Your search keyword '"Murai, Takahiro"' showing total 21 results

1. Serial Imaging Assessment of Clinical Valve Thrombosis After Transcatheter Aortic Valve Replacement With LOTUS Edge.

Author

Moriyama, Noriaki, Yokota, Shohei, Shishido, Koki, Yamanaka, Futoshi, Koyama, Eiji, Murai, Takahiro, Hayashi, Takahiro, Yamada, Takashi, Mashimo, Yuka, Yokoyama, Hiroaki, Yamaguchi, Masashi, Yamagishi, Tamiharu, Tobita, Kazuki, Mizuno, Shingo, Tanaka, Yutaka, Murakami, Masato, Takahashi, Saeko, and Saito, Shigeru

Published

2021

2. High spatial resolution performance of pixelated scintillators

Author

Flohr, Thomas G., Lo, Joseph Y., Gilat Schmidt, Taly, Shigeta, Kazuki, Fujioka, Nobuyasu, Murai, Takahiro, Hikita, Izumi, Morinaga, Tomohiro, Tanino, Takahiro, Kodama, Haruhito, and Okamura, Masaki

Published

2017

3. ELECTRICAL CONDUCTIVITY OF MICROWAVE HEATED POLYANILINE NANOTUBES AND POSSIBLE MECHANISM OF MICROWAVE ABSORPTION BY MATERIALS.

Author

Murai, Takahiro, Fukasawa, Ryo, Muraoka, Tohru, Takauchi, Hiroyuki, Gotoh, Yasuo, Takizawa, Tokihiro, and Matsuse, Takehiro

Subjects

ELECTRIC conductivity, MICROWAVE heating, ANILINE, POLYMERS, NANOTUBES, ABSORPTION, CARBONIZATION, X-ray photoelectron spectroscopy, SEMICONDUCTOR doping

Published

2009

4. Tissue Distribution and Identification of Radioactivity Components at Elimination Phase after Oral Administration of [14C]CS-1036, an α-Amylase Inhibitor, to Rats

Author

Honda, Tomohiro, Takakusa, Hideo, Murai, Takahiro, and Izumi, Takashi

Abstract

(2R,3R,4R)-4-hydroxy-2-(hydroxymethyl)pyrrolidin-3-yl 4-O-(6-deoxy-β-D-glucopyranosyl)-α-D-glucopyranoside (CS-1036) is a potent inhibitor of pancreatic and salivary α-amylase. After oral administration of [14C]CS-1036 to rats, the radioactivity was still detectable up to 7–14 days after administration in various tissues, and its terminal phase in plasma could be explained neither by the exposure of CS-1036 nor its major metabolite M1. The slow elimination of radioactivity in various tissues was hypothesized to be caused by covalent binding to macromolecules or use for biogenic components. To assess the use for biogenic components, amino acid analysis of plasma proteins and lipid analysis of adipose tissue were conducted after repeated oral administration of [14C]CS-1036 by high-performance liquid chromatography and accelerated mass spectrometry and by thin layer chromatography and liquid chromatography/mass spectrometry, respectively. In amino acid analysis, glutamic acid, aspartic acid, alanine, and proline were identified as major radioactive amino acids, and radioactive nonessential amino acids occupied 76.0% of the radioactivity. In lipid analysis, a part of the radioactive lipids were identified as the fatty acids constituting the neutral lipids by lipase-hydrolysis. The radioactive fatty acids from neutral lipids were identified as palmitic acid, oleic acid, and 8,11,14-eicosatrienoic acid. Intestinal flora were involved in CS-1036 metabolism and are indicated to be involved in the production of small molecule metabolites, which are the sources for amino acids and fatty acids, from [14C]CS-1036. In conclusion, radioactivity derived from [14C]CS-1036 was incorporated as the constituents of amino acids of plasma proteins and fatty acids of neutral lipids.

