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Expression of Globotriaosylceramide in Human CD4+ T-cellsKim, Minji 08 December 2011 (has links)
Globotriaosylceramide (Gb3) is a resistance factor against human immunodeficiency virus (HIV) infection, but its expression has not been studied on human CD4+ T-cells. It was proposed that CD4+ T-cells may express Gb3 upon in vitro stimulation. To examine this, the optimal method for surface-expressed Gb3 detection was determined by comparing reagents, which showed that natural ligand (VT1B) and rat IgM monoclonal antibody (38-13) were the best methods. Using these, stimulated cells upregulated Gb3 in subsets of CD4+ T-cells, including T regulatory and NKT cell phenotypes, although the expression remained less than 2 percent of total cells. An enrichment method confirmed this. Examination of total Gb3 revealed that stimulated CD4+ T-cells without surface-expressed Gb3 did not express intracellular Gb3. Based on these results, it is concluded that CD4+ T-cells do not express Gb3 at significant levels under the conditions examined and, thus, may not have potential for resistance to HIV infection.
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Expression of Globotriaosylceramide in Human CD4+ T-cellsKim, Minji 08 December 2011 (has links)
Globotriaosylceramide (Gb3) is a resistance factor against human immunodeficiency virus (HIV) infection, but its expression has not been studied on human CD4+ T-cells. It was proposed that CD4+ T-cells may express Gb3 upon in vitro stimulation. To examine this, the optimal method for surface-expressed Gb3 detection was determined by comparing reagents, which showed that natural ligand (VT1B) and rat IgM monoclonal antibody (38-13) were the best methods. Using these, stimulated cells upregulated Gb3 in subsets of CD4+ T-cells, including T regulatory and NKT cell phenotypes, although the expression remained less than 2 percent of total cells. An enrichment method confirmed this. Examination of total Gb3 revealed that stimulated CD4+ T-cells without surface-expressed Gb3 did not express intracellular Gb3. Based on these results, it is concluded that CD4+ T-cells do not express Gb3 at significant levels under the conditions examined and, thus, may not have potential for resistance to HIV infection.
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Targeting Gb3 and apoptosis-related proteins to overcome cisplatin resistance / Gb3 och apoptos-relaterade proteiner som måltavla för att bryta cisplatinresistensTyler, Andreas January 2016 (has links)
Background Cisplatin is used for treatment of malignant pleural mesothelioma (MPM) and non-small cell lung cancer (NSCLC) but treatment with cisplatin often leads to acquired resistance to cisplatin, resulting in poor patient survival. Globotriaosylceramide (Gb3) and multidrug resistance protein 1 (MDR1) have been associated with cisplatin resistance. Gb3 serves as a receptor for verotoxin-1 (VT-1), which induces apoptosis, and has been shown to have a functional dependency to MDR1 and heat shock protein 70 (HSP7o). The Bcl-2 family of proteins and inhibitors of apoptosis (IAPs) are key regulators of apoptosis. BH3-mimetics mimic pro-apoptotic BH3-only proteins, while Smac mimetics mimic the IAP-binding protein Smac/Diablo. These drugs have shown great promise in reversing cisplatin resistance. Exosomes are small bio-nanoparticles secreted and taken up by both cancer cells and normal cells. They have the ability to transfer properties between cells and have been shown to confer resistance to cisplatin. Methods In this thesis, NSCLC cell line H1299 and MPM cell line P31 were studied using western blot, flow cytometry, proteome profilers, confocal microscopy and gene expression arrays to investigate changes in protein and gene expression after acquisition of cisplatin resistance (P31res and H1299res) or after incubation with exosomes or drugs that target these. The cytotoxic and apoptotic effects were studied using fluorometric cytotoxicity assay (FMCA) and terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay. Results This thesis confirms that Gb3 is a potential target for cisplatin resistance reversal. Incubation with glycosphingolipid production inhibitor DL-threo-1-phenyl-2-palmitoylamino-3-morpholino-1-propanol (PPMP) and VT-1 led to reduced Gb3 cell surface expression and increased cytotoxic effect of cisplatin in all cell lines. Gb3 and MDR1 was not co-localized in any studied cell line, but Gb3 and HSP70 were co-localized on the cell surface and PPMP and VT-1 led to a decrease of both Gb3 and HSP70. Both BH3-mimetic obatoclax and Smac mimetic AT-406 had an additive effect on cisplatin-induced cytotoxicity and apoptosis in P31 and a synergistic effect in P31res. Results indicate that exosomes from cisplatin-resistant cell lines can transfer HSP70 to the surface of cells. Conclusion Cell surface Gb3 and HSP70, the Bcl-2/IAP-family proteins and exosomal transfer of cisplatin resistance characteristics are potential targets in combatting cisplatin resistance that show therapeutic promise and warrant further research.
