Toyo Nishimura scite author profile

BACKGROUNDSerum α1‐acid glycoprotein (AGP), an acute‐phase protein secreted by the liver, carries α(1,3)‐fucosylated structures on its 5 highly branched, N‐linked sugar chains.METHODSSerum AGP levels in patients with various types of malignancies (n = 214 patients) were measured using an enzyme‐linked immunosorbent assay with anti‐AGP antibody. To investigate glycoforms that differed in their degree of branching and extent of fucosylation, serum AGP samples were analyzed by crossed affinoimmunoelectrophoresis (CAIE) with concanavalin A, and Aleuria aurantia lectin (AAL), and anti‐AGP antibody.RESULTSA significant difference (P < 0.001) in serum AGP levels was observed in preoperative patients compared with levels in the healthy control group, but the levels in individual patients did not reflect their clinical status. Conversely, it was found not only that the patterns of AGP glycoforms differed widely in the patient group compared with the healthy control group, but they also changed depending on each patient's clinical status. Furthermore, AGP glycoforms seemed to be appropriate markers of disease progression and prognosis according to follow‐up studies of 45 patients during prolonged preoperative and postoperative periods.CONCLUSIONSPatients with advanced malignancies who had AGP glycoforms that contained highly fucosylated triantennary and tetraantennary sugar chains for long periods after surgery were likely to have a poor prognosis. However, patients who had AGP glycoforms without such changes were expected to have a good prognosis. Cancer 2004. © 2004 American Cancer Society.

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Development of a Novel System for Mass Spectrometric Analysis of Cancer-Associated Fucosylation in Plasmaα₁-Acid Glycoprotein

Asao

Yazawa

Nishimura

et al. 2013

BioMed Research International

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Human plasma α 1-acid glycoprotein (AGP) from cancer patients and healthy volunteers was purified by sequential application of ion-exchange columns, and N-linked glycans enzymatically released from AGP were labeled and applied to a mass spectrometer. Additionally, a novel software system for use in combination with a mass spectrometer to determine N-linked glycans in AGP was developed. A database with 607 glycans including 453 different glycan structures that were theoretically predicted to be present in AGP was prepared for designing the software called AGPAS. This AGPAS was applied to determine relative abundance of each glycan in the AGP molecules based on mass spectra. It was found that the relative abundance of fucosylated glycans in tri- and tetra-antennary structures (FUCAGP) was significantly higher in cancer patients as compared with the healthy group (P < 0.001). Furthermore, extremely elevated levels of FUCAGP were found specifically in patients with a poor prognosis but not in patients with a good prognosis. In conclusion, the present software system allowed rapid determination of the primary structures of AGP glycans. The fucosylated glycans as novel tumor markers have clinical relevance in the diagnosis and assessment of cancer progression as well as patient prognosis.

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Tumor-related expression of 1,2fucosylated antigens on colorectal carcinoma cells and its suppression by cell-mediated priming using sugar acceptors for 1,2fucosyltransferase

Yazawa¹,

Nishimura²,

Ide³

et al. 2002

Glycobiology

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The accumulation of alpha1,2fucosylated antigens, such as Y (Fucalpha1,2Galbeta1,4 [Fucalpha1,3]GlcNAcbeta), Le(b) (Fucalpha1,2Galbeta1,3-[Fucalpha1,4]GlcNAcbeta), and H type 2 (Fucalpha1,2 Galbeta1,4GlcNAcbeta) occurs specifically within human colorectal tumor tissues and can be detected by an antifucosylated antigen antibody, such as the YB-2 antibody. In the present investigation, we found that the expression of these antigens bearing an alpha1,2-linked fucose correlated with the resistance of the tumor cells to anticancer treatments. Addition of an exogenous sugar acceptor for alpha1,2fucosyltransferase to the cell medium resulted in suppression of alpha1,2fucosylated antigen expression on the tumor cells and increased susceptibility to anticancer treatment. The increased susceptibility may be attributed to cancer cell-mediated priming by sugar acceptors for alpha1,2fucosyltransferase added to the medium.

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Novel sugar-cholestanols as anticancer agents against peritoneal dissemination of tumor cells

et al. 2008

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Chemically synthesized sugar-cholestanols with mono-, di-, and tri-saccharides attached to cholestanol showed strong inhibiting activity against the proliferation of colorectal and gastric cancer cells. In contrast, cholestanol without sugar moieties was totally ineffective. Furthermore, when cancer cells were exposed to GlcNAcRbetacholestanol (R=(-) or beta1-3Gal), the compound was rapidly taken up via the lipid rafts/microdomains on the cell surface. The uptake of sugar-cholestanol in mitochondria increased gradually and was followed by the release of cytochrome c from mitochondria and the activation of apoptotic signals through the mitochondrial pathway and the caspase cascade, leading to apoptotic cell death, characterized by DNA ladder formation and nuclear fragmentation. Additionally, the examination of GlcNAcRbetacholestanol in a mouse model of peritoneal dissemination showed a dramatic reduction of tumor growth (P < 0.003) and prolonged mouse survival time (P<0.0001). Based on these observations, we believe that the sugar-cholestanols described here have clinical potential as novel anticancer agents.

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Toyo Nishimura

α₁‐Acid glycoprotein fucosylation as a marker of carcinoma progression and prognosis

Development of a Novel System for Mass Spectrometric Analysis of Cancer-Associated Fucosylation in Plasmaα₁-Acid Glycoprotein

Tumor-related expression of 1,2fucosylated antigens on colorectal carcinoma cells and its suppression by cell-mediated priming using sugar acceptors for 1,2fucosyltransferase

Novel sugar-cholestanols as anticancer agents against peritoneal dissemination of tumor cells

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Toyo Nishimura

α1‐Acid glycoprotein fucosylation as a marker of carcinoma progression and prognosis

Development of a Novel System for Mass Spectrometric Analysis of Cancer-Associated Fucosylation in Plasmaα1-Acid Glycoprotein

Tumor-related expression of 1,2fucosylated antigens on colorectal carcinoma cells and its suppression by cell-mediated priming using sugar acceptors for 1,2fucosyltransferase

Novel sugar-cholestanols as anticancer agents against peritoneal dissemination of tumor cells

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Product

Resources

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α₁‐Acid glycoprotein fucosylation as a marker of carcinoma progression and prognosis

Development of a Novel System for Mass Spectrometric Analysis of Cancer-Associated Fucosylation in Plasmaα₁-Acid Glycoprotein