Published

2013

5. Absorption, Elimination, and Metabolism of CS-1036, a Novel α-Amylase Inhibitor in Rats and Monkeys, and the Relationship between Gastrointestinal Distribution and Suppression of Glucose Absorption

Author

Honda, Tomohiro, Kaneno-Urasaki, Yoko, Murai, Takahiro, Kakuta, Masayo, Nasu, Hatsumi, Namba, Eiko, Koga, Tetsufumi, Okuno, Akira, and Izumi, Takashi

Abstract

The absorption, metabolism, and excretion of (2R,3R,4R)-4-hydroxy-2-(hydroxymethyl)pyrrolidin-3-yl 4-O-(6-deoxy-β-d-glucopyranosyl)-α-d-glucopyranoside (CS-1036), a novel and potent pancreatic and salivary α-amylase inhibitor, were evaluated in F344/DuCrlCrlj rats and cynomolgus monkeys. The total body clearance and volume of distribution of CS-1036 were low (2.67–3.44 ml/min/kg and 0.218–0.237 l/kg for rats and 2.25–2.84 ml/min/kg and 0.217–0.271 l/kg for monkeys). After intravenous administration of [14C]CS-1036 to rats and monkeys, radioactivity was mainly excreted into urine (77.2% for rats and 81.1% for monkeys). After oral administration, most of the radioactivity was recovered from feces (80.28% for rats and 88.13% for monkeys) with a low oral bioavailability (1.73–2.44% for rats and 0.983–1.20% for monkeys). In rats, intestinal secretion is suggested to be involved in the fecal excretion as a minor component because fecal excretion after intravenous administration was observed (15.66%) and biliary excretion was almost negligible. Although intestinal flora was involved in CS-1036 metabolism, CS-1036 was the main component in feces (70.3% for rats and 48.7% for monkeys) and in the intestinal contents (33–68% for rats up to 2 hours after the dose) after oral administration. In Zucker diabetic fatty rats, CS-1036 showed a suppressive effect on plasma glucose elevation after starch loading with a 50% effective dose at 0.015 mg/kg. In summary, CS-1036 showed optimal pharmacokinetic profiles: low oral absorption and favorable stability in gastrointestinal lumen, resulting in suppression of postprandial hyperglycemia by α-amylase inhibition.

Published

2013

6. Metabolic Pathways of Inhaled Glucocorticoids by the CYP3A Enzymes

Author

Moore, Chad D., Roberts, Jessica K., Orton, Christopher R., Murai, Takahiro, Fidler, Trevor P., Reilly, Christopher A., Ward, Robert M., and Yost, Garold S.

Abstract

Asthma is one of the most prevalent diseases in the world, for which the mainstay treatment has been inhaled glucocorticoids (GCs). Despite the widespread use of these drugs, approximately 30% of asthma sufferers exhibit some degree of steroid insensitivity or are refractory to inhaled GCs. One hypothesis to explain this phenomenon is interpatient variability in the clearance of these compounds. The objective of this research is to determine how metabolism of GCs by the CYP3A family of enzymes could affect their effectiveness in asthmatic patients. In this work, the metabolism of four frequently prescribed inhaled GCs, triamcinolone acetonide, flunisolide, budesonide, and fluticasone propionate, by the CYP3A family of enzymes was studied to identify differences in their rates of clearance and to identify their metabolites. Both interenzyme and interdrug variability in rates of metabolism and metabolic fate were observed. CYP3A4 was the most efficient metabolic catalyst for all the compounds, and CYP3A7 had the slowest rates. CYP3A5, which is particularly relevant to GC metabolism in the lungs, was also shown to efficiently metabolize triamcinolone acetonide, budesonide, and fluticasone propionate. In contrast, flunisolide was only metabolized via CYP3A4, with no significant turnover by CYP3A5 or CYP3A7. Common metabolites included 6β-hydroxylation and 6-dehydrogenation for triamcinolone acetonide, budesonide, and flunisolide. The structure of 6-flunisolide was unambiguously established by NMR analysis. Metabolism also occurred on the D-ring substituents, including the 21-carboxy metabolites for triamcinolone acetonide and flunisolide. The novel metabolite 21-nortriamcinolone acetonide was also identified by liquid chromatography–mass spectrometry and NMR analysis.

