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91.
Hakoda M Kasagi F Kusunoki Y Matsuura S Hayashi T Kyoizumi S Akahoshi M Suzuki G Kodama K Fujiwara S 《Radiation research》2006,166(2):360-366
Although it has been suggested that cardiovascular disease incidence is increased among atomic bomb survivors, the existence of a causal relationship between radiation exposure and atherosclerosis is unclear. Microbial infections, including those caused by Chlamydia pneumoniae, Helicobacter pylori and cytomegalovirus, have recently been implicated in atherosclerosis. Since immune function is somewhat impaired among atomic bomb survivors, their immune defense against such infections might be diminished. To investigate this possibility, we measured antibody levels to the above microorganisms in the sera of survivors. We found that the levels of IgG and IgA antibodies to Chlamydia pneumoniae decreased significantly with radiation dose, whereas the levels of IgG antibodies to Helicobacter pylori or cytomegalovirus remained unchanged. The inflammation marker C-reactive protein was significantly and positively associated with level of antibodies to Chlamydia pneumoniae only in heavily exposed (>or=1000 mGy) survivors. These results may suggest that among atomic bomb survivors, immune response to Chlamydia pneumoniae is diminished and chronic inflammatory reactions related to Chlamydia pneumoniae infection are present. 相似文献
92.
McAuley A Jacob J Kolvenbach CG Westland K Lee HJ Brych SR Rehder D Kleemann GR Brems DN Matsumura M 《Protein science : a publication of the Protein Society》2008,17(1):95-106
Recombinant human monoclonal antibodies have become important protein-based therapeutics for the treatment of various diseases. The antibody structure is complex, consisting of beta-sheet rich domains stabilized by multiple disulfide bridges. The dimerization of the C(H)3 domain in the constant region of the heavy chain plays a pivotal role in the assembly of an antibody. This domain contains a single buried, highly conserved disulfide bond. This disulfide bond was not required for dimerization, since a recombinant human C(H)3 domain, even in the reduced state, existed as a dimer. Spectroscopic analyses showed that the secondary and tertiary structures of reduced and oxidized C(H)3 dimer were similar, but differences were observed. The reduced C(H)3 dimer was less stable than the oxidized form to denaturation by guanidinium chloride (GdmCl), pH, or heat. Equilibrium sedimentation revealed that the reduced dimer dissociated at lower GdmCl concentration than the oxidized form. This implies that the disulfide bond shifts the monomer-dimer equilibrium. Interestingly, the dimer-monomer dissociation transition occurred at lower GdmCl concentration than the unfolding transition. Thus, disulfide bond formation in the human C(H)3 domain is important for stability and dimerization. Here we show the importance of the role played by the disulfide bond and how it affects the stability and monomer-dimer equilibrium of the human C(H)3 domain. Hence, these results may have implications for the stability of the intact antibody. 相似文献
93.
94.
Shirasaki Y Takahashi H Yamaguchi M Inoue J 《Bioorganic & medicinal chemistry letters》2008,18(19):5174-5177
To investigate the molecular design of drugs that have good penetration into the retina from anterior segment of the eye via ocular instillation, we optimized the length of methoxyethylene glycol chain (mEG) in the P3 region of an oral bioavailable calpain inhibitor SNJ-1945 (2) as a model compound. Modulation of the mEG length led to the optimal balance between hydrophilicity and lipophilicity and provided the compound with higher retinal exposure via ocular instillation. Incorporation of a mEG moiety would be a useful and convenient approach to attain high intraocular penetration. 相似文献
95.
Lysophosphatidylcholine enhances glucose-dependent insulin secretion via an orphan G-protein-coupled receptor 总被引:4,自引:0,他引:4
Soga T Ohishi T Matsui T Saito T Matsumoto M Takasaki J Matsumoto S Kamohara M Hiyama H Yoshida S Momose K Ueda Y Matsushime H Kobori M Furuichi K 《Biochemical and biophysical research communications》2005,326(4):744-751
A lysophospholipid series, such as lysophosphatidic acid, lysophosphatidylserine, and lysophosphatidylcholine (LPC), is a bioactive lipid mediator with diverse physiological and pathological functions. LPC has been reported to induce insulin secretion from pancreatic beta-cells, however, the precise mechanism has remained elusive to date. Here we show that an orphan G-protein-coupled receptor GPR119 plays a pivotal role in this event. LPC potently enhances insulin secretion in response to high concentrations of glucose in the perfused rat pancreas via stimulation of adenylate cyclase, and dose-dependently induces intracellular cAMP accumulation and insulin secretion in a mouse pancreatic beta-cell line, NIT-1 cells. The Gs-protein-coupled receptor for LPC was identified as GPR119, which is predominantly expressed in the pancreas. GPR119-specific siRNA significantly blocked LPC-induced insulin secretion from NIT-1 cells. Our findings suggest that GPR119, which is a novel endogenous receptor for LPC, is involved in insulin secretion from beta-cells, and is a potential target for anti-diabetic drug development. 相似文献
96.