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Behandling av cisplatinresistent lungcancer : Induktionsstudie av Gb3-uttryck hos lungcancerceller / Treatment of cisplatin resistance in lung cancer.Weinz, Fanny January 2012 (has links)
No description available.
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Investigating the Anti-viral Property of Verotoxin and its Receptor Gb3 in Preventing Primary HIV-1 InfectionShi, Peilin 20 December 2011 (has links)
Verotoxin produced by Enterohemorrhagic E. coli is comprised of a catalytic A subunit and a receptor Gb3 binding B subunit pentamer. VT causes protein synthesis inhibition by ribosomal inactivation in Gb3 positive cells via receptor mediated endocytosis and retrograde transport to the ER. We propose that verotoxin is a novel inhibitor for HIV-1 infection. Experiments conducted using VT treated Jurkat-C T cells and PHA/IL-2 activated human PBMCs reveal the anti-HIV-1 property of VT is receptor Gb3 independent since the catalytic A subunit alone is sufficient for inhibition. Possible mechanism of action involves mild inhibition of protein synthesis and cell proliferation. Recent findings in our lab suggest Gb3 is a natural resistance factor for HIV-1 infection, which was further investigated by selecting a Gb3 low subpopulation in THP-1 cells using VT treatment. Selected THP-1 cells were completely resistant to HIV-1 infection, however decreased surface CXCR4 expression may be a cause.
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Investigating the Anti-viral Property of Verotoxin and its Receptor Gb3 in Preventing Primary HIV-1 InfectionShi, Peilin 20 December 2011 (has links)
Verotoxin produced by Enterohemorrhagic E. coli is comprised of a catalytic A subunit and a receptor Gb3 binding B subunit pentamer. VT causes protein synthesis inhibition by ribosomal inactivation in Gb3 positive cells via receptor mediated endocytosis and retrograde transport to the ER. We propose that verotoxin is a novel inhibitor for HIV-1 infection. Experiments conducted using VT treated Jurkat-C T cells and PHA/IL-2 activated human PBMCs reveal the anti-HIV-1 property of VT is receptor Gb3 independent since the catalytic A subunit alone is sufficient for inhibition. Possible mechanism of action involves mild inhibition of protein synthesis and cell proliferation. Recent findings in our lab suggest Gb3 is a natural resistance factor for HIV-1 infection, which was further investigated by selecting a Gb3 low subpopulation in THP-1 cells using VT treatment. Selected THP-1 cells were completely resistant to HIV-1 infection, however decreased surface CXCR4 expression may be a cause.
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A host-guest system for determining residue contributions to protein adsorption on nanoparticles by NMRAlom, Md Siddik 07 August 2020 (has links)
Nanoparticles have become increasingly useful in the fields of drug delivery and biosensing. In these applications, nanoparticles are frequently exposed to biological fluids, where proteins will spontaneously adsorb to the nanoparticle surface when exposed to a mixture of proteins. This project aims to present a predictive host-guest system for quantifying each residue’s contribution to nanoparticle binding. Initial studies revealed that lysine at position 13 plays a crucial role in the adsorption of GB3 to 15 nm citrate-coated spherical gold nanoparticles (AuNPs). Therefore, we have constructed a library of K13X GB3 variants, and our initial findings confirm that basic residues (Arg) interact more favorably with AuNPs than other polar (Asn) and acidic side (Glu) chains, and a rank-ordering of side-chain affinity for AuNP surfaces could be inferred in further studies. A simple mechanism can be used to interpret these rankings with respect to thermodynamic vs. kinetic control in future studies.
