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.
Recombinant beta-amyrin synthase from Pisum sativum converted 24,30-bisnor-2,3-oxidosqualene into a 3:1:0.2 mixture of 29,30-bisnor-beta-amyrin, 29,30-bisnorgermanicol, and 29,30-bisnor-delta-amyrin. Further, enzyme reactions with [23-13C]- and [23,23-2H]-labeled isotopomers demonstrated that the cyclization did not proceed through formation of a lupanyl primary cation with a five-membered E-ring, but an electrophilic addition of the tetracyclic C-18 cation on to the terminal double bond directly generated a thermodynamically favored pentacyclic secondary cation with a less-strained six-membered E-ring. Interestingly, the formation of the three regioisomers suggested that the absence of the terminal methyl groups resulted in a structural perturbation in the folding conformation of the E-ring of the oleanyl cation at the active site of the enzyme.
Ethanol extracts of lyophilized vegetables were tested for inhibition of human lanosterol synthase (hOSC) in order to find the compounds to suppress cholesterol biosynthesis. Of 130 samples tested, twelve samples showed significant inhibition. Among them, Colocasia esculenta (taro) showed the highest inhibition (55% inhibition at 300 m mg/ml). Examination of activity variation among eight taro cultivars indicated that "Aichi-wase" and "Yatsugashira" had the most potent activity for hOSC inhibition. In order to identify the active constituent of taro, ethanol extracts of "Aichi-wase" were partitioned with hexane and aqueous methanol, and fractionated by silica gel column chromatography. Inhibitory activity was concentrated in two major active fractions. Further purification of these fractions by preparative HPLC gave three monogalactosyldiacylglycerols and five digalactosyldiacylglycerols as active compounds that showed 28 to 67% inhibitory activities at the concentration 300 m mg/ml.
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