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41.
Y. Ohta R. Shinohara I. Ishiguro 《Redox report : communications in free radical research》2013,18(5):339-344
SummaryThe role of the prosthetic groups (FAD and FMN) of NADPH-cytochrome P450 reductase (P450 reductase)in 3-hydroxyanthranilamide (3-OH An.Amide)-catalyzed, NADPH-dependent superoxide anion (O2-) production via the reductase was examined using the native and FMN-depleted preparations of P450 reductase which was partially purified from rat liver microsomes. NADPH-dependent O2-production by the FMN-depleted preparation was about 10% of that by the native preparation. 3-OH An. Amide-catalyzed, NADPH-dependent O2-production by the FMN-depleted preparation was less than 10% of that by the native preparation. FMN supplementation returned O2-production to near normal. We observed the same results for NADPH oxidation and hydrogen peroxide formation. O2-production, NADPH oxidation, and hydrogen peroxide formation were inhibited by native superoxide dismutase (SOD), but not by boiled, denatured SOD. These results indicate that the prosthetic groups, especially FMN, of P450 reductase play a critical role in 3-OH An.Amide-catalyzed, NADPH-dependent O2-production via the reductase. 相似文献
42.
Junpei Ishiguro Kenta Shibahara Yumi Ueda Kei Nakamura 《Molecular genetics and genomics : MGG》2013,288(1-2):63-75
TOR (target of rapamycin) signaling regulates cell growth and division in response to environmental stimuli such as the availability of nutrients and various forms of stress. The vegetative growth of fission yeast cells, unlike other eukaryotic cells, is not inhibited by treatment with rapamycin. We found that certain mutations including pmc1Δ (Ca2+-ATPase), cps9-193 (small GTPase, Ryh1) and cps1-12 (1,3-β-d-glucan synthase, Bgs1) confer a rapamycin-sensitive phenotype to cells under salt stress with potassium chloride (>0.5 M). Cytometric analysis revealed that the mutant cells were unable to enter the mitotic cell cycle when treated with the drug under salt stress. Gene cloning and overexpression experiments revealed that the sensitivity to rapamycin was suppressed by the ectopic expression of tyrosine phosphatases, Pyp1 and Pyp2, which are negative regulators of Spc1/Sty1 mitogen-activated protein kinase (MAPK). The level of tyrosine phosphorylation on Spc1 was higher and sustained substantially longer in these mutants than in the wild type under salt stress. The hyperphosphorylation was significantly suppressed by overexpression of pyp1 + with concomitant resumption of the mutant cells’ growth. In fission yeast, TOR signaling has been thought to stimulate the stress-response pathway, because mutations of TORC2 components such as Tor1, Sin1 and Ste20 result in similar sensitive phenotypes to environmental stress. The present study, however, strongly suggests that TOR signaling is required for the down-regulation of a hyperactivated Spc1 for reentry into the mitotic cell cycle. This finding may shed light on our understanding of a new stress-responsive mechanism in TOR signaling in higher organisms. 相似文献
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44.
Taeko Kimura Koji Tsutsumi Masato Taoka Taro Saito Masami Masuda-Suzukake Koichi Ishiguro Florian Plattner Takafumi Uchida Toshiaki Isobe Masato Hasegawa Shin-ichi Hisanaga 《The Journal of biological chemistry》2013,288(11):7968-7977
Neurodegenerative diseases associated with the pathological aggregation of microtubule-associated protein Tau are classified as tauopathies. Alzheimer disease, the most common tauopathy, is characterized by neurofibrillary tangles that are mainly composed of abnormally phosphorylated Tau. Similar hyperphosphorylated Tau lesions are found in patients with frontotemporal dementia with parkinsonism linked to chromosome 17 (FTDP-17) that is induced by mutations within the tau gene. To further understand the etiology of tauopathies, it will be important to elucidate the mechanism underlying Tau hyperphosphorylation. Tau phosphorylation occurs mainly at proline-directed Ser/Thr sites, which are targeted by protein kinases such as GSK3β and Cdk5. We reported previously that dephosphorylation of Tau at Cdk5-mediated sites was enhanced by Pin1, a peptidyl-prolyl isomerase that stimulates dephosphorylation at proline-directed sites by protein phosphatase 2A. Pin1 deficiency is suggested to cause Tau hyperphosphorylation in Alzheimer disease. Up to the present, Pin1 binding was only shown for two Tau phosphorylation sites (Thr-212 and Thr-231) despite the presence of many more hyperphosphorylated sites. Here, we analyzed the interaction of Pin1 with Tau phosphorylated by Cdk5-p25 using a GST pulldown assay and Biacore approach. We found that Pin1 binds and stimulates dephosphorylation of Tau at all Cdk5-mediated sites (Ser-202, Thr-205, Ser-235, and Ser-404). Furthermore, FTDP-17 mutant Tau (P301L or R406W) showed slightly weaker Pin1 binding than non-mutated Tau, suggesting that FTDP-17 mutations induce hyperphosphorylation by reducing the interaction between Pin1 and Tau. Together, these results indicate that Pin1 is generally involved in the regulation of Tau hyperphosphorylation and hence the etiology of tauopathies. 相似文献
45.