Published

2013

7. Predictability of Idiosyncratic Drug Toxicity Risk for Carboxylic Acid-Containing Drugs Based on the Chemical Stability of Acyl Glucuronide

Author

Sawamura, Ryoko, Okudaira, Noriko, Watanabe, Kengo, Murai, Takahiro, Kobayashi, Yoshimasa, Tachibana, Masaya, Ohnuki, Takashi, Masuda, Kayoko, Honma, Hidehito, Kurihara, Atsushi, and Okazaki, Osamu

Abstract

Acyl glucuronides (AGs) formed from carboxylic acid-containing drugs have been considered to be a cause of idiosyncratic drug toxicity (IDT). Chemical stability of AGs is supposed to relate to their reactivity. In this study, the half-lives of 21 AGs of carboxylic drugs in potassium phosphate buffer (KPB), human serum albumin (HSA) solution, and human fresh plasma were analyzed in relation to the IDT risk derived from these drugs. The carboxylic drugs were classified into three safety categories of "safe," "warning," and "withdrawn" in terms of their IDT risk. As for the results, the half-lives of AGs in KPB correlated with the IDT risk better than those in HSA solution or in human fresh plasma with regard to the separation of the safe drugs from the warning drugs or the withdrawn drugs. In KPB, whereas the half-lives in the safe category were 7.2 h or longer, those in the withdrawn category were 1.7 h or shorter. The classification value of the half-life in KPB, which separated the safe drugs from the withdrawn drugs was calculated to be 3.6 h by regression analysis. In conclusion, this is the first report that clearly shows the relationship between the IDT risk and chemical stability of AGs in several in vitro systems. The KPB system was considered to be the best for evaluating the stability of AGs, and the classification value of the half-life in KPB serves as a useful key predictor for the IDT risk.

Published

2010

8. CYP2D6-Mediated Metabolism of a Novel Acyl Coenzyme A:Cholesterol Acyltransferase Inhibitor, Pactimibe, and Its Unique Plasma Metabolite, R-125528

Author

Kotsuma, Masakatsu, Tokui, Taro, Ishizuka-Ozeki, Tomoko, Honda, Tomoyo, Iwabuchi, Haruo, Murai, Takahiro, Ikeda, Toshihiko, and Saji, Hideo

Abstract

Pactimibe sulfate is a novel acyl coenzyme A:cholesterol acyltransferase inhibitor. We conducted metabolic studies of pactimibe and its plasma metabolite, R-125528. Pactimibe had multiple metabolic pathways including indolin oxidation to form R-125528, ω-1 oxidation, N-dealkylation, and glucuronidation. Among them, the indolin oxidation and the ω-1 oxidation were dominant and were mainly catalyzed by CYP3A4 and CYP2D6, respectively. The intrinsic clearance (CLint) values for these pathways in human hepatic microsomes were 0.63 and 0.76 µl/min/mg-protein, respectively. On the other hand, the metabolic reaction for R-125528 was restricted. It was demonstrated that ω-1 oxidation was the only pathway that could eliminate R-125528 from the systemic circulation. To our surprise, only CYP2D6-expressing microsomes could catalyze the reaction, and ω-1 oxidation was strongly correlated with the CYP2D6 marker reaction, dextromethorphan O-demethylation (r2= 0.90), in human hepatic microsomes. Although R-125528 is an atypical substrate for CYP2D6 because of its acidity, the Kmvalue was 1.8 µM for the reaction in human hepatic microsomes and the CLintvalue was as high as 75.0 µl/min/mg-protein. These results suggested that the systemic clearance of R-125528 was highly dependent on CYP2D6 activity and that several studies with CYP2D6 including drug-drug interaction and polymorphism sensitivity should be performed during development from the viewpoint of metabolite safety assessment. The finding that R-125528, an acidic compound devoid of basic nitrogen, was a good substrate for CYP2D6 raised a question about previously reported CYP2D6 models based on a critical electrostatic interaction with Asp301and/or Glu216.

