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991.
Saitoh N Oritani K Saito K Yokota T Ichii M Sudo T Fujita N Nakajima K Okada M Kanakura Y 《Journal of cellular biochemistry》2011,112(1):147-156
With a signal trap method, we previously identified stromal interaction molecule (STIM: originally named as SIM) as a protein, which has a signal peptide in 1996. However, recent works have accumulated evidences that STIM1 and STIM2 reside in endoplasmic reticulum (ER) and that both mainly sense ER Ca(2+) depletion, which plays an essential role in store operated calcium entry. In the present study, we extensively analyzed the domain functions and associated molecules of STIMs. A STIM1 mutant lacking the coiled-coil domains was massively expressed on the cell surface while mutants with the coiled-coil domains localized in ER. In addition, STIM1 mutants with the coiled-coil domains showed a longer half-life of proteins than those without them. These results are likely to indicate that the coiled-coil domains of STIM1 are essential for its ER-retention and its stability. Furthermore, we tried to comprehensively identify STIM1-associated molecules with mass spectrometry analysis of co-immunoprecipitated proteins for STIM1. This screening clarified that both STIM1 and STIM2 have a capacity to bind to a chaperone, calnexin as well as two protein-transporters, exportin1 and transportin1. Of importance, our result that glycosylation on STIM1 was not required for the association between STIM1 and calnexin seems to indicate that calnexin might function on STIM1 beyond a chaperone protein. Further information concerning regulatory mechanisms for STIM proteins including the data shown here will provide a model of Ca(2+) control as well as a useful strategy to develop therapeutic drugs for intracellular Ca(2+)-related diseases including inflammation and allergy. 相似文献
992.
Schweitzer GG Castorena CM Hamada T Funai K Arias EB Cartee GD 《Physiological research / Academia Scientiarum Bohemoslovaca》2011,60(3):511-519
Bradykinin can enhance skeletal muscle glucose uptake (GU), and exercise increases both bradykinin production and muscle insulin sensitivity, but bradykinin's relationship with post-exercise insulin action is uncertain. Our primary aim was to determine if the B2 receptor of bradykinin (B2R) is essential for the post-exercise increase in GU by insulin-stimulated mouse soleus muscles. Wildtype (WT) and B2R knockout (B2RKO) mice were sedentary or performed 60 minutes of treadmill exercise. Isolated soleus muscles were incubated with [3H]-2-deoxyglucose +/-insulin (60 or 100 microU/ml). GU tended to be greater for WT vs. B2RKO soleus with 60 microU/ml insulin (P=0.166) and was significantly greater for muscles with 100 microU/ml insulin (P<0.05). Both genotypes had significant exercise-induced reductions (P<0.05) in glycemia and insulinemia, and the decrements for glucose (approximately 14 %) and insulin (approximately 55 %) were similar between genotypes. GU tended to be greater for exercised vs. sedentary soleus with 60 microU/ml insulin (P=0.063) and was significantly greater for muscles with 100 microU/ml insulin (P<0.05). There were no significant interactions between genotype and exercise for blood glucose, plasma insulin or GU. These results indicate that the B2R is not essential for the exercise-induced decrements in blood glucose or plasma insulin or for the post-exercise increase in GU by insulin-stimulated mouse soleus muscle. 相似文献
993.
Shimizu H Yasumatsu I Hamada T Yoneda Y Yamasaki T Tanaka S Toki T Yokoyama M Morishita K Iimura S 《Bioorganic & medicinal chemistry letters》2011,21(3):904-908
We have increased the potency of imidazo[1,2-b]pyridazine derivatives as IKKβ inhibitors with two strategies. One is to enhance the activity in cell-based assay by adjusting the polarity of molecules to improve permeability. Another is to increase the affinity for IKKβ by the introduction of additional substituents based on the hypothesis derived from an interaction model study. These improved compounds showed inhibitory activity of TNFα production in mice. 相似文献
994.
Hiragami-Hamada K Shinmyozu K Hamada D Tatsu Y Uegaki K Fujiwara S Nakayama J 《Molecular and cellular biology》2011,31(6):1186-1200
The phosphorylation of heterochromatin protein 1 (HP1) has been previously described in studies of mammals, but the biological implications of this modification remain largely elusive. Here, we show that the N-terminal phosphorylation of HP1α plays a central role in its targeting to chromatin. Recombinant HP1α prepared from mammalian cultured cells exhibited a stronger binding affinity for K9-methylated histone H3 (H3K9me) than that produced in Escherichia coli. Biochemical analyses revealed that HP1α was multiply phosphorylated at N-terminal serine residues (S11-14) in human and mouse cells and that this phosphorylation enhanced HP1α's affinity for H3K9me. Importantly, the N-terminal phosphorylation appeared to facilitate the initial binding of HP1α to H3K9me by mediating the interaction between HP1α and a part of the H3 tail that was distinct from the methylated K9. Unphosphorylatable mutant HP1α exhibited severe heterochromatin localization defects in vivo, and its prolonged expression led to increased chromosomal instability. Our results suggest that HP1α's N-terminal phosphorylation is essential for its proper targeting to heterochromatin and that its binding to the methylated histone tail is achieved by the cooperative action of the chromodomain and neighboring posttranslational modifications. 相似文献
995.