Takaaki Kubota Yuichiro Ishiguro Azusa Takahashi-Nakaguchi Jane Fromont Tohru Gonoi Jun’ichi Kobayashi 《Bioorganic & medicinal chemistry letters》2013,23(1):244-247
Three new polyketides, manzamenones L–N (1–3), have been isolated from an Okinawan marine sponge of the genus Plakortis. The structures of 1–3 were elucidated on the basis of spectroscopic data. Manzamenones L–N (1–3) were new dimeric fatty-acid derivatives consisting of a tetrahydroindenone with three carboxy groups and two hexadecanyl chains. Manzamenones M (2) and N (3) showed antimicrobial activity against several bacteria and fungi. 相似文献
46.
Sadao Kato Tadao Kurata Shigeo Ishiguro Masao Fujimaki 《Bioscience, biotechnology, and biochemistry》2013,77(7):1759-1761
Bacillus circulans WL-12, a yeast and fungal cell wall lytic bacterium, secretes a variety of polysaccharide degrading enzymes into the culture medium. When β-1,3-glucanase was induced with pachyman, a β-1,3-glucose polymer obtained from the tree fungus Poria cocus Wolf, six distinct active molecules of the enzyme with different molecular weights were detected in the culture supernatant of this bacterium. Molecular cloning of one of the β,3-gIucanase genes into E. coli was achieved by transforming E. coli HB101 cells with recombinant plasmids composed of chromosomal DNA fragments prepared from B. circulans WL-12 and the plasmid vector pUC 19. A recombinant plasmid containing 4.4 kb of inserted DNA in the Pst I site of pUC 19, designated as pNT003, conferred the ability to degrade pachyman on E. coli cells. The presence of pNT003 was harmful for E. coli cells and caused cell lysis, especially at higher temperatures of cultivation. β,3-Glucanase activity detected in E. coli was mainly recovered in the periplasmic fraction when cell lysis did not occur. SDS-PAGE analysis revealed that the periplasmic fraction contained four active molecules of β-1,3-glucanase which corresponded to four of the six active molecules produced by B. circulans WL-12. 相似文献
47.
Yohei Miyanoiri Mitsuhiro Takeda Kosuke Okuma Akira M. Ono Tsutomu Terauchi Masatsune Kainosho 《Journal of biomolecular NMR》2013,57(3):237-249
The 1H–13C HMQC signals of the 13CH3 moieties of Ile, Leu, and Val residues, in an otherwise deuterated background, exhibit narrow line-widths, and thus are useful for investigating the structures and dynamics of larger proteins. This approach, named methyl TROSY, is economical as compared to laborious methods using chemically synthesized site- and stereo-specifically isotope-labeled amino acids, such as stereo-array isotope labeling amino acids, since moderately priced, commercially available isotope-labeled α-keto acid precursors can be used to prepare the necessary protein samples. The Ile δ1-methyls can be selectively labeled, using isotope-labeled α-ketobutyrates as precursors. However, it is still difficult to prepare a residue-selectively Leu and Val labeled protein, since these residues share a common biosynthetic intermediate, α-ketoisovalerate. Another hindering drawback in using the α-ketoisovalerate precursor is the lack of stereo-selectivity for Leu and Val methyls. Here we present a differential labeling method for Leu and Val residues, using four kinds of stereo-specifically 13CH3-labeled [U–2H;15N]-leucine and -valine, which can be efficiently incorporated into a protein using Escherichia coli cellular expression. The method allows the differential labeling of Leu and Val residues with any combination of stereo-specifically isotope-labeled prochiral methyls. Since relatively small amounts of labeled leucine and valine are required to prepare the NMR samples; i.e., 2 and 10 mg/100 mL of culture for leucine and valine, respectively, with sufficient isotope incorporation efficiency, this approach will be a good alternative to the precursor methods. The feasibility of the method is demonstrated for 82 kDa malate synthase G. 相似文献
48.
