucose de l’ELD III, pour une sécrétion optimale de la protéine WIF1 murine. / The, Pofut1-catalyzed O-fucosylation, is a rare glycosylation which consists of the addition of an O-linked fucose to the serine or threonine of a consensus sequence (C2X4(S/T)C3), carried by an EGF-like domain (ELD) of a membrane or secreted glycoprotein. Our analysis of the murine line Pofut1cax/cax, hypomorphic for the Pofut1 gene, revealed post-natal muscle hypertrophy associated with a decrease in the satellite cell pool. This phenotype was partly associated with a lack of interaction between hypo-O-fucosylated NOTCH receptors of satellite cell-derived myoblasts (SCDM) and their DSL ligands, which resulted in a lower activation of Notch signaling. Other proteins potentially involved in myogenesis may also be the target of POFUT1. This is indeed the case for the protein Wnt inhibitory factor 1 (WIF1), which has five ELDs, whose only two are potentially able to receive an O-fucose (ELDs III and V). Using a phylogenetic approach, we showed in most bilaterians that these two O-fucosylation sites and two N-glycosylation sites were conserved. Our experiments showed theoccupation of all these sites, except for the O-fucosylation site of murine WIF1 protein ELD V. The ability of the ELD III, produced as an isolated protein, to receive O-linked fucose was demonstrated after an in vitro O-fucosylation by combination of copper-catalysed azide-alkyne cycloaddition (CuAAC) and MRM-mass spectrometry. This new experimental approach was then standardized and its sensitivity was evaluated by comparing two other ELDs (NOTCH1 ELDs 12 and 26) known to beO-fucosylated but with different affinities for POFUT1. Surprisingly, WIF1's ELD V could not be O-fucosylated, probably due to a steric clash between this ELD and POFUT1, thus preventing their interaction. The analysis of the full-length WIF1 protein confirmed our results obtained with isolated ELDs and demonstrated the occupation of the two N-glycosylation sites. Finally, our results also showed the importance of these two N-glycans, but also the importance of ELD III’s O-fucose, foroptimal secretion of the murine WIF1 protein. POFUT1 O-fucosylation EGF-like WIF1 CuAAC POFUT1 O-fucosylation EGF-like WIF1 CuAAC 572.8
6	DELLA is O-Fucosylated by SPINDLY Sui, Ning January 2016 (has links) <p>Plant growth and development are strictly regulated by internal hormonal signaling networks, which integrate and coordinate to promote plants’ adaptation and survival in the changing environment. Among the diverse hormones, gibberellins (GAs) are the phytohormones that regulate various processes, from seed germination to fruit development. The conserved plant-specific GRAS family protein DELLAs, key repressors in the GA signaling pathway, serve as the central coordinator of multiple signaling networks through physical interactions with many key transcription factors/regulators in other pathways. </p><p>Diverse DELLA-interacting proteins (DIPs) from different signaling pathways and various protein families have been identified in recent years. All the DIPs interact with the C-terminal GRAS domain of DELLA, however, the mechanism of how the GRAS domain interacts with diverse proteins remains a mystery. To solve this problem, I expressed a number of DELLA proteins in E.coli and obtained high-purity protein for biochemical and structural analysis.</p><p>As the central coordinator of plant growth and development, DELLA’s activity and stability are regulated by post-translational modifications. Our lab recently showed that SECRET AGENT (SEC) modulates the activity of DELLA through O-linked N-acetylglucosamine (O-GlcNAc) modification in Arabidopsis. Nevertheless, SEC’s paralog SPINDLY (SPY), a putative O-GlcNAc transferase (OGT) identified 20 years ago, does not have OGT activity, and serves as opposite role to SEC in GA signaling with an unknown mechanism. </p><p>Our lab made the breakthrough in uncovering the SPY function, and showed it promotes the O-fucosylation of DELLA in planta. I further proved that SPY is a novel protein O-fucosyltransferase through biochemical analysis. SPY specifically transfers O-fucose from GDP-fucose to its substrate peptide, and SPY mutant proteins showed reduced or abolished transferase activity. This is the first work to identify O-fucosylation of nuclear proteins in any organism. O-fucosylation of DELLA activates DELLA by promoting its interaction with DIPs, opposite to repression of interaction with O-GlcNAcylation. Previous studies showed that SPY is involved in multiple cellular pathways such as GA signaling, cytokinin signaling and the circadian clock. Thus, SPY plays an important role in regulating plant growth and development through O-fucosylation of key components in diverse intracellular pathways. </p><p>SPY orthologs are conserved in bacteria, protists, algae and plants, while SEC orthologs are also present in fungi and animals. SPY-like and SEC-like proteins share high sequence similarity, except that two key residues important for the OGT activity of SEC is missing in SPY. Structure analysis of SPY (or its orthologs) would greatly facilitate our understanding of its unique substrate specificity. Toward this goal, I expressed Arabidopsis SPY proteins (as well as bacterial SPY orthologs) in E.coli and obtained high-purity protein for structural analysis. I further identified lead conditions that produce needle-cluster crystals. While optimization would be required, these studies will ultimately reveal the structure of SPY and the architecture of the active site, to show how SPY interacts with GDP-fucose for the transferase activity.</p> / Dissertation Biology Biochemistry DELLA GRAS O-fucosylation O-GlcNAcylation SPINDLY (SPY)
