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161.
Masanori Osawa Nao Hosoda Tamiji Nakanishi Naoyuki Uchida Tomomi Kimura Shunsuke Imai Asako Machiyama Toshiaki Katada Shin-ichi Hoshino Ichio Shimada 《RNA (New York, N.Y.)》2012,18(11):1957-1967
Eukaryotic releasing factor GSPT/eRF3 mediates translation termination-coupled mRNA decay via interaction with a cytosolic poly(A)-binding protein (PABPC1). A region of eRF3 containing two overlapping PAM2 (PABPC1-interacting motif 2) motifs is assumed to bind to the PABC domain of PABPC1, on the poly(A) tail of mRNA. PAM2 motifs are also found in the major deadenylases Caf1–Ccr4 and Pan2–Pan3, whose activities are enhanced upon PABPC1 binding to these motifs. Their deadenylase activities are regulated by eRF3, in which two overlapping PAM2 motifs competitively prevent interaction with PABPC1. However, it is unclear how these overlapping motifs recognize PABC and regulate deadenylase activity in a translation termination-coupled manner. We used a dominant-negative approach to demonstrate that the N-terminal PAM2 motif is critical for eRF3 binding to PABPC1 and that both motifs are required for function. Isothermal titration calorimetry (ITC) and NMR analyses revealed that the interaction is in equilibrium between the two PAM2–PABC complexes, where only one of the two overlapping PAM2 motifs is PABC-bound and the other is PABC-unbound and partially accessible to the other PABC. Based on these results, we proposed a biological role for the overlapping PAM2 motifs in the regulation of deadenylase accessibility to PABPC1 at the 3′ end of poly(A). 相似文献
162.
Yoshifumi Hashimoto Nao Hosoda Pinaki Datta Emad S. Alnemri Shin-ichi Hoshino 《Apoptosis : an international journal on programmed cell death》2012,17(12):1287-1299
Polypeptide chain release factor eRF3 plays pivotal roles in translation termination and post-termination events including ribosome recycling and mRNA decay. It is not clear, however, if eRF3 is targeted for the regulation of gene expression. Here we show that DNA-damaging agents (UV and etoposide) induce the immediate cleavage and degradation of eRF3 in a caspase-dependent manner. The effect is selective since the binding partners of eRF3, eRF1 and PABP, and an unrelated control, GAPDH, were not affected. Point mutations of aspartate residues within overlapping DXXD motifs near the amino terminus of eRF3 prevented the appearance of the UV-induced cleavage product, identifying D32 as the major cleavage site. The cleavage and degradation occurred in a similar time-dependent manner to those of eIF4G, a previously established caspase-3 target involved in the inhibition of translation during apoptosis. siRNA-mediated knockdown of eRF3 led to inhibition of cellular protein synthesis, supporting the idea that the decrease in the amount of eRF3 caused by the caspase-mediated degradation contributes to the inhibition of translation during apoptosis. This is the first report showing that eRF3 could serve as a target in the regulation of gene expression. 相似文献
163.
Sugane T Tobe T Hamaguchi W Shimada I Maeno K Miyata J Suzuki T Kimizuka T Morita T Sakamoto S Tsukamoto S 《Bioorganic & medicinal chemistry》2012,20(1):34-41
To identify novel glycine transporter 1(GlyT1) inhibitors with greater selectivity relative to GlyT2 and improved aqueous solubility, we synthesized a series of 4H-1,2,4-triazole derivatives with heteroaromatic rings at the 4-position and investigated their structure-activity relationships. Replacement of the 2-fluorophenyl group of lead compound 5 with various aromatic groups led to the identification of 5-(3-biphenyl-4-yl-5-ethyl-4H-1,2,4-triazol-4-yl)isoquinoline (15) with 38-fold selectivity between GlyT1 and GlyT2. 15 also showed improved aqueous solubility and in vivo efficacy on (+)-HA966-induced hyperlocomotion in mice over the lead compound. 相似文献
164.
Veggi LM Pretto L Ochoa EJ Catania VA Luquita MG Taborda DR Sánchez Pozzi EJ Ikushiro S Coleman MD Roma MG Mottino AD 《Life sciences》2008,83(5-6):155-163
Dapsone (DDS) is currently used in the treatment of leprosy, malaria and in infections with Pneumocystis jirovecii and Toxoplasma gondii in AIDS patients. Adverse effects of DDS involve methemoglobinemia and hemolysis and, to a lower extent, liver damage, though the mechanism is poorly characterized. We evaluated the effect of DDS administration to male and female rats (30 mg/kg body wt, twice a day, for 4 days) on liver oxidative stress through assessment of biliary output and liver content of reduced (GSH) and oxidized (GSSG) glutathione, lipid peroxidation, and expression/activities of the main antioxidant enzymes glutathione peroxidase, superoxide dismutase, catalase and glutathione S-transferase. The influence of DDS treatment on expression/activity of the main DDS phase-II-metabolizing system, UDP-glucuronosyltransferase (UGT), was additionally evaluated. The involvement of dapsone hydroxylamine (DDS-NHOH) generation in these processes was estimated by comparing the data in male and female rats since N-hydroxylation of DDS mainly occurs in males. Our studies revealed an increase in the GSSG/GSH biliary output ratio, a sensitive indicator of oxidative stress, and in lipid peroxidation, in male but not in female rats treated with DDS. The activity of all antioxidant enzymes was significantly impaired by DDS treatment also in male rats, whereas UGT activity was not affected in any sex. Taken together, the evidence indicates that DDS induces oxidative stress in rat liver and that N-hydroxylation of DDS was the likely mediator. Impairment in the activity of enzymatic antioxidant systems, also associated with DDS-NHOH formation, constituted a key aggravating factor. 相似文献
165.
