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71.
Genomewide high-density SNP linkage analysis of 236 Japanese families supports the existence of schizophrenia susceptibility loci on chromosomes 1p, 14q, and 20p 总被引:2,自引:1,他引:1 下载免费PDF全文
Arinami T Ohtsuki T Ishiguro H Ujike H Tanaka Y Morita Y Mineta M Takeichi M Yamada S Imamura A Ohara K Shibuya H Ohara K Suzuki Y Muratake T Kaneko N Someya T Inada T Yoshikawa T Toyota T Yamada K Kojima T Takahashi S Osamu O Shinkai T Nakamura M Fukuzako H Hashiguchi T Niwa SI Ueno T Tachikawa H Hori T Asada T Nanko S Kunugi H Hashimoto R Ozaki N Iwata N Harano M Arai H Ohnuma T Kusumi I Koyama T Yoneda H Fukumaki Y Shibata H Kaneko S Higuchi H Yasui-Furukori N Numachi Y Itokawa M 《American journal of human genetics》2005,77(6):937-944
The Japanese Schizophrenia Sib-Pair Linkage Group (JSSLG) is a multisite collaborative study group that was organized to create a national resource for affected sib pair (ASP) studies of schizophrenia in Japan. We used a high-density single-nucleotide–polymorphism (SNP) genotyping assay, the Illumina BeadArray linkage mapping panel (version 4) comprising 5,861 SNPs, to perform a genomewide linkage analysis of JSSLG samples comprising 236 Japanese families with 268 nonindependent ASPs with schizophrenia. All subjects were Japanese. Among these families, 122 families comprised the same subjects analyzed with short tandem repeat markers. All the probands and their siblings, with the exception of seven siblings with schizoaffective disorder, had schizophrenia. After excluding SNPs with high linkage disequilibrium, we found significant evidence of linkage of schizophrenia to chromosome 1p21.2-1p13.2 (LOD=3.39) and suggestive evidence of linkage to 14q11.2 (LOD=2.87), 14q11.2-q13.2 (LOD=2.33), and 20p12.1-p11.2 (LOD=2.33). Although linkage to these regions has received little attention, these regions are included in or partially overlap the 10 regions reported by Lewis et al. that passed the two aggregate criteria of a meta-analysis. Results of the present study—which, to our knowledge, is the first genomewide analysis of schizophrenia in ASPs of a single Asian ethnicity that is comparable to the analyses done of ASPs of European descent—indicate the existence of schizophrenia susceptibility loci that are common to different ethnic groups but that likely have different ethnicity-specific effects. 相似文献
72.
Nakamura H Makino Y Okamoto K Poellinger L Ohnuma K Morimoto C Tanaka H 《Journal of immunology (Baltimore, Md. : 1950)》2005,174(12):7592-7599
Peripheral T cells encounter rapid decrease in oxygen tension because they are activated by Ag recognition and migrate into inflammatory sites or tumors. Activated T cells, therefore, are thought to have such machineries that enable them to adapt to hypoxic conditions and execute immune regulation in situ. We have recently shown that survival of CD3-engaged human peripheral blood T cells is prolonged under hypoxic conditions and hypoxia-inducible factor-1 (HIF-1) and its target gene product adrenomedullin play a critical role for the process. It is also shown that hypoxia alone is not sufficient, but TCR-mediated signal is required for accumulation of HIF-1alpha in human peripheral T cells. In the present study, we showed that TCR engagement does not influence hypoxia-dependent stabilization but stimulates protein synthesis of HIF-1alpha, most possibly via PI3K/mammalian target of rapamycin system, and that expression of HIF-1alpha and its target genes is blocked by treatment with rapamycin. Since some of those gene products, e.g., glucose transporters and phosphoglycerokinase, are considered to be essential for glycolysis and energy production under hypoxic conditions and adequate immune reaction in T cells, this TCR-mediated synthesis of HIF-1alpha may play a pivotal role in peripheral immune response. Taken together, our results may highlight a novel aspect of downstream signal from Ag recognition by TCR and a unique pharmacological role of rapamycin as well. 相似文献
73.