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Le récepteur Gb3/CD77 : analyse de l’apoptose induite par la vérotoxine-1 dans les cellules de lymphome de Burkitt et recherche de ligands endogènes / Gb3/CD77 receptor : VT-1 apoptotic signaling pathway analysis in Burkitt lymphoma cells and research of endogens ligandsDebernardi, Justine 18 December 2015 (has links)
Le glycolipide Gb3/CD77 qui est fortement exprimé en surface des cellules de lymphome de Burkitt (LB) est le récepteur d’une toxine bactérienne la Vérotoxine-1 (VT-1). Notre équipe a montré précédemment que, dans les cellules de LB, la VT-1 induit une cascade apoptotique mettant en jeu les caspases et la mitochondrie. Mon travail a consisté à poursuivre l’analyse des bases moléculaires de ce processus, notamment en m’intéressant au rôle de la protéine pro-apoptotique Bid. Bid est un membre de la famille Bcl-2 qui est clivé par la caspase-8 au cours de l’apoptose et dont la forme tronquée (t-Bid) se relocalise à la mitochondrie. Grâce à l’utilisation de clones cellulaires de LB où Bid a été inhibée puis réexprimée sous forme non clivable et d’un inhibiteur de la caspase-8, nous avons montré que lors de l’apoptose induite par la VT1 : 1) la protéine entière Bid (full-length Bid ou FL-Bid) contrôle l’activation de protéines pro-apoptotiques Bax et de Bak ; 2) t-Bid et FL-Bid sont, toutes les deux, impliquées dans la libération des protéines pro-apoptotiques (cytochrome c et Smac/DIABLO) de l’espace intermembranaire de la mitochondrie vers le cytosol ; 3) FL-Bid contrôle l’homodimérisation de Bax et de Bak qui contribuerait à la libération initiale du cytochrome c et de Smac/DIABLO alors que t-Bid est nécessaire à l’hétérodimérisation de Bax et Bak qui permettrait l’amplification de cette libération. L’ensemble de ces résultats montre donc une coopération fonctionnelle entre Bax et Bak au cours de l’apoptose induite par la VT-1 et surtout met en évidence que l’activation de la voie caspase-8/t-Bid n’est absolument pas requise pour initier la mort cellulaire.Gb3/CD77 est aussi exprimé à la surface de certains lymphocytes B normaux, où il constitue un marqueur de différenciation mais sa fonction endogène reste encore indéterminée. Une deuxième partie de mon travail a consisté à essayer d’identifier le ligand physiologique de Gb3/CD77 pour comprendre son rôle biologique. Grâce à une analyse en spectrométrie de masse, nous avons identifié deux protéines potentiellement partenaires de Gb3/CD77 : la galectine-7 et la protéine S100A11. / The Gb3/CD77 glycolipid, which is strongly expressed in Burkitt's lymphoma (BL) cells, is a receptor for the bacterial toxin Verotoxin-1 (VT-1). Previously, our group has shown that VT-1 induces an apoptotic pathway in BL cells which is dependent on caspases and mitochondria. Here, we provide new insights into this pathway. A pro-apoptotic member in the Bcl-2 family, Bid is cleaved by caspase-8 and its truncated form t-Bid is translocated to mitochondria. Using LB cell clones where Bid was inhibited prior to being reexpressed as a non-cleavable mutated form (BID D59A) and a caspase-8 inhibitor to explore VT-1-induced apoptosis, we showed that 1) the full length Bid (FL-Bid) controls the activation of pro-apoptotic proteins Bax and Bak; 2) Both t-Bid and FL-Bid are involved in the release of pro-apoptotic proteins (cytochrome c and Smac/DIABLO) from the mitochondrial intermembrane space to the cytosol; 3) FL-Bid controls the homo-oligomerization of both Bax and Bak, likely contributing to the initial release of cytochrome c and Smac/DIABLO while t-Bid is needed for their hetero-oligomerization followed by amplification of the release. Together, these results reveal a functional cooperation between Bax and Bak during VT-1-induced apoptosis and, most importantly, that activation of caspase-8 and t-Bid is not required to induce the onset of cell death. Gb3/CD77 is also expressed in a proportion of normal B-lymphocytes where it constitutes a differentiation marker but whose function remains uncharacterized. In an effort to look for physiological ligands, we have used a biochemical approach followed by mass spectrometry analysis. Two proteins have been identified as potentially Gb3/CD77 partners, namely galectin-7 and protein S100A11.