Published

2008

9. Isolation and Identification of Diglucuronides of Some Endogenous Steroids in Dogs

Author

Murai, Takahiro, Yamamura, Naotoshi, Nitanai, Takashi, Samata, Naozumi, Takei, Makoto, Iwabuchi, Haruo, Tanaka, Kohji, Mikamoto, Kei, and Ikeda, Toshihiko

Abstract

Diglucuronidation is a novel glucuronidation reaction where the second glucuronosyl moiety is attached at the C2' position of the first glucuronosyl moiety. To examine whether diglucuronidation takes place in endogenous substrates in vivo, control urine and bile samples were collected from male Crl:CD(SD) IGS rats, beagle dogs, and cynomolgus monkeys and analyzed by liquid chromatography-mass spectrometry (LC-MS) after solid phase extraction. Several diglucuronides of C19steroids, including M1 (C31H46O14) and M2 (C31H44O14), were detected in the urine and bile of the dogs but not in the excreta of the rats and monkeys. A milligram quantity of M1 was successfully isolated from the pooled dog urine and analyzed by nuclear magnetic resonance (NMR) spectroscopy. M1 was unambiguously identified as epiandrosterone 3-O-diglucuronide by comparing the LC-MS and two-dimensional NMR data of M1 with those of the biosynthesized epiandrosterone 3-O-diglucuronide. M2 was identified as dehydroepiandrosterone 3-O-diglucuronide. According to these findings, the diglucuronidation reaction was proven to be occurring on steroid hormones in vivo in dogs.

Published

2008

10. Electrical Conductivity of Microwave Heated Polyaniline Nanotubes and Possible Mechanism of Microwave Absorption by Materials

Author

Murai, Takahiro, Fukasawa, Ryo, Muraoka, Tohru, Takauchi, Hiroyuki, Gotoh, Yasuo, Takizawa, Tokihiro, and Matsuse, Takehiro

Abstract

In the course of experiments to perform deprotonation and carbonization of doped polyaniline (PANI) nanotubes (NTs) by irradiating directly 2.45 GHz microwave (MW) in our microwave heating system (MWHS), we have discovered that the PANI-NTs self heat by absorbing the MW, but the temperature of the PANI-NTs stops rising around 300 °C in spite of the heightened MW power. Furthermore, we have found that the MW irradiated PANI-NTs have transferred from electrical conductor to insulator depending on the temperature of the PANI-NTs.By measuring electron spin resonance (ESR) spectra of the MW heated PANI-NTs, the existence of the unpaired electrons is shown to have a strong correlation between the degree of MW absorption and the transition in the electrical conductivities.In order to deprotonate and carbonize further the PANI-NTs, we have performed heat treatment for the PANI-NTs up to a temperature (T) of about 1200 °C in the same MWHS using carbon fiber which self heats by absorbing MW.The chemical transformations in the PANI-NTs induced by the heat treatments are discussed by measuring the X-ray photoelectron spectroscopy (XPS) spectra. Finally, the temperature dependence of electrical conductivities of the PANI-NTs are measured in order to investigate the mechanism of electrical conduction of the heat treated PANI-NTs.

Published

2008

11. Covalent Binding of Rofecoxib, but Not Other Cyclooxygenase-2 Inhibitors, to Allysine Aldehyde in Elastin of Human Aorta

Author

Oitate, Masataka, Hirota, Takashi, Murai, Takahiro, Miura, Shin-ichi, and Ikeda, Toshihiko