Phosphoinositide 3-kinase-mediated activation of cofilin phosphatase Slingshot and its role for insulin-induced membrane protrusion 总被引:3,自引:0,他引:3
Nishita M Wang Y Tomizawa C Suzuki A Niwa R Uemura T Mizuno K 《The Journal of biological chemistry》2004,279(8):7193-7198
Cofilin plays an essential role in actin filament dynamics and membrane protrusion in motile cells. Cofilin is inactivated by phosphorylation at Ser-3 by LIM kinase and reactivated by dephosphorylation by cofilin-phosphatase Slingshot (SSH). Although cofilin is dephosphorylated in response to various extracellular stimuli, signaling pathways regulating SSH activation and cofilin dephosphorylation have remained to be elucidated. Here we show that insulin stimulates the phosphatase activity of Slingshot-1L (SSH1L) and cofilin dephosphorylation in cultured cells, in a manner dependent on phosphoinositide 3-kinase (PI3K) activity. Consistent with this, the level of Ser-3-phosphorylated cofilin is increased in PTEN (phosphatase and tensin homolog deleted in chromosome 10)-overexpressing cells and decreased in PTEN-deficient cells. Insulin induced the accumulation of SSH1L and active Akt (a downstream effector of PI3K), together with a PI3K product phosphatidylinositol 3,4,5-trisphosphate, onto membrane protrusions. Cofilin, but not Ser-3-phosphorylated cofilin, accumulated in membrane protrusions in insulin-stimulated cells, indicating that cofilin is dephosphorylated in these areas. Finally, suppression of SSH1L expression by RNA interference abolished insulin-induced cofilin dephosphorylation and the membrane protrusion. These findings suggest that SSH1L is activated downstream of PI3K and plays a critical role in insulin-induced membrane protrusion by dephosphorylating and activating cofilin. 相似文献
74.
An investigation was made of the respiratory properties and the role of the mitochondria isolated from one phosphoenolpyruvate carboxykinase (PCK)-CAM plant Ananas comosus (pineapple) in malate metabolism during CAM phase III. Pineapple mitochondria showed very high malate dehydrogenase (MDH), and low malic enzyme (ME) and glutamate-oxaloacetate transaminase (GOT) activities. The mitochondria readily oxidized succinate and NADH with high rates and coupling, while they only oxidized NADPH in the presence of Ca(2+). Pineapple mitochondria oxidized malate with low rates under most assay conditions, despite increasing malate concentrations, optimizing pH, providing cofactors such as coenzyme A, thiamine pyrophosphate, and NAD(+), and supplying individually external glutamate or GOT. However, providing glutamate and GOT simultaneously strongly increased the rates of malate oxidation. The OAA easily permeated the mitochondrial membranes to import into or export out of pineapple mitochondria during malate oxidation, but the mitochondria did not consume external Asp or alpha-KG. These results suggest that OAA played a significant role in the mitochondrial malate metabolism of pineapple, in which malate was mainly oxidized by active mMDH to produce OAA which could be exported outside the mitochondria via a malate-OAA shuttle. Cytosolic GOT then consumed OAA by transamination in the presence of glutamate, leading to a large increase in respiration rates. The malate-OAA shuttle might operate as a supporting system for decarboxylation in phase III of PCK-CAM pineapple. This shuttle system may be important in pineapple to provide a source of energy and substrate OAA for cytosolic PCK activity during the day when cytosolic OAA and ATP was limited for the overall decarboxylation process. 相似文献
75.