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Multidrug Resistance Protein 1 (MDR1) and Glycosphingolipids Biosynthesis: Advantages for TherapeuticsDe Rosa, Maria Fabiana 03 March 2010 (has links)
ABC drug transporter, MDR1, is a drug flippase that moves a variety of hydrophobic molecules from the inner to the outer leaflet of the plasma membrane. We have previously reported that MDR1 can function as a glycolipid flippase, being one of the mechanisms responsible for the translocation of glucosylceramide into the Golgi for neutral, but not acidic, glycosphingolipids (GSLs) synthesis. The interplay between GSLs and MDR1 could provide a whole new spectrum of innovative therapeutic options. We found that cell surface MDR1 partially co-localized with globotriaosyl ceramide (Gb3) in MDR1 transfected cells. Inhibition of GSL biosynthesis results in the loss of drug resistance and of cell surface MDR1. We speculated that an association of MDR1 and cell surface GSLs, in particular Gb3, may be functional at the cell surface, as MDR1 partitions into plasma membrane lipid rafts regulating MDR1 function. We therefore tested adamantyl Gb3 (adaGb3), a water soluble analog of Gb3, on MDR1 functions. AdaGb3 was able to inhibit MDR1-mediated rhodamine 123 drug efflux from MDR1 expressing cells, like cyclosporin A (CsA), a classical MDR1 inhibitor. AdaGb3 was also able to reverse vinblastine drug resistance in cell culture, whereas adamantyl galactosylceramide had no effect on drug resistance. The strong MDR1 reversal effects of adaGb3, as well as its favourable in vivo features make it a possible choice for inhibition of MDR1 to increase bioavailability of drugs across the intestinal epithelium (De Rosa et al., 2008). Thus, specific GSL analogs provide a new approach to MDR reversal. We have previously shown that MDR1 inhibitor CsA depletes Fabry cell lines of Gb3, the characteristic GSL accumulated in this disease, by preventing its de novo synthesis, and can also deplete Gaucher lymphoid cell lines of accumulated GlcCer (Mattocks et al., 2006). Liver and heart sections of Fabry mice treated with third generation MDR1 inhibitors showed significantly less Gb3 than liver and heart sections of untreated Fabry mice. Thus, MDR1 inhibition offers a potential alternative therapeutic approach not only for Fabry disease given the extraordinary cost of conventional enzyme replacement therapy, but also for other neutral GSL storage diseases, such as Gaucher disease.
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Multidrug Resistance Protein 1 (MDR1) and Glycosphingolipids Biosynthesis: Advantages for TherapeuticsDe Rosa, Maria Fabiana 03 March 2010 (has links)
ABC drug transporter, MDR1, is a drug flippase that moves a variety of hydrophobic molecules from the inner to the outer leaflet of the plasma membrane. We have previously reported that MDR1 can function as a glycolipid flippase, being one of the mechanisms responsible for the translocation of glucosylceramide into the Golgi for neutral, but not acidic, glycosphingolipids (GSLs) synthesis. The interplay between GSLs and MDR1 could provide a whole new spectrum of innovative therapeutic options. We found that cell surface MDR1 partially co-localized with globotriaosyl ceramide (Gb3) in MDR1 transfected cells. Inhibition of GSL biosynthesis results in the loss of drug resistance and of cell surface MDR1. We speculated that an association of MDR1 and cell surface GSLs, in particular Gb3, may be functional at the cell surface, as MDR1 partitions into plasma membrane lipid rafts regulating MDR1 function. We therefore tested adamantyl Gb3 (adaGb3), a water soluble analog of Gb3, on MDR1 functions. AdaGb3 was able to inhibit MDR1-mediated rhodamine 123 drug efflux from MDR1 expressing cells, like cyclosporin A (CsA), a classical MDR1 inhibitor. AdaGb3 was also able to reverse vinblastine drug resistance in cell culture, whereas adamantyl galactosylceramide had no effect on drug resistance. The strong MDR1 reversal effects of adaGb3, as well as its favourable in vivo features make it a possible choice for inhibition of MDR1 to increase bioavailability of drugs across the intestinal epithelium (De Rosa et al., 2008). Thus, specific GSL analogs provide a new approach to MDR reversal. We have previously shown that MDR1 inhibitor CsA depletes Fabry cell lines of Gb3, the characteristic GSL accumulated in this disease, by preventing its de novo synthesis, and can also deplete Gaucher lymphoid cell lines of accumulated GlcCer (Mattocks et al., 2006). Liver and heart sections of Fabry mice treated with third generation MDR1 inhibitors showed significantly less Gb3 than liver and heart sections of untreated Fabry mice. Thus, MDR1 inhibition offers a potential alternative therapeutic approach not only for Fabry disease given the extraordinary cost of conventional enzyme replacement therapy, but also for other neutral GSL storage diseases, such as Gaucher disease.
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