Friederike Lehmann scite author profile

Sialic acids consist of a family of acidic nine-carbon sugars that are typically located at the terminal positions of a variety of glycoconjugates. Naturally occurring sialic acids show an immense diversity of structure, and this reflects their involvement in a variety of biologically important processes. One such process involves the direct participation of sialic acids in recognition events through specific interactions with lectins, a family of proteins that recognise and bind sugars. This review will present a detailed overview of our current knowledge regarding the occurrence, specificity and function of sialic acid-specific lectins, particularly those that occur in viruses, bacteria and non-vertebrate eukaryotes.

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Septins guide microtubule protrusions induced by actin-depolymerizing toxins like Clostridium difficile transferase (CDT)

Nölke

Schwan

Lehmann

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Hypervirulent Clostridium difficile strains, which are associated with increased morbidity and mortality, produce the actin-ADP ribosylating toxin Clostridium difficile transferase (CDT). CDT depolymerizes actin, causes formation of microtubule-based protrusions, and increases pathogen adherence. Here, we show that septins (SEPT) are essential for CDT-induced protrusion formation. SEPT2, -6, -7, and -9 accumulate at predetermined protrusion sites and form collar-like structures at the base of protrusions. The septin inhibitor forchlorfenuron or knockdown of septins inhibits protrusion formation. At protrusion sites, septins colocalize with the GTPase Cdc42 (cell division control protein 42) and its effector Borg (binder of Rho GTPases), which act as up-stream regulators of septin polymerization. Precipitation and surface plasmon resonance studies revealed high-affinity binding of septins to the microtubule plus-end tracking protein EB1, thereby guiding incoming microtubules. The data suggest that CDT usurps conserved regulatory principles involved in microtubule-membrane interaction, depending on septins, Cdc42, Borgs, and restructuring of the actin cytoskeleton.microtubules | septins | actin | bacterial toxin | Clostridium difficile

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Highly Efficient Retroviral Gene Transfer Based on Centrifugation-Mediated Vector Preloading of Tissue Culture Vessels

Kühlcke¹,

Fehse²,

Schilz³

et al. 2002

Molecular Therapy

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Efficient retroviral gene transfer into primary cells is a prerequisite for various gene therapeutic strategies. We have developed a transduction protocol based on the preloading of tissue culture vessels with retroviral particles by low-speed (1000g) centrifugation. We show that vector-preloaded tissue culture vessels allow highly efficient gene transfer into various target cells. We obtained transduction rates of up to 85% for primary T lymphocytes after just a single round of transduction. Under clinically relevant conditions using a vector developed for suicide gene therapy and produced under good manufacturing practice (GMP) conditions, the described method allowed generation of large numbers (>2x10(9)) of gene-modified T cells. The preloading concept ensures transduction of target cells in their optimal growth medium regardless of the medium used for vector production. This facilitated highly efficient gene transfer into quite different target cells such as CD34(+) and AC133(+) bone marrow progenitor as well as mesenchymal stem cells. The presented method combines high gene-transfer rates with a great potential for standardization in accordance with GMP guidelines and is consequently well suited for both research and clinical applications. (c)2002 Elsevier Science (USA).

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Evolution of sialic acid-binding proteins: molecular cloning and expression of fish siglec-4

et al. 2004

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Siglecs are the largest family of sialic acid-recognizing lectins identified so far with 11 members in the human genome. Most of these siglecs are exclusively expressed by cells of the immune system. Comparison of different mammalian species has revealed differential and complex evolutionary paths for this protein family, even within the primate lineage. To understand the evolution of siglecs, in particular the origin of this family, we investigated the occurrence of corresponding genes in bony fish. Interestingly, only unambiguous orthologs of mammalian siglec-4, a cell adhesion molecule expressed exclusively in the nervous system, could be identified in the genomes of fugu and zebrafish, whereas no obvious orthologs of the other mammalian siglecs were found. As in mammals, fish siglec-4 expression is restricted to nervous tissues as demonstrated by northern blot. Expressed as recombinant protein, fish siglec-4 binds to sialic acids with a specificity similar to the mammalian orthologs. Relatively low sequence similarities in the cytoplasmic tail as well as an additional splice variant found in fish siglec-4 suggest alternative signaling pathways compared to mammalian species. Our observations suggest that this siglec occurs at least in the nervous system of all vertebrates.

