Noboru Uchiyama scite author profile

Glycans have important roles in living organisms with their structural diversity. Thus, glycomics, especially aspects involving the assignment of functional glycans in a high-throughput manner, has been an emerging field in the postproteomics era. To date, however, there has been no versatile method for glycan profiling. Here we describe a new microarray procedure based on an evanescent-field fluorescence-detection principle, which allows sensitive, real-time observation of multiple lectin-carbohydrate interactions under equilibrium conditions. The method allows quantitative detection of even weak lectin-carbohydrate interactions (dissociation constant, K(d) > 10(-6) M) as fluorescent signals for 39 immobilized lectins. We derived fully specific signal patterns for various Cy3-labeled glycoproteins, glycopeptides and tetramethylrhodamine (TMR)-labeled oligosaccharides. The obtained results were consistent with the previous reports of glycoprotein and lectin specificities. We investigated the latter aspects in detail by frontal affinity chromatography, another profiling method. Thus, the developed lectin microarray should contribute to creation of a new paradigm for glycomics.

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Inhibition of tumor cell-induced platelet aggregation using a novel anti-podoplanin antibody reacting with its platelet-aggregation-stimulating domain

Kato

Kaneko

Kuno

et al. 2006

Biochemical and Biophysical Research Communications

201

203

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Glycoconjugate microarray based on an evanescent-field fluorescence-assisted detection principle for investigation of glycan-binding proteins

et al. 2008

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The extensive involvement of glycan-binding proteins (GBPs) as regulators in diverse biological phenomena provides a fundamental reason to investigate their glycan-binding specificities. Here, we developed a glycoconjugate microarray based on an evanescent-field fluorescence-assisted detection principle for investigation of GBPs. Eighty-nine selected multivalent glycoconjugates comprising natural glycoproteins, neo-glycoproteins, and polyacrylamide (PAA)-conjugated glycan epitopes were immobilized on an epoxy-activated glass slide. The GBP binding was monitored by an evanescent-field fluorescence-assisted scanner at equilibrium without washing steps. The detection principle also allows direct application of unpurified GBPs with the aid of specific antibodies. Model experiments using plant lectins (RCA120, ConA, and SNA), galectins (3 and 8), a C-type lectin (DC-SIGN) and a siglec (CD22) provided data consistent with previous work within 4 h using less than 40 ng of GBPs per analysis. As an application, serum profiling of antiglycan antibodies (IgG and IgM) was performed with Cy3-labeled secondary antibodies. Moreover, novel carbohydrate-binding ability was demonstrated for a human IL-18 binding protein. Thus, the developed glycan array is useful for investigation of various types of GBPs, with the added advantage of wash-free analysis.

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A novel strategy for mammalian cell surface glycome profiling using lectin microarray

et al. 2007

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The glycome represents the total set of glycans expressed in a cell. The glycome has been assumed to vary between cell types, stages of development and differentiation, and during malignant transformation. Analysis of the glycome provides a basis for understanding the functions of glycans in these cellular processes. Recently, a technique called lectin microarray was developed for rapid profiling of glycosylation, although its use was mainly restricted to glycoproteins of cell lysates, and thus unable to profile the intact cell surface glycans. Here we report a simple and sensitive procedure based on this technology for direct analysis of the live mammalian cell-surface glycome. Fluorescent-labeled live cells were applied in situ to the established lectin microarray consisting of 43 immobilized lectins with distinctive binding specificities. After washing, bound cells were directly detected by an evanescent-field fluorescence scanner in a liquid phase without fixing and permeabilization. The results obtained by differential profiling of CHO and its glycosylation-defective mutant cells, and splenocytes of wild-type and beta1-3-N-acetylglucosaminyltransferase II knockout mice performed as model experiments agreed well with their glycosylation phenotypes. We also compared cell surface glycans of K562 cells before and after differentiation and found a significant increase in the expression of O-glycans on differentiated cells. These results demonstrate that the technique provides a novel strategy for profiling global changes of the mammalian cell surface glycome.

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Optimization of evanescent‐field fluorescence‐assisted lectin microarray for high‐sensitivity detection of monovalent oligosaccharides and glycoproteins

et al. 2008

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Lectin microarray is an emerging technique, which will accelerate glycan profiling and discovery of glycan-related biomarkers. One of the most important stages in realizing the potential of the technique is to achieve sufficiently high sensitivity to detect even the low concentrations of some target glycoproteins which occur in sera or tissues. Previously, we developed a lectin microarray based on an evanescent-field fluorescence-assisted detection principle that allows rapid profiling of glycoproteins. Here, we report optimization of procedures for lectin spotting and immobilization to improve the sensitivity and reproducibility of the lectin microarray. The improved microarray allows high-sensitivity detection of even monovalent oligosaccharides that generally have a low affinity with lectins (K(d)>10(-6) M). The LOD observed for RCA120, a representative plant lectin, with asialofetuin, and an asialo-biantennary N-glycan probe were determined to be 100 pg/mL and 100 pM, respectively. With the improved lectin microarray system, closely related structural isomers, i.e., Le(a) and Le(x), were clearly differentiated by the difference in signal patterns on relevant multiple lectins, even though specific lectins to detect these glycan structures were not available. The result proved a previously proposed concept of lectin-based glycan profiling.

