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181.
Noritsugu Yabe Miwa Kato Yutaka Matsuya Isao Yamane Muneaki Iizuka Hiroyuki Takayoshi Kiyokazu Suzuki 《In vitro cellular & developmental biology. Plant》1987,23(12):815-820
Summary The role of various iron chelators on the multiplication of mouse hybridoma cells in an albumin-free, transferrin-deficient
defined medium was investigated. Fe(III)-dihydroxyethylglycine, Fe(III)-glycylglycine, Fe(III)-ethylenediamine-N,N′-dipropionic acid, or Fe(III)-iminodiacetic acid supported the excellent growth of the cells. In addition, the growth of the
iron-starved cells, which had been preincubated in a protein-, iron- and chelator-free defined medium, restored rapidly when
the medium was supplemented with holotransfeerrin, ferric iron, and chelator compared to that when supplemented with holotransferin,
but without iron and chelator. The results suggest that such chelators modulate a progression of transferrn cycle in the presence
of transferin and ferric iron. An alternative explantation is that there is a decrease in generation of iron-catalyzed free
radicals. 相似文献
182.
Naotake Kobayashi Norihito Sato Katsuji Sugita Kouji Takahashi Tamio Sugawara Yukio Tada Takayoshi Yoshikawa 《Journal of peptide science》2019,25(12)
We discovered the orally active thyrotropin‐releasing hormone (TRH) mimetic: (4S,5S)‐5‐methyl‐N‐{(2S)‐1‐[(2R)‐2‐methylpyrrolidin‐1‐yl]‐1‐oxo‐3‐(1,3‐thiazol‐4‐yl)propan‐2‐yl}‐2‐oxo‐1,3‐oxazolidine‐4‐carboxamide 1 (rovatirelin). The central nervous system (CNS) effect of rovatirelin after intravenous (iv) administration is 100‐fold higher than that of TRH. As 1 has four asymmetric carbons in its molecule, there are 16 stereoisomers. We synthesized and evaluated the anti‐hypothermic effect of all stereoisomers of 1 , which has the (4S),(5S),(2S),(2R) configuration from the N‐terminus to the C‐terminus, in order to clarify the structure?activity relationship (SAR) of stereoisomers. The (4R),(5R),(2R),(2S)‐isomer 16 did not show any anti‐hypothermic effect. Only the (4S),(5S),(2S),(2S)‐isomer 10 , which has the (2S)‐2‐methylpyrrolidine moiety at the C‐terminus showed the anti‐hypothermic effect similar to 1 . Stereoisomers, which have the (5R) configuration of the oxazolidinone at the N‐terminus and the (2R) configuration at the middle‐part, showed a much lower anti‐hypothermic effect than that of 1 . On the other hand, stereoisomers, which have the (4R) configuration of the oxazolidinone at the N‐terminus or the (2S) configuration of the C‐terminus, have little influence on the anti‐hypothermic effect. 相似文献
183.
Objective: We examined the gene expression of macrophage‐colony stimulating factor (M‐CSF) in mice with diet‐induced obesity and in genetically obese mice. We also examined the effect of decreased M‐CSF signaling on the susceptibility to obesity and macrophage recruitment into the adipose tissue of mice. Research Methods and Procedures: The adipose tissue from mice with diet‐induced obesity, obese KKAy mice, and ob/ob obese mice was used for RNA preparation. Production of M‐CSF and monocyte chemoattractant protein‐1 (MCP‐1) was examined by quantitative real‐time polymerase chain reaction (PCR) and enzyme‐linked immunosorbent assay. The op/+ heterozygous mice, with decreased functional M‐CSF expression, were placed on a high‐fat diet or crossed with KKAy mice to study the susceptibility to obesity. The gene expression of macrophage markers in adipose tissue was examined. Results: The expression of M‐CSF was not significantly changed in mice on a high‐fat diet or in either type of genetic obesity (KKAy or ob/ob mice). No change in the degree of obesity or macrophage‐related gene expression (F4/80, CD68, and MCP‐1) in the adipose tissue was observed in op/+ mice compared with +/+ control mice, which were either treated with a high‐fat diet or crossed with KKAy mice. Discussion: This study demonstrated that there was no significant change in the expression of M‐CSF in the adipose tissue from obese mice and only a minor phenotypic change, such as macrophage infiltration, in the adipose tissue from op/+ mice, suggesting that M‐CSF does not play a major role in macrophage recruitment in the adipose tissue of obese mice. 相似文献
184.