Subsidy between ecosystems has been considered in many natural ecosystems, and should alter food webs and communities in human-impacted
ones. We estimated how drifting plankton from a reservoir contribute to downstream food webs and showed that they alter community
structures over a 10-km reach below the dam. To estimate the contribution of the drifting plankton to macroinvertebrates,
we used C and N isotopes and an IsoSource mixing model. In spring and autumn, contributions of plankton to collector-filterer
species were highest 0.2 km downstream of the dam, and clearly decreased from 0.2 to 10 km. At 0.2 km, the contribution of
plankton to a predator stonefly was remarkably high. These results indicated that drifting plankton from a dam reservoir could
subsidize downstream food webs and alter their energy base, but the importance of this subsidy decreased as distance from
the reservoir increased. The general linear models indicated that the abundance of collector-filterers and predators was related
positively to zooplankton density in stream water. Thus, food source alteration by drifting plankton also influenced the community
structures downstream of the dam. 相似文献
166.
167.
Shinomura T Nakamura S Ito K Shirasawa S Höök M Kimura JH 《The Journal of biological chemistry》2008,283(48):33658-33664
Follicular dendritic cell-secreted protein (FDC-SP) is a small secretory protein having structural similarities to statherin, a protein in saliva thought to play a role in calcium retention in saliva. In contrast, FDC-SP is thought to play a role in the immune system associated with germinal centers. We report here the very specific expression of FDC-SP in junctional epithelium at the gingival crevice. This region is very important for the host defense against pathogens and for periodontal protection. To be able to better understand the function of FDC-SP, we developed a novel gene expression system that exploited gene trapping and site-specific gene integration to introduce the protein into a mammalian cell culture system. Using this system we were able to express FDC-SP as a fusion protein with green fluorescent protein in an osteogenic progenitor cell line with long term stability, which we then used to find that the fusion protein specifically adsorbs onto mineral deposits and the surface of hydroxyapatite particles exogenously added to the culture. This adsorption was highly dependent on the structural integrity of FDC-SP. These results suggest that FDC-SP may play an important role, adsorbing onto the surface of cementum and alveolar bone adjacent to periodontal ligament and onto tooth surface at the gingival crevice. 相似文献
168.
Ikeda R Iwashita K Sumizawa T Beppu S Tabata S Tajitsu Y Shimamoto Y Yoshida K Furukawa T Che XF Yamaguchi T Ushiyama M Miyawaki A Takeda Y Yamamoto M Zhao HY Shibayama Y Yamada K Akiyama S 《Experimental cell research》2008,314(16):3017-3026
The major vault protein (MVP) is the major constituent of the vault particle, the largest ribonuclear protein complex described to date and is identical to lung resistance-related protein (LRP). Although MVP is also expressed in several normal tissues, little is known about its physiological role. MVP played a protective role against some xenobiotics and other stresses. We thus investigated the effect of osmotic stress on MVP expression by treating human colon cancer SW620 cells with sucrose or NaCl. The expression level of both MVP protein and MVP mRNA was increased by the osmostress. Sucrose or sodium chloride could also enhance MVP promoter activity. Inhibition of p38 MAPK in SW620 cells by SB203580 inhibited the expression of MVP under hyperosmotic stress. These findings suggested that osmotic stress up-regulated the MVP expression through p38 MAPK pathway. Down-regulation of MVP expression by MVP interfering RNA (RNAi) in SW620 cells increased the sensitivity of the cells to hyperosmotic stress and enhanced apoptosis. Furthermore, MVP RNAi prevented the osmotic stress-induced, time-dependent increase in phosphorylated Akt. These findings suggest that the PI3K/Akt pathway might be implicated in the cytoprotective effect of MVP.Our data demonstrate that exposure of cells to hyperosmotic stress induces MVP that might play an important role in the protection of the cells from the adverse effects of osmotic stress. 相似文献
169.
170.
Shin-ichi Teshima Shunsuke Koshio Manabu Ishikawa Akio Kanazawa 《Hydrobiologia》2001,449(1-3):293-300
The protein requirement to give maximum body protein retention in the prawn Marsupenaeus japonicus was assessed by determining both daily protein needed for maintenance (M) and daily body protein increment (G) when the juvenile prawn was maintained on a diet containing high quality protein. The body protein increment was obtained by determining carcass nitrogen increment when the prawn was fed on casein-based diets. The protein required for maintenance was estimated by regressing weight gains of the prawn on the diets containing graded levels of casein. True daily increase or retention of body protein in the prawn corresponded to the sum of G and M, and it was 3.2 g protein per kg body weight per day. The dietary protein requirement of juvenile M. japonicus for maximum body protein retention was suggested to be about 10 g per kg body weight per day providing that the prawn was fed the casein-based diet containing 50% crude protein (net protein utilization = 32) at the feeding level of 2%. 相似文献