Abstract

In rats, it has been reported that rofecoxib, a cyclooxygenase-2 (COX-2) inhibitor, reacts with the aldehyde group of allysine in elastin to give a condensation covalent adduct, thereby preventing the formation of cross-linkages in the elastin and causing degradation of the elastic fibers in aortas in vivo. Acid, organic solvent, and proteolytic enzyme treatments of human aortic homogenate after incubation with [14C]rofecoxib demonstrated that most of the radioactivity is covalently bound to elastin. The in vitro covalent binding was inhibited in the presence of β-aminopropionitrile, d-penicillamine, and hydralazine, which suggested that the aldehyde group of allysine in human elastin was relevant to the covalent binding. The in vitro covalent binding of [14C]rofecoxib was significantly decreased by the addition of only nonradiolabeled rofecoxib but not the other COX-2 inhibitors, celecoxib, valdecoxib, etoricoxib, and CS-706 [2-(4-ethoxyphenyl)-4-methyl 1-(4-sulfamoylphenyl)-1H-pyrrole], a novel selective COX-2 inhibitor. All the above COX-2 inhibitors except for rofecoxib had no reactivity with the aldehyde group of benzaldehyde used as a model compound of allysine aldehyde under a physiological pH condition. On the other hand, no retention of the radioactivity of [14C]rofecoxib was observed in human aortic endothelial cells in vitro, suggesting that rofecoxib is not retained in aortic endothelial cells in vivo. These results suggest that rofecoxib, but not other COX-2 inhibitors, is capable of covalently binding to the aldehyde group of allysine in human elastin. This might be one of the main causes of cardiovascular events by rofecoxib in clinical situations.

Published

2007

12. Covalent Binding of Rofecoxib, but Not Other Cyclooxygenase-2 Inhibitors, to Allysine Aldehyde in Elastin of Human Aorta

Author

Oitate, Masataka, Hirota, Takashi, Murai, Takahiro, Miura, Shin-ichi, and Ikeda, Toshihiko

Abstract

In rats, it has been reported that rofecoxib, a cyclooxygenase-2 (COX-2) inhibitor, reacts with the aldehyde group of allysine in elastin to give a condensation covalent adduct, thereby preventing the formation of cross-linkages in the elastin and causing degradation of the elastic fibers in aortas in vivo. Acid, organic solvent, and proteolytic enzyme treatments of human aortic homogenate after incubation with [14C]rofecoxib demonstrated that most of the radioactivity is covalently bound to elastin. The in vitro covalent binding was inhibited in the presence of {szligbeta}-aminopropionitrile, D-penicillamine, and hydralazine, which suggested that the aldehyde group of allysine in human elastin was relevant to the covalent binding. The in vitro covalent binding of [14C]rofecoxib was significantly decreased by the addition of only nonradiolabeled rofecoxib but not the other COX-2 inhibitors, celecoxib, valdecoxib, etoricoxib, and CS-706 [2-(4-ethoxyphenyl)-4-methyl 1-(4-sulfamoylphenyl)-1H-pyrrole], a novel selective COX-2 inhibitor. All the above COX-2 inhibitors except for rofecoxib had no reactivity with the aldehyde group of benzaldehyde used as a model compound of allysine aldehyde under a physiological pH condition. On the other hand, no retention of the radioactivity of [14C]rofecoxib was observed in human aortic endothelial cells in vitro, suggesting that rofecoxib is not retained in aortic endothelial cells in vivo. These results suggest that rofecoxib, but not other COX-2 inhibitors, is capable of covalently binding to the aldehyde group of allysine in human elastin. This might be one of the main causes of cardiovascular events by rofecoxib in clinical situations.

Published

2007

13. Mechanism for Covalent Binding of Rofecoxib to Elastin of Rat Aorta

Author

Oitate, Masataka, Hirota, Takashi, Takahashi, Makoto, Murai, Takahiro, Miura, Shin-ichi, Senoo, Akira, Hosokawa, Tsunemichi, Oonishi, Tadahiro, and Ikeda, Toshihiko

