Mutsumi Sugita scite author profile

Abbreviations are as follows. The center dot indicates that the polynucleotide chains before and after the dot are hybridized; (dT)10, a ten-unit oligomer of deoxythymidylate; (dA),,, a polymer (length unspecified) of deoxyadenylate; (A)n, a polymer of adenylate; (dT),,, a polymer of deoxythymidylate; (dA-dT),, a polymer of deoxyadenylate and deoxythymidylate units in alternating sequence; dGTP, deoxyguanosine triphosphate; dATP, deoxyadenosine triphosphate; dCTP, deoxycytidine triphosphate; dTTP, deoxythymidine triphosphate; dTMP, deoxythymidine monophosphate.Abstract. Ceramidase activity could not be demonstrated in the

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Identification and Characterization of Carbohydrate Molecules in Mammalian Cells Recognized by Dengue Virus Type 2

Aoki¹,

Hidari²,

Itonori³

et al. 2006

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The interaction between cell surface receptors and the envelope glycoprotein (EGP) on the viral membrane surface is the initial step of Dengue virus infection. To understand the host range, tissue tropism, and virulence of this pathogen, it is critical to elucidate the molecular mechanisms of the interaction of EGP with receptor molecules. Here, using a TLC/virus-binding assay, we isolated and characterized a carbohydrate molecule on mammalian cell surfaces that is recognized by dengue virus type 2 (DEN2). Structural determination by immunochemical methods showed that the carbohydrate structure of the purified glycosphingolipid was neolactotetraosylceramide (nLc4Cer). This glycosphingolipid was expressed on the cell surface of susceptible cells, such as human erythroleukemia K562 and baby hamster kidney BHK-21. All serotypes of DEN viruses, DEN1 to DEN4, reacted with nLc4Cer, and the non-reducing terminal disaccharide residue Galbeta1-4GlcNAcbeta1- was found to be a critical determinant for the binding of DEN2. Chemically synthesized derivatives carrying multiple carbohydrate residues of nLc4, but not nLc4 oligosaccharide, inhibited DEN2 infection of BHK-21 cells. These findings strongly suggested that multivalent nLc4 oligosaccharide could act as a competitive inhibitor against the binding of DEN2 to the host cells.

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Structural elucidation of novel phosphocholine-containing glycosylinositol-phosphoceramides in filamentous fungi and their induction of cell death of cultured rice cells

Aoki

Uchiyama

Itonori

et al. 2004

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Novel ZGLs (zwitterionic glycosphingolipids) have been found in and extracted from the mycelia of filamentous fungi ( Acremonium sp.) isolated from soil. Five ZGLs (ZGL1-ZGL5) were structurally elucidated by sugar compositional analysis, methylation analysis, periodate oxidation, matrix-assisted laser-desorption ionization-time-of-flight MS, (1)H-NMR spectroscopy and fast-atom bombardment MS. Their chemical structures were as follows: GlcN(alpha1-2)Ins1-P-1Cer (ZGL1), Man(alpha1-6)GlcN(alpha1-2)Ins1-P-1Cer (ZGL2), Man(alpha1-6)Man(alpha1-6)GlcN(alpha1-2)Ins1-P-1Cer (ZGL3), PC-->6Man(alpha1-6)GlcN(alpha1-2)Ins1- P -1Cer (ZGL4), and PC-->6Man(alpha1-6)Man(alpha1-6)GlcN(alpha1-2)Ins1-P-1Cer (ZGL5) (where Cer is ceramide and PC is phosphocholine). In addition, one acidic glycosphingolipid, which was the precursor of ZGLs, was also characterized as inositol-phosphoceramide. The core structure of the ZGLs, GlcN(alpha1-2)Ins1- P, is rather different from those found in other fungi, such as Man(alpha1-2)Ins1- P and Man(alpha1-6)Ins1- P. Interestingly, the terminal mannose residue of ZGL4 and ZGL5 was modified further with a PC group. The presence of PC-containing glycosylinositol-phosphoceramides has not been reported previously in any organism. The ceramide constituents of both ZGLs and acidic glycosphingolipid were essentially the same, and consisted of a 4-hydroxyoctadecasphinganine (phytosphingosine) as the sole sphingoid base and 2-hydroxytetracosanoic acid (>90%) as the major fatty acid. ZGLs were found to cause cell death in suspensions of cultured rice cells. The cell death-inducing activity of ZGLs is probably due to the characteristic glycan moiety of Man(alpha1-6)GlcN, and PC-containing ZGLs had high activity. This study is the first to demonstrate that fungal glycosylinositol-phosphoceramides induce cell death in cultured rice cells.

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Microwave-mediated analysis for sugar, fatty acid, and sphingoid compositions of glycosphingolipids

Itonori

Takahashi

Kitamura

et al. 2004

Journal of Lipid Research

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For chemical characterization of glycosphingolipids, it is necessary to determine the chemical compositions of three constituents, i.e., sugars, fatty acids, and sphingoids. A new rapid analytical method is described using a one-pot reaction in a household microwave oven, producing sugars, fatty acids, and especially sphingoids free of byproducts, from a single aliquot of a biological sample. Glycosphingolipids were hydrolyzed by microwave exposure with 0.1 M NaOH/CH 3 OH for 2 min followed by 1 M HCl/ CH 3 OH for 45 s. The alkaline methanolysis step produced intermediate lysoglycosphingolipids virtually free of byproducts such as the O -methyl ethers usually seen. The fatty acid methyl esters were extracted with n-hexane, and other reaction products were dried, taken up in aqueous alkaline methanol, and shaken with chloroform. Sphingoids partitioned into the organic phase under these conditions, whereas the sugar portion that partitioned into the aqueous phase was re-N -acetylated and remethanolyzed for 30 s by microwave exposure.Analysis of the profiles of glycosphingolipid constituents obtained using the microwave oven method showed that they were quantitatively and qualitatively comparable to those obtained by time-consuming conventional methods, which require reaction for several hours. Analysis of the three constituents, including analysis by gas chromatography, may be obtained within 1 day using the method described here.

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Mutsumi Sugita

Ceramidase and ceramide synthesis in human kidney and cerebellum

Ceramidase Deficiency in Farber's Disease (Lipogranulomatosis)

Identification and Characterization of Carbohydrate Molecules in Mammalian Cells Recognized by Dengue Virus Type 2

Structural elucidation of novel phosphocholine-containing glycosylinositol-phosphoceramides in filamentous fungi and their induction of cell death of cultured rice cells

Microwave-mediated analysis for sugar, fatty acid, and sphingoid compositions of glycosphingolipids

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