Insulin/insulin-like growth factor-I (IGF-I) pathways are recognized as critical signaling pathways involved in the control of lifespans in lower organisms to mammals. Caloric restriction (CR) reduces plasma concentration of insulin, growth hormone (GH), and IGF-I. CR retards various age-dependent disorders such as nuerodegenerative diseases and extends lifespan in laboratory rodents. These beneficial effects of CR are partly mimicked in spontaneous or genetically engineered rodent models of reduced insulin and GH/IGF-I axis. Most of these long-living rodents show increased insulin sensitivity; however, recent study has revealed that some other rodents show normal or reduced insulin sensitivity. Thus, increased insulin sensitivity might be not prerequisite for lifespan extension in insulin/GH/IGF-I altered longevity rodent models. These results highlighted that, for lifespan extension, the intracellular signaling molecules of insulin/GH/IGF-I pathways might be more important than actual peripheral or systemic insulin action. 相似文献
185.
Shinobu Kitazume Akiomi Yoshihisa Takayoshi Yamaki Masayoshi Oikawa Yuriko Tachida Kazuko Ogawa Rie Imamaki Yoshiaki Hagiwara Noriaki Kinoshita Yasuchika Takeishi Katsutoshi Furukawa Naoki Tomita Hiroyuki Arai Nobuhisa Iwata Takaomi Saido Naomasa Yamamoto Naoyuki Taniguchi 《The Journal of biological chemistry》2012,287(48):40817-40825
Most Alzheimer disease (AD) patients show deposition of amyloid β (Aβ) peptide in blood vessels as well as the brain parenchyma. We previously found that vascular endothelial cells express amyloid β precursor protein (APP) 770, a different APP isoform from neuronal APP695, and produce Aβ. Since the soluble APP cleavage product, sAPP, is considered to be a possible marker for AD diagnosis, sAPP has been widely measured as a mixture of these variants. We hypothesized that measurement of the endothelial APP770 cleavage product in patients separately from that of neuronal APP695 would enable discrimination between endothelial and neurological dysfunctions. Using our newly developed ELISA system for sAPP770, we observed that inflammatory cytokines significantly enhanced sAPP770 secretion by endothelial cells. Furthermore, we unexpectedly found that sAPP770 was rapidly released from activated platelets. We also found that cerebrospinal fluid mainly contained sAPP695, while serum mostly contained sAPP770. Finally, to test our hypothesis that sAPP770 could be an indicator for endothelial dysfunction, we applied our APP770 ELISA to patients with acute coronary syndrome (ACS), in which endothelial injury and platelet activation lead to fibrous plaque disruption and thrombus formation. Development of a biomarker is essential to facilitate ACS diagnosis in clinical practice. The results revealed that ACS patients had significantly higher plasma sAPP770 levels. Furthermore, in myocardial infarction model rats, an increase in plasma sAPP preceded the release of cardiac enzymes, currently used markers for acute myocardial infarction. These findings raise the possibility that sAPP770 can be a useful biomarker for ACS. 相似文献
186.
Miyahara M Kim SW Zhou S Fushinobu S Yamada T Ikeda-Ohtsubo W Watanabe A Miyauchi K Endo G Wakagi T Shoun H 《Bioscience, biotechnology, and biochemistry》2012,76(3):495-500
The aerobic denitrifier Pseudomonas stutzeri TR2 (strain TR2) has the potential to reduce nitrous oxide emissions during the wastewater treatment process. In this application, it is important to find the best competitive survival conditions for strain TR2 in complex ecosystems. To that end, we examined co-cultures of strain TR2 with activated sludge via five passage cultures in a medium derived from treated piggery wastewater that contained a high concentration of ammonium. The results are as follows: (i) The medium supported the proliferation of strain TR2 (P. stutzeri strains) under denitrifying conditions. (ii) Nitrite was a better denitrification substrate than nitrate for TR2 survival. (iii) Strain TR2 also demonstrated strong survival even under aerobic conditions. This suggests that strain TR2 is effectively augmented to the wastewater treatment process, aiding in ammonium-nitrogen removal and reducing nitrous oxide production with a partial nitrification technique in which nitrite accumulates. 相似文献
187.