Verschaeve L Juutilainen J Lagroye I Miyakoshi J Saunders R de Seze R Tenforde T van Rongen E Veyret B Xu Z 《Mutation research》2010,705(3):252-268
There has been growing concern about the possibility of adverse health effects resulting from exposure to radiofrequency radiations (RFR), such as those emitted by wireless communication devices. Since the introduction of mobile phones many studies have been conducted regarding alleged health effects but there is still some uncertainty and no definitive conclusions have been reached so far. Although thermal effects are well understood they are not of great concern as they are unlikely to result from the typical low-level RFR exposures. Concern rests essentially with the possibility that RFR-exposure may induce non-thermal and/or long-term health effects such as an increased cancer risk. Consequently, possible genetic effects have often been studied but with mixed results. In this paper we review the data on alleged RFR-induced genetic effects from in vitro and in vivo investigations as well as from human cytogenetic biomonitoring surveys. Attention is also paid to combined exposures of RFR with chemical or physical agents. Again, however, no entirely consistent picture emerges. Many of the positive studies may well be due to thermal exposures, but a few studies suggest that biological effects can be seen at low levels of exposure. Overall, however, the evidence for low-level genotoxic effects is very weak. 相似文献
97.
Ohka F Natsume A Motomura K Kishida Y Kondo Y Abe T Nakasu Y Namba H Wakai K Fukui T Momota H Iwami K Kinjo S Ito M Fujii M Wakabayashi T 《PloS one》2011,6(8):e23332
Gliomas are the most frequently occurring primary brain tumor in the central nervous system of adults. Glioblastoma multiformes (GBMs, WHO grade 4) have a dismal prognosis despite the use of the alkylating agent, temozolomide (TMZ), and even low grade gliomas (LGGs, WHO grade 2) eventually transform to malignant secondary GBMs. Although GBM patients benefit from promoter hypermethylation of the O(6)-methylguanine-DNA methyltransferase (MGMT) that is the main determinant of resistance to TMZ, recent studies suggested that MGMT promoter methylation is of prognostic as well as predictive significance for the efficacy of TMZ. Glioma-CpG island methylator phenotype (G-CIMP) in the global genome was shown to be a significant predictor of improved survival in patients with GBM. Collectively, we hypothesized that MGMT promoter methylation might reflect global DNA methylation. Additionally in LGGs, the significance of MGMT promoter methylation is still undetermined. In the current study, we aimed to determine the correlation between clinical, genetic, and epigenetic profiles including LINE-1 and different cancer-related genes and the clinical outcome in newly diagnosed 57 LGG and 54 GBM patients. Here, we demonstrated that (1) IDH1/2 mutation is closely correlated with MGMT promoter methylation and 1p/19q codeletion in LGGs, (2) LINE-1 methylation levels in primary and secondary GBMs are lower than those in LGGs and normal brain tissues, (3) LINE-1 methylation is proportional to MGMT promoter methylation in gliomas, and (4) higher LINE-1 methylation is a favorable prognostic factor in primary GBMs, even compared to MGMT promoter methylation. As a global DNA methylation marker, LINE-1 may be a promising marker in gliomas. 相似文献
98.
Jiro Arima Ayumi Tanaka Masazumi Morimoto Nobuhiro Mori 《Applied microbiology and biotechnology》2014,98(4):1631-1640
A β-peptidyl aminopeptidase, a peptidase belonging to the P1 family, catalyzes aminolysis in accordance with its hydrolytic activity. We specifically examined β-peptidyl aminopeptidase of Pseudomonas aeruginosa PAO1 (BapF) to assess the effects of mutation of catalytic Ser with Cys or Thr on its catalytic ability. Recombinant BapF and its S237C mutant exhibited p-nitroaniline release activity toward β-homo-Gly-p-nitroanilide (βhGly-pNA), but the products of the enzyme reaction differed completely from one another. Wild-type BapF showed βhGly-βhGly-pNA synthetic activity, but the product vanished in a few minutes and converted to free βhGly. In contrast, the product βhGly-βhGly-pNA was synthesized by S237C BapF efficiently without degradation, indicating that because of the mutation, the enzyme came to recognize only the amine group as an acyl acceptor instead of water. Furthermore, a difference in acyl acceptor preference between that of wild type and S237C BapF was observed. When using cysteamine as an acyl acceptor, βhGly-cysteamine was synthesized only in the reaction using S237C BapF. In contrast, S237C BapF was unable to synthesize βhGly-cystamine when using cystamine as an acyl acceptor, although it was synthesized by wild-type BapF. Such a dynamic change in the acyl acceptor by the mutation of catalytic Ser with Cys is regarded as a unique feature of family P1 peptidases. 相似文献
99.
100.
Bratin K. Saha Masazumi Sameshima Fumiko Sameshima David Schlessinger 《In vitro cellular & developmental biology. Plant》1981,17(9):816-824
Summary Activities of three lysosomal enzymes—acid RNase,N-acetyl-β-D-glucosaminidase and acid phosphatase—were determined during the growth cycles of WI-38 and HeLa cells, as well as in radiation-arrested
WI-38 cells. In confluent and growth-arrested cultures of WI-38 cells, the lysosomal RNase increased six- to sevenfold; glucosaminidase,
four- to five-fold; and phosphatase, two- to threefold. In HeLa cells, the lysosomal enzymes also increased in confluent cultures,
but less than twofold; and the RNase level increased only transiently. In both WI-38 and HeLa cells, the rate of RNA breakdown,
also increased as cultured approached confluency. The rate of turnover of RNA, like the level of acid RNase, was higher in
WI-38 cells than in HeLa cells (4 d half-life compared to 8 d).
The increase in acid RNase could be prevented by incubation of cells in NH4Cl, but the rate of turnover in the presence of NH4Cl increased just as much when cells became confluent or stopped growth. The content of acid RNase could be changed more than
10-fold without altering the rate of RNA turnover. It is suggested that the increase in enzyme level is more important for
possible autophagy or increased digestion of engulfed RNA, rather than for normal RNA turnover, when growth stops.
This study was supported by Grant GM-21357 from the National Institutes of Health. 相似文献