Ma BY Nakamura N Dlabac V Naito H Yamaguchi S Ishikawa M Nonaka M Ishiguro M Kawasaki N Oka S Kawasaki T 《The Journal of biological chemistry》2007,282(17):12963-12975
Mannan-binding protein (MBP) is a C-type serum lectin that is an important constituent of the innate immune defense because it activates the complement system via the lectin pathway. While the pig has been proposed to be an attractive source of xenotransplantable tissues and organs, little is known about porcine MBP. In our previous studies, phosphomannan, but not mannan, was found to be an effective inhibitor of the C1q-independent bactericidal activity of newborn piglet serum against some rough strains of Gram-negative bacteria. In contrast, the inhibitory activities of phosphomannan and mannan were very similar in the case of MBP-dependent bactericidal activity against rough strains of Escherichia coli K-12 and S-16. Based on these findings, we inferred that an MBP-like lectin with slightly or completely different carbohydrate binding specificity might exist in newborn piglet serum and be responsible for the C1q-independent bactericidal activity. Herein we report that a novel phosphomannan-binding lectin (PMBL) of 33 kDa under reducing conditions was isolated from both newborn and adult porcine serum and characterized. Porcine PMBL functionally activated the complement system via the lectin pathway triggered by binding with both phosphomannan (P-mannan) and mannan, which, unlike MBP, was effectively inhibited by mannose 6-phosphate- or galatose-containing oligosaccharides. Our observations suggest that porcine PMBL plays a critical role in the innate immune defense from the newborn stage to adult-hood, and the establishment of a newborn piglet experimental model for the innate immune system studies is a valuable step toward elucidation of the physiological function and molecular mechanism of lectin pathway. 相似文献
49.
50.
T Kurihara M Akimoto K Kurokawa H Ishiguro A Niimi A Maeda M Sigemoto K Yamashita I Yokoyama Y Hirayama 《Life sciences》1992,51(26):PL281-PL285
In our previous study, we determined changes in hepatic blood flow using a Laser Doppler blood flow meter after i.v. injection of endothelin-1 (ET-1) or endothelin-3 (ET-3) at 2 nmol/kg in rats and found that ET-3 caused greater decreases in blood flow than ET-1. In the present study, we determined how the arachidonic acid cascade, mainly thromboxane A2 (TXA2), is related to ET-1 and ET-3 using indomethacin (INDO), which inhibits the biosynthesis of prostaglandin (PG), and OKY-046, a selective inhibitor of TXA2 synthesis. In the first series of experiments, ET-1 and ET-3 were administered after inhibiting the biosynthesis of PG by s.c. injection of 2 mg/kg of INDO. While INDO failed to inhibit the slight decrease in hepatic blood flow induced by ET-1, it significantly inhibited the marked decrease in hepatic blood flow elicited by ET-3. In the next series of experiments, ET-1 and ET-3 were administered after administration of 20 mg/kg of OKY-046. OKY-046 showed no effects in animals treated with ET-1, as in those pre-treated with INDO, while it significantly inhibited the decreases in hepatic blood flow induced by ET-3. These findings suggest that ET-1 decreases hepatic blood flow due to its direct effects although to a lesser extent than ET-3, while ET-3 does so due not only to its direct effects but also to TXA2-mediated effects. It is therefore likely that in addition to ET family peptides, PG-mediated mechanisms are involved in the regulation of hepatic microcirculation by ETs. 相似文献