Abstract

We have previously reported that oral administration of [14C]rofecoxib to rats resulted in the long retention of radioactivity by the aorta as a consequence of covalent binding to elastin. Treatment of rats with α-phenyl-α-propylbenzeneacetic acid 2-[diethylamino]-ethyl ester hydrochloride (SKF-525A), a cytochrome P450 inhibitor, significantly decreased the systemic exposure of 5-hydroxyrofecoxib, one of the main metabolites of rofecoxib, whereas there was no statistically significant change in the retention of radioactivity from [14C]rofecoxib in the aorta. On the other hand, the aortic retention of radioactivity closely correlated to the systemic exposure of unchanged rofecoxib in the dose range between 2 and 10 mg/kg. A covalent binding study of [14C]rofecoxib in vitro using rat aorta homogenate in the presence of d-penicillamine, hydralazine, β-aminopropionitrile, and sodium borohydride suggested that the aldehyde group of allysine in elastin was relevant to the covalent binding. In a model reaction using benzaldehyde, rofecoxib but not 5-hydroxyrofecoxib reacted with the aldehyde group of benzaldehyde in a manner of condensation reaction under a physiological pH condition. A histopathological examination using an electron microscope demonstrated that multiple oral administration of rofecoxib to rats caused marked degradation of the elastic fiber system of the aorta. These results suggested that rofecoxib as such is reactive in vivo, undergoing a condensation reaction with allysine, thereby preventing the formation of cross-linkages in elastin, i.e., desmosine and isodesmosine, and causing the degradation of the elastic fibers.

Published

2007

14. Mechanism for covalent binding of rofecoxib to elastin of rat aorta.

Author

Oitate, Masataka, Hirota, Takashi, Takahashi, Makoto, Murai, Takahiro, Miura, Shin-Ichi, Senoo, Akira, Hosokawa, Tsunemichi, Oonishi, Tadahiro, and Ikeda, Toshihiko

Abstract

We have previously reported that oral administration of [(14)C]rofecoxib to rats resulted in the long retention of radioactivity by the aorta as a consequence of covalent binding to elastin. Treatment of rats with alpha-phenyl-alpha-propylbenzeneacetic acid 2-[diethylamino]-ethyl ester hydrochloride (SKF-525A), a cytochrome P450 inhibitor, significantly decreased the systemic exposure of 5-hydroxyrofecoxib, one of the main metabolites of rofecoxib, whereas there was no statistically significant change in the retention of radioactivity from [(14)C]rofecoxib in the aorta. On the other hand, the aortic retention of radioactivity closely correlated to the systemic exposure of unchanged rofecoxib in the dose range between 2 and 10 mg/kg. A covalent binding study of [(14)C]rofecoxib in vitro using rat aorta homogenate in the presence of d-penicillamine, hydralazine, beta-aminopropionitrile, and sodium borohydride suggested that the aldehyde group of allysine in elastin was relevant to the covalent binding. In a model reaction using benzaldehyde, rofecoxib but not 5-hydroxyrofecoxib reacted with the aldehyde group of benzaldehyde in a manner of condensation reaction under a physiological pH condition. A histopathological examination using an electron microscope demonstrated that multiple oral administration of rofecoxib to rats caused marked degradation of the elastic fiber system of the aorta. These results suggested that rofecoxib as such is reactive in vivo, undergoing a condensation reaction with allysine, thereby preventing the formation of cross-linkages in elastin, i.e., desmosine and isodesmosine, and causing the degradation of the elastic fibers.

Published

2007

15. HUMAN UDP-GLUCURONOSYLTRANSFERASE, UGT1A8, GLUCURONIDATES DIHYDROTESTOSTERONE TO A MONOGLUCURONIDE AND FURTHER TO A STRUCTURALLY NOVEL DIGLUCURONIDE

Author

Murai, Takahiro, Samata, Naozumi, Iwabuchi, Haruo, and Ikeda, Toshihiko

Abstract

We identified human UDP-glucuronosyltransferase (UGT) isoforms responsible for producing dihydrotestosterone (DHT) diglucuronide, a novel glucuronide in which the second glucuronosyl moiety is attached at the C2′ position of the first glucuronosyl moiety, leading to diglucuronosyl conjugation of a single hydroxyl group of DHT at the C17 position. Incubation of the DHT monoglucuronide with 12 cDNA-expressed recombinant human UGT isoforms and uridine 5′-diphosphoglucuronic acid resulted in a low but measurable DHT diglucuronidation activity primarily with UGT1A8, a gastrointestinal UGT, and to a lesser extent with UGT1A1 and UGT1A9. In contrast, the activity of DHT monoglucuronidation was high and was found in UGT2B17, UGT2B15, UGT1A8, and UGT1A4 in descending order. Among the 12 UGT isoforms tested, only UGT1A8 was capable of producing DHT diglucuronide from DHT. The kinetics of DHT diglucuronidation by microsomes from human liver and intestine fitted the Michaelis-Menten model, and the Vmax/Kmvalue for the intestinal microsomes was approximately 4 times greater than that for the liver microsomes.