7	Application of Human Glycosyltransferases in N-glycan Synthesis and Their Substrate Specificity Studies Calderon Molina, Angie Dayan 15 December 2016 (has links) Glycoscience is important in many areas such as human health, energy and material science. Glycans have been shown to be involved in the pathophysiology of almost every major disease. Additional glycan structure knowledge is required to help advance personal medicine, and pharmaceutical developments, among others. For glycoscience to advance there is a need for large quantities of well-defined glycans and have quick access to glycosyltransferases for manipulating glycan synthesis. Herein, we will cover our efforts on studying the substrate specificities of human glycosyltransferases such as FUT8 and Gn-T V, and their application on N-glycan synthesis. Complex asymmetric N-glycan isomer structures have been related to many diseases such as breast cancer, among others. Synthesis of complex asymmetric N-glycan isomer structures including: alpha-1,6 core-fucosylated, and tri-antennary structures can be achieved by taking advantage of the high specificity of glycosyltransferases that can work as unique catalyst to generate well-defined glycan structures. FUT8 fucosylation N-glycan glycosyltransferases Gn-T I Gn-T II Gn-T V
8	Diagnostic and Prognostic Capacity of Serum Glycan Nodes in Different Types of Cancer January 2018 (has links) abstract: Glycans are monosaccharide-based heteropolymers that are found covalently attached to many different proteins and lipids and are ubiquitously displayed on the exterior surfaces of cells. Serum glycan composition and structure are well known to be altered in many different types of cancer. In fact, glycans represent a promising but only marginally accessed source of cancer markers. The approach used in this dissertation, which is referred to as “glycan node analysis”, is a molecularly bottom-up approach to plasma/serum (P/S) glycomics based on glycan linkage analysis that captures features such as α2-6 sialylation, β1-6 branching, and core fucosylation as single analytical signals. The diagnostic utility of this approach as applied to lung cancer patients across all stages as well as prostate, serous ovarian, and pancreatic cancer patients compared to certifiably healthy individuals, nominally healthy individuals and/or risk-matched controls is reported. Markers for terminal fucosylation, α2-6 sialylation, β1-4 branching, β1-6 branching and outer-arm fucosylation were most able to differentiate cases from controls. These markers behaved in a stage-dependent manner in lung cancer as well as other types of cancer. Using a Cox proportional hazards regression model, the ability of these markers to predict progression and survival in lung cancer patients was assessed. In addition, the potential mechanistic role of aberrant P/S glycans in cancer progression is discussed. Plasma samples from former bladder cancer patients with currently no evidence of disease (NED), non-muscle invasive bladder cancer (NMIBC), and muscle invasive bladder cancer (MIBC) along with certifiably healthy controls were analyzed. Markers for α2-6 sialylation, β1-4 branching, β1-6 branching, and outer-arm fucosylation were able to separate current and former (NED) cases from controls; but NED, NMIBC, and MIBC were not distinguished from one another. Markers for α2-6 sialylation and β1-6 branching were able to predict recurrence from the NED state using a Cox proportional hazards regression model adjusted for age, gender, and time from cancer. These two glycan features were found to be correlated to the concentration of C-reactive protein, a known prognostic marker for bladder cancer, further strengthening the link between inflammation and abnormal plasma protein glycosylation. / Dissertation/Thesis / Doctoral Dissertation Chemistry 2018 Chemistry Analytical chemistry Biochemistry Cancer Fucosylation Glycans Plasma/Serum Sialylation Survival
