Toshiaki Kiriyama scite author profile

Glutathione and its metabolites were examined for reactivity to acetaldehyde. When acetaldehyde was incubated with glutathione alone, there was only a slight decrease of acetaldehyde, while an apparently equimolar reaction between acetaldehyde and free sulfhydryl was observed with the addition of gamma-glutamyltranspeptidase. Cysteinylglycine, the first metabolite in the glutathione breakdown by gamma-glutamyltranspeptidase, showed a rapid and equimolar reactivity to acetaldehyde and such was comparable to the reaction seen with L-cysteine or D-penicillamine. In light of the chemical structure, cysteinylglycine probably conjugates with acetaldehyde to form thiazolidinecarboxylic acid derivatives, 2-methyl-thiazolidine-4-carbonyl-glycine, and if so, the alteration of glutathione metabolism by acetaldehyde during ethanol intoxication warrants further attention.

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Determination of plasma 5-hydroxytryptophan, 5-hydorxytryptamine, 5-hydorxyindoleacetic acid, tryptophan and melatonin by high-performance liquid chromatography with electrochemical detection

Sagara¹,

Okatani²,

Yamanaka³

et al. 1988

Journal of Chromatography B: Biomedical Sciences and Applicatio

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Parathyroid hormone-related protein (PTHrP) action in rat articular chondrocytes: comparison of PTH(1–34), PTHrP(1–34), PTHrP(1–141), PTHrP(100–114) and antisense oligonucleotides against PTHrP

Tsukazaki

Ohtsuru²,

Namba³

et al. 1996

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Parathyroid hormone-related protein (PTHrP) is thought to be an important autocrine/paracrine factor for chondrocyte metabolism since mice lacking the PTHrP gene exhibit abnormal cartilage development. To determine the biological role of PTHrP in chondrocytes, we first compared the agonist potency of human (h) PTHrP(1-34) with hPTH(1-34) in cultured rat articular chondrocytes. Neither hPTHrP(1-34) nor hPTH(1-34) altered basal DNA synthesis, but attenuated the stimulatory effect of transforming growth factor beta (TGF-beta). Both agents suppressed the expression of alpha(1) type II collagen mRNA in a dose-response fashion with the same potency. In addition, the action of exogenously added hPTHrP(1-34) and hPTH(1-34) on intracellular cAMP and [Ca2+]i levels was similar. We next compared the effect of PTHrP within its entire amino acid sequence (1-141). With regard to thymidine incorporation, alpha(1) type II collagen gene expression and accumulation of cAMP and [Ca2+]i level, there was no significant difference between hPTHrP(1-34) and hPTHrP(1-141). PTHrP C-terminal (100-114) did not show any function. To further investigate PTHrP function, intracellular PTHrP translation was inhibited by a transgene of antisense oligonucleotides against PTHrP. Antisense oligonucleotides decreased PTHrP mRNA translation, specifically inhibited DNA synthesis in control as well as TGF-beta-treated chondrocytes and enhanced alpha(1) type II collagen mRNA expression in TGF-beta-treated chondrocytes. These results suggest that there is no significant difference between exogenously added hPTH(1-34), hPTHrP(1-34) and PTHrP(1-141) with regard to the biological action of these agents, including cell growth, differentiation and second messenger pathway. However, the result of DNA synthesis in the antisense PTHrP-inhibition study suggests that intracellular PTHrP may have an as yet unknown biological role, in addition to a classical PTH/PTHrP receptor-mediated function in the rat articular chondrocyte.

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Mutation design of a thermophilic Rubisco based on three‐dimensional structure enhances its activity at ambient temperature

et al. 2016

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Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) plays a central role in carbon dioxide fixation on our planet. Rubisco from a hyperthermophilic archaeon Thermococcus kodakarensis (Tk-Rubisco) shows approximately twenty times the activity of spinach Rubisco at high temperature, but only one-eighth the activity at ambient temperature. We have tried to improve the activity of Tk-Rubisco at ambient temperature, and have successfully constructed several mutants which showed higher activities than the wild-type enzyme both in vitro and in vivo. Here, we designed new Tk-Rubisco mutants based on its three-dimensional structure and a sequence comparison of thermophilic and mesophilic plant Rubiscos. Four mutations were introduced to generate new mutants based on this strategy, and one of the four mutants, T289D, showed significantly improved activity compared to that of the wild-type enzyme. The crystal structure of the Tk-Rubisco T289D mutant suggested that the increase in activity was due to mechanisms distinct from those involved in the improvement in activity of Tk-Rubisco SP8, a mutant protein previously reported to show the highest activity at ambient temperature. Combining the mutations of T289D and SP8 successfully generated a mutant protein (SP8-T289D) with the highest activity to date both in vitro and in vivo. The improvement was particularly pronounced for the in vivo activity of SP8-T289D when introduced into the mesophilic, photosynthetic bacterium Rhodopseudomonas palustris, which resulted in a strain with nearly two-fold higher specific growth rates compared to that of a strain harboring the wild-type enzyme at ambient temperature. Proteins 2016; 84:1339-1346. © 2016 Wiley Periodicals, Inc.

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Accumulation of Acetaldehyde in Alcohol‐Sensitive Japanese: Relation to Ethanol and Acetaldehyde Oxidizing Capacity

Inoue

Fukunaga

Kiriyama

et al. 1984

Alcoholism Clin & Exp Res

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The metabolism of ethanol and its oxidation product, acetaldehyde, was studied in Japanese volunteers. Subjects who responded by facial flushing and tachycardia were found to accumulate acetaldehyde during ethanol intoxication, in contrast to the near absence of blood acetaldehyde in nonflushing subjects. There were large individual variations in acetaldehyde accumulation observed in the former group, and this accumulation correlated well with the intensity of the physiological responses, but not with rate of ethanol elimination. Oral pretreatment with the alcohol dehydrogenase inhibitor, 4-methylpyrazole, reduced ethanol elimination by 15-25% and strongly suppressed acetaldehyde accumulation. However, here too there was no relation between individual ethanol elimination rate and acetaldehyde accumulation. Furthermore, the change in the blood lactate/pyruvate concentration ratio after ethanol intake was apparently unrelated to the degree of acetaldehyde accumulation. These results, combined with our previous observation of a strong negative correlation between increase in heart rate and activity of cytosolic aldehyde dehydrogenase in erythrocytes, suggest that in flushing Orientals lacking the low-Km aldehyde dehydrogenase isozyme, the alternative cytosolic enzyme is responsible for acetaldehyde oxidation, and its activity probably determines the individual variation of acetaldehyde-mediated physiological responses.

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