Makiko Kosugi Yuya Katashima Shimpei Aikawa Yukiko Tanabe Sakae Kudoh Yasuhiro Kashino Hiroyuki Koike Kazuhiko Satoh 《Journal of phycology》2010,46(3):466-476
The terrestrial cyanobacterium Nostoc commune Vaucher ex Bornet et Flahault occurs worldwide, including in Japan and on the Antarctic continent. The terrestrial green alga Prasiola crispa (Lightf.) Kütz. is also distributed in Antarctica. These two species need to acclimate to the severe Antarctic climate including low ambient temperature and desiccation under strong light conditions. To clarify this acclimation process, the physiological characteristics of the photosynthetic systems of these two Antarctic terrestrial organisms were assessed. The relative rate of photosynthetic electron flow in N. commune collected in Japan and in Antarctica reached maxima at 900 and 1,100 μmol photons · m?2 · s?1, respectively. The difference seemed to reflect the presence of high amounts of UV‐absorbing substances within the Antarctic cyanobacterium. On the other hand, the optimal temperatures for photosynthesis at the two locations were 30°C–35°C and 20°C–25°C, respectively. This finding suggested a decreased photosynthetic thermotolerance in the Antarctic strain. P. crispa exhibited desiccation tolerance and dehydration‐induced quenching of PSII fluorescence. Re‐reduction of the photooxidized PSI reaction center, P700, was also inhibited at fully dry states. Photosynthetic electron flow in P. crispa reached a maximum at 20°C–25°C and at a light intensity of 700 μmol photons ? m?2 ? s?1. Interestingly, the osmolarity of P. crispa cells suggested that photosynthesis is performed using water absorbed in a liquid form rather than water absorbed from the air. Overall, these data suggest that these two species have acclimated to optimally photosynthesize under conditions of the highest light intensity and the highest temperature for their habitat in Antarctica. 相似文献
76.
Sano S Okawa A Nakajima A Tahara M Fujita K Wada Y Yamazaki M Moriya H Sasho T 《Cell and tissue research》2006,323(2):245-252
To investigate the mechano-transduction system of cells, we identified genes responsive to a cyclic mechanical stimulus. MC3T3.E1
cells were cultured on a computer-controlled vacuum-pump-operated device designed to provide a cyclic mechanical stimulus.
A maximum elongation of 15% of membrane at 10 cycles/min (3 s extension followed by 3 s relax per cycle) was repeated for
48 h. By means of a differential display, the gene expression pattern of cells exposed to the stimulus was compared with that
of unexposed cells. As a result, a gene fragment that was exclusively expressed in mechanically stressed cells was identified.
By using expressed sequence tag walking together with the oligo-capping method, this gene was identified as phosphatidylinositol
4-phosphate 5-kinase type II β (initially known as Pip5k2β but now reclassified as Pip4k2β). The specific up-regulation of Pip4k2β upon mechanical stimulus was also confirmed by using another apparatus, viz. a computer-controlled linearized-stepping motor
system. To examine the involvement of the cyclic mechanical stimulus in the regulation of Pip4k2β expression in musculoskeletal tissue, we created an Achilles tendon transection model in rabbits. The temporal expression
of Pip4k2β was assessed by means of a quantitative reverse-transcribed polymerase chain reaction. In the gastrocnemius muscle, expression
of Pip4k2β rapidly decreased 1 week after transection but was restored to normal levels at 4 weeks. In the Achilles tendon, however,
expression remained decreased until 4 weeks after transection. We suggest that the expression of Pip4k2β can be used as a marker for cells receiving a suitable mechanical stimulus.
This study was supported by a Grant-in-Aid for Scientific Research from the Ministry of Education, Science, Sports and Culture
of Japan. 相似文献
77.
78.