9	Rôle(s) de la protéine O-fucosyltransférase 1 au cours de la différenciation myogénique / Role(s) of protein O-fucosyltransferase 1 during myogenic differentiation Der Vartanian, Audrey 11 February 2015 (has links) Au cours de la myogenèse post-natale, la voie de signalisation de Notch participe au développement et à la régénération du muscle squelettique chez les mammifères. Elle permet le maintien de l'état prolifératif des myoblastes, contrôle la quiescence des cellules satellites in vivo et préserve une sous-population de cellules de réserve indifférenciées in vitro. L' activation de la voie et l'interaction du récepteur Notch avec ses ligands est dépendante de leur entité glucidique, notamment de leurs O-fucosylglycannes. La synthèse de ces derniers est initiée par la protéine O-fucosyltransférase 1 (Pofut1) qui greffe un O-fucose sur des domaines peptidiques particuliers appelés EGF-like. Bien que les acteurs moléculaires de la différenciation myogénique aient été largement étudiés par la communauté scientifique, la contribution de la glycosylation des protéines dans ce processus reste peu documentée. Une approche expérimentale in vitro basée sur l'utilisation de la lignée myoblastique murine C2C12 nous a permis d'identifier une expression importante de Pofut1 dans les cellules de réserve tandis qu' elle est restreinte dans les myotubes durant la différenciation myogénique. Plusieurs lignées de cellules C2C12 ont été générées pour qu' elles expriment de manière stable et différentielle Pofut1. Elles permettent ainsi d' évaluer l' importance du niveau d' expression de Pofut1 sur la différenciation myogénique.La sous-expression de Pofut1 réduit l' activation de la voie de signalisation de Notch conduisant à une entrée précoce des myoblastes dans le programme myogénique. Ceci a pour conséquence la dépletion des cellules de réserve Pax7+/MyoD- au profit d' une augmentation du nombre de myotubes. Des études morphométriques ont révélé un défaut d' accrétion nucléaire dans les myotubes sous-exprimant Pofut1, caractéristique d' une altération de la fusion secondaire. Ces observations sont accompagnées d' une diminution significative de l' expression du récepteur à l' interleukine 4 dans les cellules de reserve sous-exprimant Pofut1. Les lignées cellulaires ré-exprimant Pofut1 présentent une activation de la voie de signalisation de Notch et un processus de fusion myoblastique correctement restaurés.Ces travaux de thèse ont mis en exergue pour la première fois le rôle essentiel de Pofut1 dans le devenir cellulaire et la fusion des myoblastes au cours de la différenciation myogénique. / During post-natal myogenesis, Notch signaling pathway is involved in the development and regeneration of skeletal muscle in mammals. It maintains progenitor cell properties during the development of the myogenic lineage and controls the transition of satellite cells from a quiescent to an active state and preserves a subpopulation of reserve cells, in cell culture, in an undifferentiated state. The interaction between Notch and its ligands and the activation of this signaling is mainly controlled by the activity of protein O-fucosyltranferase 1 (Pofut1) and thus by the O-fucosylation state of the EGF-like repeats.Although the molecular players in myogenic differentiation have been extensively studied by the scientific community, the contribution of glycosylated proteins in this process remains poorly documented. An experimental in vitro study based on the C2C12 mouse myoblast cell line allowed us to identify a high expression of Pofut1 in reserve cells while a low expression was found in myotubes during myogenic differentiation. Several C2C12 cell lines were generated to express Pofut1 at different levels. They were used to evaluate the contribution of Pofut1 expression to the myogenic differentiation.The knockdown of Pofut1 repressed Notch signaling pathway activation leading to an earlier entrance of myoblasts in myogenic program. This resulted in the depletion of reserve cells Pax7+/MyoD- and an increase in the number of myotubes. Morphometric analysis revealed a nuclear accretion defect in Pofut1 knockdown myotubes. A significant decrease in the expression of the interleukin-4 receptor in Pofut1 knockdown reserve cells was also observed. Cell lines re-expressing correctly Pofut1 restored Notch signaling pathway and subsequently myoblast fusion process.This thesis work highlights, for the first time, the crucial role of Pofut1 in the cell fate decision and the fusion of myoblasts during myogenic differentiation. Myogenèse Différenciation myogénique Fusion myoblastique Voie de signalisation de Notch Pofut1 O-fucosylation C2C12 Cellules de réserve Myotube Myogenesis Myogenic differentiation, Myoblastic fusion Notch signaling pathway Pofut1 O-fucosylation C2C12 Reserve cells Myotube Pofut1 572.8
10	Ein Knockout-Mausmodell für Congenital Disorder of Glycosylation-IIc: Defizienz des Golgi-GDP-Fucose-Transporters / A knockout mouse model for Congenital Disorder of Glycosylation IIc: Deficiency of the Golgi GDP-fucose transporter Hellbusch, Christina 03 May 2006 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Proteinglykosylierung Fucosylierung Congenital Disorder of Glycosylation IIc Golgi-GDP-Fucose-Transporter protein glycosylation fucosylation Congenital Disorder of Glycosylation IIc Golgi GDP-fucose transporter 42.15 42.13 35.70 WH 000: Cytologie {Biologie} SX 000: Biochemie

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