Published

2006

16. HUMAN UDP-GLUCURONOSYLTRANSFERASE, UGT1A8, GLUCURONIDATES DIHYDROTESTOSTERONE TO A MONOGLUCURONIDE AND FURTHER TO A STRUCTURALLY NOVEL DIGLUCURONIDE

Author

Murai, Takahiro, Samata, Naozumi, Iwabuchi, Haruo, and Ikeda, Toshihiko

Abstract

We identified human UDP-glucuronosyltransferase (UGT) isoforms responsible for producing dihydrotestosterone (DHT) diglucuronide, a novel glucuronide in which the second glucuronosyl moiety is attached at the C2' position of the first glucuronosyl moiety, leading to diglucuronosyl conjugation of a single hydroxyl group of DHT at the C17 position. Incubation of the DHT monoglucuronide with 12 cDNA-expressed recombinant human UGT isoforms and uridine 5'-diphosphoglucuronic acid resulted in a low but measurable DHT diglucuronidation activity primarily with UGT1A8, a gastrointestinal UGT, and to a lesser extent with UGT1A1 and UGT1A9. In contrast, the activity of DHT monoglucuronidation was high and was found in UGT2B17, UGT2B15, UGT1A8, and UGT1A4 in descending order. Among the 12 UGT isoforms tested, only UGT1A8 was capable of producing DHT diglucuronide from DHT. The kinetics of DHT diglucuronidation by microsomes from human liver and intestine fitted the Michaelis-Menten model, and the Vmax/Kmvalue for the intestinal microsomes was approximately 4 times greater than that for the liver microsomes.

Published

2006

17. Repeated Glucuronidation at One Hydroxyl Group Leads to Structurally Novel Diglucuronides of Steroid Sex Hormones

Author

Murai, Takahiro, Iwabuchi, Haruo, and Ikeda, Toshihiko

Abstract

Androgens (androsterone, dihydrotestosterone and testosterone) and estrogens (estradiol, estriol and estrone) were incubated with liver microsomes from rats, dogs, monkeys and humans in the presence of uridine diphosphoglucuronic acid (UDPGA), and the glucuronides produced were structurally characterized by liquid chromatography-tandem mass spectrometry. After 2-h incubation with dog liver microsomes, all substrates tested were converted (approximately 2-10%) to structurally novel diglucuronides, where two glucuronosyl groups are bound to a single hydroxyl group in tandem. Two-dimensional nuclear magnetic resonance spectroscopy unambiguously elucidated the chemical structures of the 3-O-diglucuronide of estrone and the 17-O-diglucuronide of testosterone isolated from the incubation mixture. Monkey and human liver microsomes were also found to have the activity to form this type of diglucuronide, albeit more slowly than the dog liver microsomes, but rat liver microsomes produced no detectable diglucuronides. The rate of formation of estrone 3-O-diglucuronide from the corresponding monoglucuronide in dog liver microsomes followed classical Michaelis-Menten kinetics at substrate concentrations from 50 to 1000 μM, with a Kmvalue of 127.1 μM and a Vmaxvalue of 47.0 pmol/min/mg protein.