Hamada T Kudo M Sato M Inoue N Nagao K Imaizumi K Ikeda I 《Bioscience, biotechnology, and biochemistry》2011,75(12):2359-2363
The effects were compared of T0901317, a liver X receptor agonist, on deposition in the liver and serum and lymphatic absorption of plant sterols in stroke-prone spontaneously hypertensive rats (SHRSPs) having a missense mutation in Abcg5, which codes for ATP-binding cassette transporter (ABC) G5, with those in Wistar rats. Both strains were pair-fed for 7 d with a 0.5% plant sterol diet with or without 5 mg/kg of body weight of T0901317. The deposition of plant sterols in the liver and serum was higher in SHRSPs than in Wistar rats. A significant reduction of plant sterol deposition was observed in Wistar rats, but not in SHRSPs when T0901317 was given. Both strains were then fed for 7 d with a control diet with or without T0901317. The lymphatic absorption of plant sterols was reduced to almost half the normal level by the T0901317 treatment. However, no difference in absorption was apparent between SHRSPs and Wistar rats regardless of the T0901317 treatment. These results suggest that the plant sterol deposition in SHRSPs was not necessarily caused by the increased absorption of plant sterols. 相似文献
996.
997.
Limnology - Natural fluctuations in ecosystems, such as those associated with climate, are a fundamental factor structuring macroinvertebrate assemblages. Given that macroinvertebrates are widely... 相似文献
998.
Kanako Nakajima Kazuko Hamada Ryoga Ito Yukina Yoshida Kenneth Sutherland Masayori Ishikawa Michitaka Ozaki Hiroki Shirato Toshiyuki Hamada 《Luminescence》2021,36(1):94-98
Circadian disturbance of clock gene expression is a risk factor for diseases such as obesity, cancer, and sleep disorders. To study these diseases, it is necessary to monitor and analyze the expression rhythm of clock genes in the whole body for a long duration. The bioluminescent reporter enzyme firefly luciferase and its substrate d ‐luciferin have been used to generate optical signals from tissues in vivo with high sensitivity. However, little information is known about the stability of d ‐luciferin to detect gene expression in living animals for a long duration. In the present study, we examined the stability of a luciferin solution over 21 days. l ‐Luciferin, which is synthesized using racemization of d ‐luciferin, was at high concentrations after 21 days. In addition, we showed that bioluminescence of Period1 (Per1) expression in the liver was significantly decreased compared with the day 1 solution, although locomotor activity rhythm was not affected. These results showed that d ‐luciferin should be applied to the mouse within, at most, 7 days to detect bioluminescence of Per1 gene expression rhythm in vivo. 相似文献
999.
Recent reports have described that NCSCs (neural crest-derived stem cells) are not only present in the embryonic neural crest but also in the adult tissues. Dental pulp is one of mesenchymal soft tissues origin from cranial neural crest cells, and thought to be a source of adult stem cells. Here, we investigated the existence of NCSC-like cells in apical pulp of human developing tooth. Human impacted third molars with immature apex freshly extracted were obtained. The cells derived from the apical pulp tissue not framed by dentin or the coronal pulp tissues were cultured by primary explant culture. APDCs (apical pulp-derived cells) and CPCs (coronal pulp cells) formed spheres under neurosphere culture condition. The number of spheres from APDCs was larger than that from CPCs. The sphere-forming cells derived from APDCs had self-renewal capacity, and expressed neural crest-associated markers (p75, Snail and Slug) and NSC (neural stem cell) markers (Nestin and Musashi1). The expression pattern of mesenchymal stem cell markers, CD105 and CD166, on the surface of sphere-forming cells derived APDCs was different from that of APDCs. These sphere-forming cells could differentiate into multiple mesenchymal lineages (osteoblasts, adipocytes, chondrocytes and smooth muscle cells) and neural lineage (neurons) in vitro, and generated ectopic bone tissues on the border of HA (hydroxyapatite) scaffold in vivo. The results of this study suggest that APDCs contain cells with characteristics of NCSCs reported previously in mice. Humans developing tooth with immature apex is an effective source of cells for neural crest lineage tissue regeneration. 相似文献
1000.
Kuwahara I Ikebuchi K Hamada H Niitsu Y Miyazawa K Ohyashiki K Fujisawa H Furukawa K 《Biochemical and biophysical research communications》2003,301(2):293-297
It was established that remarkable changes in the N-glycosylation are induced in immortalized cancer cells. Whether changes were induced in human stromal cells immortalized by transfection with the human telomerase catalytic subunit (hTert) cDNA was examined by lectin blot analysis. Morphological appearance and growth rate of the gene-transfected stromal cells were not changed significantly. However, lectin blot analysis of membrane glycoprotein samples showed that bindings of Ricinus communis agglutinin-I (RCA-I) and of leuko-agglutinating phytohemagglutinin to glycoprotein bands increase significantly in the gene-transfected cells. No lectin binding was observed when blotted filters were treated with diplococcal beta-1,4-galactosidase or N-glycanase prior to incubation with RCA-I. In contrast, no changes in Coomassie brilliant blue-staining and in binding of concanavalin A were obtained between the primary and gene-transfected stromal cells. These results indicate that the highly branched N-glycosylation with augmented galactosylation is induced in human stromal cells immortalized by the telomerase expression. 相似文献