Noboru Yamazaki scite author profile

Poly‐p‐benzamide of high molecular weight (ηinh = ∼ in H2SO4) was obtained by the direct polycondensation reaction of p‐aminobenzoic acid (p‐ABA) by means of diphenyl and triaryl phosphites in N‐methylpyrrolidone (NMP)‐pyridine solution containing lithium and calcium chlorides. Molecular weight of polymer varied with the amount of these salts, showing maximum values at the concentration of about 4 wt‐% of LiCl or about 8 wt‐% of CaCl2 in the reaction mixture. The reaction temperature at around 80°C gave a polymer of the highest viscosity. The polycondensation reaction was also affected by monomer concentration, solvents, and tertiary amines like pyridine. Similarly, aromatic polyamides with high molecular weight (ηinh values up to 1.34 in H2SO4) were prepared from isophthalic acid and aromatic diamines, whereas terephthalic acid gave only low‐viscosity polymers.

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Endogenous lectins as targets for drug delivery

Yamazaki

Kojima

Bovin

et al. 2000

Advanced Drug Delivery Reviews

186

105

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Studies on reactions of the N‐phosphonium salts of pyridines. XI. Preparation of polypeptides and polyamides by means of triaryl phosphites in pyridine

Yamazaki

Higashi

Kawabata

1974

J. Polym. Sci. Polym. Chem. Ed.

237

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Galectins-1 and -3 and their ligands in tumor biology

André¹,

Kojima

Yamazaki

et al. 1999

Journal of Cancer Research and Clinical Oncology

157

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Protein (lectin)-carbohydrate (cellular glycoconjugate) recognition is operative in biochemical information transfer. Galectins constitute a family of endogenous galactoside-binding lectins with conserved features in the binding site. The members of this lectin category are assumed to be involved in cell adhesion and growth regulation. To assess to what extent the different modes of binding-site presentation and/or carbohydrate fine-specificities will affect aspects of galectin behavior, homodimeric cross-linking galectin-1 and monomeric chimeric galectin-3, with its collagenase-sensitive stalk linked to the carbohydrate-recognition domain, were investigated. Cell-surface expression of the two galectins and accessible galectin-binding sites on various tumor cell lines was ascertained by FACScan analysis. In particular, ligand accessibility for the two galectins differed for the tested cell line types. Binding of tumor cells to laminin and plasma or placental fibronectin was generally reduced by treatment of cells or matrix with galectins. Galectin-3 was more efficient than galectin 1 at impairing laminin's potency as matrix. Cell binding of galectin-1, on the other hand, proved on average more effective for blocking cell association to fibronectins after its preincubation with cell suspensions. Differences were also apparent in the biodistribution of the galectins, where an avian homolog of galectin- served as the control to distinguish effects of spatial and sugar-binding features. Histopathological analysis of lymph-node-negative and -positive breast and colorectal carcinomas (n = 180 including 60 metastatic lesions) indicated a correlation of either increased galectin-1 binding and reduced galectin-3 expression or reduced binding of both galectins with the occurrence of lymph node lesions. Together with data on the heparin-binding lectin, revealing reduced expression to be associated with a positive lymph-node status in the breast cancer group, these results can be interpreted to reflect cell-type-dependent requirements of galectin ligand presentation during the metastatic cascade. By introducing mammalian lectins to lectin-histochemical studies, the detection of quantitative differences in glycosylation brings an understanding of its cell biological significance one step closer.

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Asymmetric reduction of aromatic ketones with chiral alkoxy-amineborane complexes

Hirao¹,

Itsuno²,

Nakahama³

et al. 1981

J. Chem. Soc., Chem. Commun.

219

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Accumulation of liposome with Sialyl Lewis X to inflammation and tumor region: Application to in vivo bio-imaging

Hirai¹,

Matsui²,

Kondo³

et al. 2007

Biochemical and Biophysical Research Communications

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Hyperlipidemia-induced cholesterol crystal production by endothelial cells promotes atherogenesis

et al. 2017

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Endothelial cells (EC) play a key role in atherosclerosis. Although EC are in constant contact with low density lipoproteins (LDL), how EC process LDL and whether this influences atherogenesis, is unclear. Here we show that EC take up and metabolize LDL, and when overburdened with intracellular cholesterol, generate cholesterol crystals (CC). The CC are deposited on the basolateral side, and compromise endothelial function. When hyperlipidemic mice are given a high fat diet, CC appear in aortic sinus within 1 week. Treatment with cAMP-enhancing agents, forskolin/rolipram (F/R), mitigates effects of CC on endothelial function by not only improving barrier function, but also inhibiting CC formation both in vitro and in vivo. A proof of principle study using F/R incorporated into liposomes, designed to target inflamed endothelium, shows reduced atherosclerosis and CC formation in ApoE −/− mice. Our findings highlight an important mechanism by which EC contribute to atherogenesis under hyperlipidemic conditions.

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Alterations of human erythrocyte membrane fluidity by oxygen-derived free radicals and calcium

Watanabe

Kobayashi²,

Yamamoto³

et al. 1990

Free Radical Biology and Medicine

109

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Noboru Yamazaki

Studies on reactions of the N‐phosphonium salts of pyridines. XIV. Wholly aromatic polyamides by the direct polycondensation reaction by using phosphites in the presence of metal salts

Endogenous lectins as targets for drug delivery

Studies on reactions of the N‐phosphonium salts of pyridines. XI. Preparation of polypeptides and polyamides by means of triaryl phosphites in pyridine

Galectins-1 and -3 and their ligands in tumor biology

Asymmetric reduction of aromatic ketones with chiral alkoxy-amineborane complexes

Accumulation of liposome with Sialyl Lewis X to inflammation and tumor region: Application to in vivo bio-imaging

Hyperlipidemia-induced cholesterol crystal production by endothelial cells promotes atherogenesis

Alterations of human erythrocyte membrane fluidity by oxygen-derived free radicals and calcium

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