Kusano S Kukimoto-Niino M Hino N Ohsawa N Okuda K Sakamoto K Shirouzu M Shindo T Yokoyama S 《Protein science : a publication of the Protein Society》2012,21(2):199-210
The calcitonin receptor-like receptor (CRLR), a class B GPCR, forms a heterodimer with receptor activity-modifying protein 2 (RAMP2), and serves as the adrenomedullin (AM) receptor to control neovascularization, while CRLR and RAMP1 form the calcitonin gene-related peptide (CGRP) receptor. Here, we report the crystal structures of the RAMP2 extracellular domain alone and in the complex with the CRLR extracellular domain. The CRLR-RAMP2 complex exhibits several intermolecular interactions that were not observed in the previously reported CRLR-RAMP1 complex, and thus the shape of the putative ligand-binding pocket of CRLR-RAMP2 is distinct from that of CRLR-RAMP1. The CRLR-RAMP2 interactions were confirmed for the full-length proteins on the cell surface by site-specific photo-crosslinking. Mutagenesis revealed that AM binding requires RAMP2 residues that are not conserved in RAMP1. Therefore, the differences in both the shapes and the key residues of the binding pocket are essential for the ligand specificity. 相似文献
79.
M Hara-Yokoyama M Kukimoto-Niino K Terasawa S Harumiya KA Podyma-Inoue N Hino K Sakamoto S Itoh N Hashii Y Hiruta N Kawasaki C Mishima-Tsumagari Y Kaitsu T Matsumoto M Wakiyama M Shirouzu T Kasama H Takayanagi N Utsunomiya-Tate K Takatsu T Katada Y Hirabayashi S Yokoyama M Yanagishita 《Structure (London, England : 1993)》2012,20(9):1585-1595
The leukocyte cell-surface antigen CD38 is the major nicotinamide adenide dinucleotide glycohydrolase in mammals, and its ectoenzyme activity is involved in calcium mobilization. CD38 is also a raft-dependent signaling molecule. CD38 forms a tetramer on the cell surface, but the structural basis and the functional significance of tetramerization have remained unexplored. We identified the interfaces contributing to the homophilic interaction of mouse CD38 by site-specific crosslinking on the cell surface with an expanded genetic code, based on a crystallographic analysis. A combination of the three interfaces enables CD38 to tetramerize: one interface involving the juxtamembrane α-helix is responsible for the formation of the core dimer, which is further dimerized via the other two interfaces. This dimerization of dimers is required for the catalytic activity and the localization of CD38 in membrane rafts. The glycosylation prevents further self-association of the tetramer. Accordingly, the tetrameric interaction underlies the multifaceted actions of CD38. 相似文献
80.
This study investigated the respiratory properties and the role of the mitochondria isolated from one phosphoenolpyruvate carboxykinase (PCK)-CAM plant, Hoya carnosa, in malate metabolism during CAM phase III. The mitochondria showed high malate dehydrogenase (mMDH) and aspartate amino transferase (mAST), and a significant amount of malic enzyme (mME) activities. H. carnosa readily oxidized malate via mME and mMDH in the presence of some cofactors such as thiamine pyrophosphate (TPP), coenzyme A (CoA) or NAD(+). A high respiration rate of malate oxidation was observed at pH 7.2 with NAD(+) and glutamate (Glu). Providing AST and Glu simultaneously into the respiratory medium strongly increased the rates of malate oxidation, and this oxidation was gradually inhibited by an inhibitor of alpha-ketoglutarate (alpha-KG) carrier, pyridoxal-5'-phosphate (PLP). The mitochondria readily oxidized aspartate (Asp) or alpha-KG individually with low rates, while they oxidized Asp and alpha-KG simultaneously with high rates, and this simultaneous oxidation was also inhibited by PLP. By measuring the capacity of the mitochondrial shuttle, it was found that the OAA produced via mMDH seemed not to be transported outside the mitochondria, but mAST interconverted OAA and Glu to Asp and alpha-KG, respectively, and exported them out via a malate-aspartate (malate-Asp) shuttle. The data in this research suggest that during phase III of PCK-CAM, H. carnosa mitochondria oxidized malate via both mME and the mMDH systems depending on metabolic requirements. However, malate metabolism by the mMDH system did not operate via a malate-OAA shuttle similarly to Ananas comosus mitochondria, but it operated via a malate-Asp shuttle similarly to Kalancho? daigremontiana mitochondria. 相似文献