Author: Yabe, Rikio; Tateno, Hiroaki; Hirabayashi, Jun
Title: Frontal affinity chromatography analysis of constructs of DCâ€SIGN, DCâ€SIGNR and LSECtin extend evidence for affinity to agalactosylated Nâ€glycans Cord-id: jj5hxmq5 Document date: 2010_9_1
ID: jj5hxmq5
Snippet: Dendritic cellâ€specific intracellular adhesion moleculeâ€3â€grabbing nonintegrin (DCâ€SIGN) is a member of the Câ€type lectin family selectively expressed on immuneâ€related cells. In the present study, we performed a systematic interaction analysis of DCâ€SIGN and its related receptors, DCâ€SIGNâ€related protein (DCâ€SIGNR) and liver and lymph node sinusoidal endothelial cell Câ€type lectin (LSECtin) using frontal affinity chromatography (FAC). Carbohydrateâ€recognition domains of
Document: Dendritic cellâ€specific intracellular adhesion moleculeâ€3â€grabbing nonintegrin (DCâ€SIGN) is a member of the Câ€type lectin family selectively expressed on immuneâ€related cells. In the present study, we performed a systematic interaction analysis of DCâ€SIGN and its related receptors, DCâ€SIGNâ€related protein (DCâ€SIGNR) and liver and lymph node sinusoidal endothelial cell Câ€type lectin (LSECtin) using frontal affinity chromatography (FAC). Carbohydrateâ€recognition domains of the lectins, expressed as Fc–fusion chimeras, were immobilized to Protein A–Sepharose and subjected to quantitative FAC analysis using 157 pyridylaminated glycans. Both DCâ€SIGN–Fc and DCâ€SIGNR–Fc showed similar specificities for glycans containing terminal mannose and fucose, but great difference in affinity under the given experimental conditions. By contrast, LSECtin–Fc showed no affinity to these glycans. As a common feature, the DCâ€SIGNâ€related lectin–Fc chimeras, including LSECtin, exhibited binding affinity to mono†and/or biâ€antennary agalactosylated Nâ€glycans. The detailed FAC analysis further implied that the presence of terminal GlcNAc at the Nâ€acetylglucosaminyltransferase I position is a key determinant for the binding of these lectins to agalactosylated Nâ€glycans. By contrast, none of the lectins showed significant affinity to highly branched agalactosylated Nâ€glycans. All of the lectins expressed on the cells were able to mediate cellular adhesion to agalactosylated cells and endocytosis of a model glycoprotein, agalactosylated α1â€acid glycoprotein. In this context, we also identified three agalactosylated serum glycoproteins recognized by DCâ€SIGNâ€Fc (i.e. αâ€2â€macroglobulin, serotransferrin and IgG heavy chain), by lectin blotting and MS analysis. Hence, we propose that ‘agalactosylated Nâ€glycans’ are candidate ligands common to these lectins.
Search related documents:
Co phrase search for related documents- absence presence and acute sars cov respiratory syndrome coronavirus: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25
- absence presence and adaptive immune response: 1, 2
- absence presence and adherent cell: 1
- accumulate evidence and adaptive immune response: 1
- acute phase and adaptive immune response: 1, 2, 3, 4, 5, 6, 7, 8
- acute phase and liver sinusoidal: 1
- acute sars cov respiratory syndrome coronavirus and adaptive immune response: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25
- acute sars cov respiratory syndrome coronavirus and adherent cell: 1, 2, 3, 4
- acute sars cov respiratory syndrome coronavirus and adhesion receptor: 1, 2, 3
- acute sars cov respiratory syndrome coronavirus and liver produce: 1
- acute sars cov respiratory syndrome coronavirus and liver sinusoidal: 1, 2, 3
- adaptive immune response and liver produce: 1
Co phrase search for related documents, hyperlinks ordered by date