Published

2005

18. Formation of a Structurally Novel, Serial Diglucuronide of 4-Hydroxybiphenyl by Further Glucuronidation of a Monoglucuronide in Dog Liver Microsomes

Author

Murai, Takahiro, Tsuruta, Fujiko, Terao, Toshio, Ikeda, Toshihiko, and Iwabuchi, Haruo

Abstract

Incubation of 4-hydroxybiphenyl (p-phenylphenol) in the presence of UDP-glucuronic acid (UDPGA) with liver microsomes from male and female dogs produced a more polar metabolite peak than a simultaneously produced peak of 4-hydroxybiphenyl monoglucuronide in the high performance liquid chromatography (HPLC) chromatogram. Tandem mass spectrometry (MS /MS) and two-dimensional nuclear magnetic resonance (NMR) analyses revealed this polar metabolite as a 4-hydroxybiphenyl diglucuronide having a β-D-glucuronopyranosyl-(1→2)-β-D-glucuronopyranosyl moiety, where the two glucuronic acids are connected directly at the 1″→2′ position. Liver microsomes from Sprague–Dawley rat, cynomolgus monkey and human, converted 4-hydroxybiphenyl only to the monoglucuronide, suggesting that there is a dog UDP-glucuronosyltransferase (UGT), with a wider substrate specificity capable of glucuronidating 4-hydroxybiphenyl monoglucuronide to the diglucuronide.

Published

2002

19. Structure-Activity Relationship Study of Host-Specific Phytotoxins (AM-Toxin Analogs) Using a New Assay Method with Leaves from Apple Meristem Culture

Author

Miyashita, Masahiro, Nakamori, Tomoko, Murai, Takahiro, Yonemoto, Tetsuro, Miyagawa, Hisashi, Akamatsu, Miki, and Ueno, Tamio

Abstract

AM -toxins are host-specific phytotoxins of the Alternaria alternata apple pathotype, which induce necrosis on apple leaves. In this study, we developed a new assay to measure the necrotic activity of AM -toxin analogs using cultured leaves from meristem cells. This method was not only more sensitive to AM -toxin I, but also more reliable than the previous one that used tree leaves due to the homogeneous nature of cultured leaves and to the method of application of toxins. U sing this assay method we investigated a structure-activity relationship of AM -toxin analogs synthesized in this study. Most residues and the macrocyclic ring structure were strictly recognized by AM -toxin putative receptor, whereas the L-Ala binding subsite of the receptor allowed for side chain structures with various stereoelectronic properties. These findings are important for designing ligands for further experimental probing of the nature of the receptor.

Published

2001

20. Facile Syntheses of AM-toxins and Analogs as Cyclic Depsipeptides by the Solid-phase Method

Author

MIYASHITA, Masahiro, NAKAMORI, Tomoko, MURAI, Takahiro, MIYAGAWA, Hisashi, AKAMATSU, Miki, and UENO, Tamio

Abstract

The cyclic depsipeptides, AM-toxins I and II and AM-toxin I analogs, were efficiently and rapidly prepared by the Fmoc-based solid-phase method for the synthesis of linear depsipeptides, with N-[(dimethylamino)-1H-1,2,3-triazolo[4,5-b]pyridin-1-ylmethylene]-N-methylmethanaminium hexafluorophosphate N-oxide (HATU) being used for their subsequent cyclization.

Published

1998

21. Novel Concepts for Drug Hypersensitivity Based on the Use of Long-Time Scale Molecular Dynamic Simulation

Author

Murai, Takahiro, Kawashita, Norihito, Tian, Yu-Shi, and Takagi, Tatsuya

Abstract

The discovery that several drug hypersensitivity reactions (DHRs) are associated with specific human leukocyte antigen (HLA) alleles has attracted increasing research interest. However, the underlying mechanisms of these HLA-induced DHRs remain unclear, especially for drug-induced immediate activation of T-cell clones (TCCs). Recently, a novel hypothesis involving partial detachment between self-peptide(s) and the HLA molecule (altered peptide-HLA (pHLA) model) has been proposed to explain these phenomena. In order to clarify this hypothesis, we performed long-timescale molecular dynamics (MD) simulations. We focused on HLA-B⁎57:01-restricted abacavir hypersensitivity reactions (AHRs), one of the most famous DHRs. One of the simulation results showed that this altered-pHLA model might be driven by an increase in the distance not only between HLA and self-peptides but also between the α1 and α2 helices of HLA. Our findings provide novel insights into abacavir-induced immediate activation of TCCs and these findings might also be applied to other DHRs, such as HLA-B⁎58:01-restricted allopurinol hypersensitivity reactions.

Published

2016