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Application of Lectin Microarray to Crude Samples: Differential Glycan Profiling of Lec Mutants

Ebe¹,

Kuno²,

Uchiyama³

et al. 2006

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We recently developed a novel system for lectin microarray based on the evanescent-field fluorescence-detection principle, by which even weak lectin-oligosaccharide interactions are detectable without a washing procedure. For its practical application, cell glycan analysis was performed for Chinese hamster ovary (CHO) cells and their glycan profile was compared with those of their glycosylation-defective Lec mutants. Each of the cell surface extracts gave a significantly different profile from that of the parental CHO cells in a manner reflecting denoted biosynthetic features. Hence, the developed lectin microarray system is considered to be fully applicable for differential glycan profiling of crude samples.

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Analysis of the sugar‐binding specificity of mannose‐binding‐type Jacalin‐related lectins by frontal affinity chromatography – an approach to functional classification

et al. 2008

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The Jacalin-related lectin (JRL) family is one of the seven plant lectin families categorized by Van Damme et al. [1]. As members belonging to the family show obvious differences in their basic molecular structure, sugar-binding specificities and subcellular location, they are further classified into two subgroups:Keywords frontal affinity chromatography; highmannose-type glycans; Jacalin-related lectin; molecular evolution; sugar-binding specificity The Jacalin-related lectin (JRL) family comprises galactose-binding-type (gJRLs) and mannose-binding-type (mJRLs) lectins. Although the documented occurrence of gJRLs is confined to the family Moraceae, mJRLs are widespread in the plant kingdom. A detailed comparison of sugar-binding specificity was made by frontal affinity chromatography to corroborate the structure-function relationships of the extended mJRL subfamily. Eight mJRLs covering a broad taxonomic range were used: Artocarpin from Artocarpus integrifolia (jackfruit, Moraceae), BanLec from Musa acuminata (banana, Musaceae), Calsepa from Calystegia sepium (hedge bindweed, Convolvulaceae), CCA from Castanea crenata (Japanese chestnut, Fagaceae), Conarva from Convolvulus arvensis (bindweed, Convolvulaceae), CRLL from Cycas revoluta (King Sago palm tree, Cycadaceae), Heltuba from Helianthus tuberosus (Jerusalem artichoke, Asteraceae) and MornigaM from Morus nigra (black mulberry, Moraceae). The result using 103 pyridylaminated glycans clearly divided the mJRLs into two major groups, each of which was further divided into two subgroups based on the preference for high-mannose-type N-glycans. This criterion also applied to the binding preference for complex-type N-glycans. Notably, the result of cluster analysis of the amino acid sequences clearly corresponded to the above specificity classification. Thus, marked correlation between the sugar-binding specificity of mJRLs and their phylogeny should shed light on the functional significance of JRLs.

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Regulation of adult neural progenitor cells by Galectin‐1/β1 Integrin interaction

Sakaguchi

Imaizumi

Shingo

et al. 2010

Journal of Neurochemistry

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J. Neurochem. (2010) 113, 1516–1524. Abstract Neural stem cells (NSCs) proliferate and generate new neurons in the adult brain. A carbohydrate‐binding protein (lectin), Galectin‐1, is expressed in the NSCs in the subependymal zone (SEZ) of the adult mouse brain. The infusion and knockout of Galectin‐1 in the SEZ results in an increase and decrease, respectively, of NSCs and subsequently born progenitor cells. The molecular mechanism of this effect, however, has been unknown. Previous studies outside the brain suggest that Galectin‐1 binds to a carbohydrate structure of β1 Integrin and modulates cell adhesion. Here, we studied the functional interaction between Galectin‐1 and β1 Integrin in the adult mouse SEZ. β1 Integrin was purified from adult SEZ tissue by binding to a Galectin‐1 affinity column, and this binding depended on Galectin‐1’s carbohydrate‐binding activity. In adult brain sections, Galectin‐1‐binding activity was detected on β1 Integrin‐expressing cells in the SEZ. Furthermore, in the adult SEZ, the simultaneous infusion of a β1 Integrin‐neutralizing antibody with Galectin‐1 protein reversed the increasing effect of Galectin‐1 on the number of adult neural progenitor cells (NPCs). Finally, intact β1 Integrin was required for Galectin‐1’s function in NPC adhesion in vitro. These results suggest that the interaction between β1 Integrin and Galectin‐1 plays an important role in regulating the number of adult NPCs through mechanisms including cell adhesion.

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Noboru Uchiyama

Evanescent-field fluorescence-assisted lectin microarray: a new strategy for glycan profiling

Inhibition of tumor cell-induced platelet aggregation using a novel anti-podoplanin antibody reacting with its platelet-aggregation-stimulating domain

Glycoconjugate microarray based on an evanescent-field fluorescence-assisted detection principle for investigation of glycan-binding proteins

A novel strategy for mammalian cell surface glycome profiling using lectin microarray

Optimization of evanescent‐field fluorescence‐assisted lectin microarray for high‐sensitivity detection of monovalent oligosaccharides and glycoproteins

Application of Lectin Microarray to Crude Samples: Differential Glycan Profiling of Lec Mutants

Analysis of the sugar‐binding specificity of mannose‐binding‐type Jacalin‐related lectins by frontal affinity chromatography – an approach to functional classification

Regulation of adult neural progenitor cells by Galectin‐1/β1 Integrin interaction

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