Kosuke Yamamoto scite author profile

Signaling of the cytokine interleukin-6 (IL-6) via its soluble IL-6 receptor (sIL-6R) is responsible for the proinflammatory properties of IL-6 and constitutes an attractive therapeutic target, but how the sIL-6R is generated in vivo remains largely unclear. Here, we use liquid chromatography–mass spectrometry to identify an sIL-6R form in human serum that originates from proteolytic cleavage, map its cleavage site between Pro-355 and Val-356, and determine the occupancy of all O- and N-glycosylation sites of the human sIL-6R. The metalloprotease a disintegrin and metalloproteinase 17 (ADAM17) uses this cleavage site in vitro, and mutation of Val-356 is sufficient to completely abrogate IL-6R proteolysis. N- and O-glycosylation were dispensable for signaling of the IL-6R, but proteolysis was orchestrated by an N- and O-glycosylated sequon near the cleavage site and an N-glycan exosite in domain D1. Proteolysis of an IL-6R completely devoid of glycans is significantly impaired. Thus, glycosylation is an important regulator for sIL-6R generation.

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Downregulation of Smac/DIABLO Expression in Renal Cell Carcinoma and Its Prognostic Significance

Mizutani

Nakanishi

Yamamoto

et al. 2005

JCO

102

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The present study demonstrates for the first time that Smac/DIABLO expression was downregulated in RCC and that no Smac/DIABLO expression in RCC predicted a worse prognosis. In addition, transfection with Smac/DIABLO sensitized RCC to TRAIL/cisplatin-induced apoptosis. These results suggest that Smac/DIABLO expression in RCC may be used as a prognostic parameter, and that enhancement of Smac/DIABLO expression in RCC may potentiate immunotherapy and chemotherapy.

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Molecular Characterization of Maize Acetylcholinesterase. A Novel Enzyme Family in the Plant Kingdom

Sagane

Nakagawa

Yamamoto

et al. 2005

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Acetylcholinesterase (AChE) has been increasingly recognized in plants by indirect evidence of its activity. Here, we report purification and cloning of AChE from maize (Zea mays), thus providing to our knowledge the first direct evidence of the AChE molecule in plants. AChE was identified as a mixture of disulfide-and noncovalently linked 88-kD homodimers consisting of 42-to 44-kD polypeptides. The AChE hydrolyzed acetylthiocholine and propyonylthiocholine, but not S-butyrylthiocholine, and the AChE-specific inhibitor neostigmine bromide competitively inhibited its activity, implying that maize AChE functions in a similar manner as the animal enzyme. However, kinetic analyses indicated that maize AChE showed a lower affinity to substrates and inhibitors than animal AChE. The full-length cDNA of maize AChE gene is 1,471 nucleotides, which encode a protein having 394 residues, including a signal peptide. The deduced amino acid sequence exhibited no apparent similarity with that of the animal enzyme, although the catalytic triad was the same as in the animal AChE. In silico screening indicated that maize AChE homologs are widely distributed in plants but not in animals. These findings lead us to propose that the AChE family, as found here, comprises a novel family of the enzymes that is specifically distributed in the plant kingdom.

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Synergistic properties of cellulases from Clostridium cellulovorans in the presence of cellobiose

Yamamoto

Tamaru

2016

AMB Expr

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An anaerobic mesophile, Clostridium cellulovorans, produces a multienzyme complex called the cellulosome and actively degrades polysaccharides in the plant cell wall. C. cellulovorans also changes cellulosomal subunits to form highly active combinations dependent on the carbon substrate. A previous study reported on the synergistic effects of exoglucanase S (ExgS) and endoglucanase H (EngH) that are classified into the glycosyl hydrolase (GH) families 48, and 9, respectively. In this study, we investigated synergistic effects of ExgS and EngK, a GH9 cellulase different from EngH. In addition, since EngK was known to produce cellobiose as its main product, the inhibition on cellulase activity of EngK with cellobiose was examined. As a result, the effect of cellobiose inhibition on EngK coexistent with ExgS was found to be much lower than that with EngH. Thus, although EngH and EngK are in the same GH9 family, enzymatic activity in the presence of cellobiose was significantly different.

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Kosuke Yamamoto

Proteolytic Origin of the Soluble Human IL-6R In Vivo and a Decisive Role of N-Glycosylation

Downregulation of Smac/DIABLO Expression in Renal Cell Carcinoma and Its Prognostic Significance

Molecular Characterization of Maize Acetylcholinesterase. A Novel Enzyme Family in the Plant Kingdom

Synergistic properties of cellulases from Clostridium cellulovorans in the presence of cellobiose

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