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Septin remodeling is essential for the formation of cell membrane protrusions (microtentacles) in detached tumor cells

et al. 2017

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Microtentacles are mostly microtubule-based cell protrusions that are formed by detached tumor cells. Here, we report that the formation of tumor cell microtentacles depends on the presence and dynamics of guanine nucleotide-binding proteins of the septin family, which are part of the cytoskeleton. In matrix-attached breast, lung, prostate and pancreas cancer cells, septins are associated with the cytosolic actin cytoskeleton. Detachment of cells causes redistribution of septins to the membrane, where microtentacle formation occurs. Forchlorfenuron, which inhibits septin functions, blocks microtentacle formation. The small GTPase Cdc42 and its effector proteins Borgs regulate septins and are essential for microtentacle formation. Dominant active and inactive Cdc42 inhibit microtentacle formation indicating that the free cycling of Cdc42 between its active and inactive state is essential for septin regulation and microtentacle formation. Cell attachment and aggregation models suggest that septins play an essential role in the metastatic behavior of tumor cells.

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The rainbow trout CMP-sialic acid synthetase utilises a nuclear localization signal different from that identified in the mouse enzyme

et al. 2007

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The terminal sugar sialic acid (Sia) plays a pivotal role in cell-cell interaction and recognition. A prerequisite for the biosynthesis of sialoglycoconjugates is the activation of Sia to cytidine monophosphate-Sia (CMP-Sia), by CMP-Sia synthetases (CMP-Sia-syn). CMP-Sia-syn are conserved from bacteria to man, and have been found to reside in the nucleus of all vertebrate species analysed to date. We previously cloned the CMP-Sia-syn from rainbow trout (rt) and identified three clusters of basic amino acids (BC) that might act as nuclear localization signals (NLS). Here, we utilised chimeric proteins and rt CMP-Sia-syn mutants in which putative NLS sequences were deleted, to identify the nuclear transport signal. Divergent from the mouse enzyme, where the crucial NLS is part of the enzyme's active site, in the rt CMP-Sia-syn the NLS and active site are disparate. The crucial NLS in the fish enzyme is bipartite and the functionality depends on a free N-terminus. Comparative analysis of all putative rt NLS in mouse and fish cells identified a second inferior motif (rtBC5-6), which was functional only in fish cells suggesting some differences in transport mechanism or folding variabilities in fish. Moreover, based on computational analyses of putative CMP-Sia-syn from distant deuterostomian organisms it was concluded that CMP-Sia-syn nuclear localization is a relatively recent invention, originating in echinoderms. In summary, our data describing structural differences in the NLS of vertebrate CMP-Sia-syn, and the independence of Sia activation from the subcellular localization of the enzyme, provide supporting evidence that nuclear localization is linked to a second yet unknown function.

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The evolution of galactose α2,3-sialyltransferase: Cionaintestinalis ST3GAL I/II and Takifugu rubripes ST3GAL II sialylate Galβ1,3GalNAc structures on glycoproteins but not glycolipids

et al. 2007

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Sialyltransferases are a family of enzymes catalyzing the transfer of sialic acid residues to terminal non-reducing positions of oligosaccharide chains of glycoproteins and glycolipids. Although expression of sialic acid is well documented in animals of the deuterostomian lineage, sialyltransferases have been predominantly described for relatively recent vertebrate lineages such as birds and mammals. This study outlines the characterization of the only sialyltransferase gene found in the tunicate Ciona intestinalis, the first such report of a non-vertebrate deuterostomian sialyltransferase, which has been discussed as a possible orthologue of the common ancestor of galactose alpha2,3-sialyltransferases. We also report for the first time the characterization of a ST3Gal II gene from the bony fish Takifugu rubripes. We demonstrate that both genes encode functional alpha2,3-sialyltransferases that are structurally and functionally related to the ST3Gal family of mammalian sialyltransferases. However, characterization of the recombinant, purified forms of both enzymes reveal novel acceptor substrate specificities, with sialylation of the disaccharide Galbeta1-3GalNAc and asialofetuin, but not GM1 or GD1b observed. This is in contrast to the mammalian ST3Gal II that predominantly sialylates gangliosides. Taken together the ceramide binding/recognition site previously proposed for the mouse ST3Gal II might represent a unique feature of mammalian ST3Gal II that is missing in the evolutionary more distant fish and tunicate species reported here. This suggests that during the evolution of the ST3Gal II, probably following the separation of the teleosts, a significant shift in substrate specificity enabling the sialylation of gangliosides took place.

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Early variations of the disialoganglioside GD3 in chicken embryonic brain support its role in cell migration

et al. 2003

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