Genetic evidence for phospholipid-mediated regulation of the Rab GDP-dissociation inhibitor in fission yeast
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We have previously identified mutant alleles of genes encoding two Rab proteins, Ypt3 and Ryh1, through a genetic screen using the immunosuppressant drug FK506 in fission yeast. In the same screen, we isolated gdi1-i11, a mutant allele of the essential gdi1+ gene encoding Rab GDP-dissociation inhibitor. In gdi1-i11, a conserved Gly267 was substituted by Asp. The Gdi1G267D protein failed to extract Rabs from membrane and Rabs were depleted from the cytosolic fraction in the gdi1-i11 mutant cells. Consistently, the Gdi1G267D protein was found mostly in the membrane fraction, whereas wild-type Gdi1 was found in both the cytosolic and the membrane fraction. Notably, overexpression of spo20+, encoding a phosphatidylcholine/phosphatidylinositol transfer protein, rescued gdi1-i11 mutation, but not ypt3-i5 or ryh1-i6. The gdi1-i11 and spo20-KC104 mutations are synthetically lethal, and the wild-type Gdi1 failed to extract Rabs from the membrane in the spo20-KC104 mutant. The phosphatidylinositol-transfer activity of Spo20 is dispensable for the suppression of the gdi1-i11 mutation, suggesting that the phosphatidylcholine-transfer activity is important for the suppression. Furthermore, knockout of the pct1+ gene encoding a choline phosphate cytidyltransferase rescued the gdi1-i11 mutation. Together, our findings suggest that Spo20 modulates Gdi1 function via regulation of phospholipid metabolism of the membranes. 相似文献
188.
Hidaka M Kitaoka M Hayashi K Wakagi T Shoun H Fushinobu S 《The Biochemical journal》2006,398(1):37-43
Cellobiose phosphorylase, a member of the glycoside hydrolase family 94, catalyses the reversible phosphorolysis of cellobiose into alpha-D-glucose 1-phosphate and D-glucose with inversion of the anomeric configuration. The substrate specificity and reaction mechanism of cellobiose phosphorylase from Cellvibrio gilvus have been investigated in detail. We have determined the crystal structure of the glucose-sulphate and glucose-phosphate complexes of this enzyme at a maximal resolution of 2.0 A (1 A=0.1 nm). The phosphate ion is strongly held through several hydrogen bonds, and the configuration appears to be suitable for direct nucleophilic attack to an anomeric centre. Structural features around the sugar-donor and sugar-acceptor sites were consistent with the results of extensive kinetic studies. When we compared this structure with that of homologous chitobiose phosphorylase, we identified key residues for substrate discrimination between glucose and N-acetylglucosamine in both the sugar-donor and sugar-acceptor sites. We found that the active site pocket of cellobiose phosphorylase was covered by an additional loop, indicating that some conformational change is required upon substrate binding. Information on the three-dimensional structure of cellobiose phosphorylase will facilitate engineering of this enzyme, the application of which to practical oligosaccharide synthesis has already been established. 相似文献
189.
Matsumura T Suzuki T Kada N Aizawa K Munemasa Y Nagai R 《Biochemical and biophysical research communications》2006,351(4):965-971
Protein profiling would aid in better understanding the pathophysiology of metabolic disease. Here, we report on differential proteomic analysis using an animal model of diabetes mellitus and associated metabolic disorders (Otsuka Long-Evans Tokushima Fatty rat). Serum was analyzed by a new two-dimensional liquid chromatography system which separated proteins by chromatofocusing and subsequent reversed-phase chromatography. This is the first application of this approach to differential serum proteomics. Differentially expressed proteins, identified with MALDI-TOF mass spectrometry, included apolipoproteins and alpha2-HS-glycoprotein. These findings add to our understanding of the underlying pathophysiology. This new proteomic analysis is a promising tool to elucidate disease mechanisms. 相似文献
190.
Embryos of avian eggs and mammals are highly sensitive to oxidative stress and hence maintaining a steady reducing environment during the embryonic development is known to confer protection. Although information is completely lacking, proteins of avian egg albumin which have been suggested to play various biological functions, are the major targets for such reducing state during embryogenesis. In this study, we found that ovotransferrin (OTf), the second major protein in egg albumin, undergoes autocleavage at distinct sites upon reduction with thiol-reducing agent or thioredoxin-reducing system. Mass spectral and microsequencing analysis indicated that OTf is able to cleave itself through the unique chemical reactivity of four tripeptides motifs, HTT (residues 209-211), HST (residues 542-544) and two CHT (residues 115-117 and 454-456). Intriguingly, these self-cleavage sites were uniquely located upstream and downstream of the two disulfide kringle domains (residues 115-211 and 454-544) of OTf. These reduction-scissile sequences, His/Cys-X-Thr, are evolutionary conserved self-cleavage motifs found in several autoprocessing proteins including hedgehog proteins. Interestingly, reduction of other two members of transferrin family induced autocleavage patterns, similar to that of OTf, in bovine lactoferrin (bLf) while human lactoferrin (hLf) showed much less self-cleaving activity. This finding is the first to describe that transferrins are a new subset in the class of proteins able to carry out autoprocessing, providing insight into this unusual biochemical process that appears to be a molecular switch involved in triggering a yet unidentified function(s) of OTf as well as bLf. 相似文献