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1.
Oligomerization of hepatitis C viral envelope proteins E1 and E2 is essential to virus fusion and assembly. Although interactions within the transmembrane (TM) domains of these glycoproteins have proven contributions to the E1/E2 heterodimerization process and consequent infectivity, there is little structural information on this entry mechanism. Here, as a first step towards our long-term goal of understanding the interaction between E1 and E2 TM-domains, we have expressed, purified and characterized E1-TM using structural biomolecular NMR methods. An MBP-fusion expression system yielded sufficient quantities of pure E1-TM, which was solubilized in two membrane-mimicking environments, SDS- and LPPG-micelles, affording samples amenable to NMR studies. Triple resonance assignment experiments and relaxation measurements provided information on the secondary structure and global fold of E1-TM in these environments. In SDS micelles E1-TM adopts a helical conformation, with helical stretches at residues 354–363 and 371–379 separated by a more flexible segment of residues 364–370. In LPPG micelles a helical conformation was observed for residues 354–377 with greater flexibility in the 366–367 dyad, suggesting LPPG provides a more native environment for the peptide. Replacement of key positively charged residue K370 with an alanine did not affect the secondary structure of E1-TM but did change the relative positioning within the micelle of the two helices. These results lay the foundation for structure determination of E1-TM and a molecular understanding of how E1-TM flexibility enhances its interaction with E2-TM during heterodimerization and membrane fusion.  相似文献   
2.

Background

Hsp90 is a molecular chaperone essential for cell viability in eukaryotes that is associated with the maturation of proteins involved in important cell functions and implicated in the stabilization of the tumor phenotype of various cancers, making this chaperone a notably interesting therapeutic target. Celastrol is a plant-derived pentacyclic triterpenoid compound with potent antioxidant, anti-inflammatory and anticancer activities; however, celastrol's action mode is still elusive.

Results

In this work, we investigated the effect of celastrol on the conformational and functional aspects of Hsp90α. Interestingly, celastrol appeared to target Hsp90α directly as the compound induced the oligomerization of the chaperone via the C-terminal domain as demonstrated by experiments using a deletion mutant. The nature of the oligomers was investigated by biophysical tools demonstrating that a two-fold excess of celastrol induced the formation of a decameric Hsp90α bound throughout the C-terminal domain. When bound, celastrol destabilized the C-terminal domain. Surprisingly, standard chaperone functional investigations demonstrated that neither the in vitro chaperone activity of protecting against aggregation nor the ability to bind a TPR co-chaperone, which binds to the C-terminus of Hsp90α, were affected by celastrol.

Conclusion

Celastrol interferes with specific biological functions of Hsp90α. Our results suggest a model in which celastrol binds directly to the C-terminal domain of Hsp90α causing oligomerization. However, the ability to protect against protein aggregation (supported by our results) and to bind to TPR co-chaperones are not affected by celastrol. Therefore celastrol may act primarily by inducing specific oligomerization that affects some, but not all, of the functions of Hsp90α.

General significance

To the best of our knowledge, this study is the first work to use multiple probes to investigate the effect that celastrol has on the stability and oligomerization of Hsp90α and on the binding of this chaperone to Tom70. This work provides a novel mechanism by which celastrol binds Hsp90α.  相似文献   
3.
This study investigated the molecular mechanism by which sodium butyrate (NaB) causes oxidative stress damage induced by lipopolysaccharide (LPS) on cow mammary epithelial cells (MAC-T). We found that NaB significantly increased the activities of antioxidant enzymes, including superoxide dismutase, glutathione peroxidase, catalase, peroxidase, and total antioxidant capacity and decreased the reactive oxygen species production in LPS-induced MAC-T cells. NaB attenuated protein damage and reduced apoptosis in LPS-induced MAC-T cells. The messenger RNA (mRNA) levels of caspase-3, caspase-9, and Bax decreased, while the Bcl-2 mRNA level increased in LPS-induced MAC-T cells treated with NaB. Our results showed that NaB treatment increased the phosphoinositide 3-kinase (PI3K) and phospho-AKT (P-AKT) protein levels, whereas it decreased the Bax, caspase-3, and caspase-9 protein levels in LPS-induced MAC-T cells. However, the increase in PI3K and P-AKT protein levels and the decrease in Bax, caspase-3, and caspase-9 protein levels induced by NaB treatment were reversed when the cells were pretreated with LY294002 (PI3K inhibitor). These results indicate that NaB ameliorates LPS-induced oxidative damage by increasing antioxidative enzyme activities and ameliorating protein damage in MAC-T cells. In addition, NaB decreased apoptosis by inhibiting caspase-3, caspase-9, and Bax protein levels, and this action was mainly achieved via activation of the PI3K/AKT signaling pathways in LPS-induced MAC-T cells. These results provide substantial information for NaB as a chemical supplement to treat oxidative stress and its related diseases in ruminants.  相似文献   
4.
The infrared spectral characteristics of three different types of disaccharides (trehalose, maltose, and sucrose) and four different types of monosaccharides (glucose, mannose, galactose, and fructose) in aqueous solutions with sodium chloride (NaCl) were determined. The infrared spectra were obtained using the FT-IR/ATR method and the absorption intensities respected the interaction between the saccharide and water with NaCl were determined. This study also focused on not only the glycosidic linkage position and the constituent monosaccharides, but also the concentration of the saccharides and NaCl and found that they have a significant influence on the infrared spectroscopic characterization of the disaccharides in an aqueous solution with NaCl. The absorption intensities representing the interaction between a saccharide and water with NaCl were spectroscopically determined. Additionally, the applications of MIR spectroscopy to obtain information about saccharide–NaCl interactions in foods and biosystems were suggested.  相似文献   
5.
We previously reported that Klebsiella pneumoniae MGH78578 exhibited higher resistance against various antimicrobials than K. pneumoniae ATCC10031. In this study, we showed that the plasmid, pKPN5, in K. pneumoniae MGH78578 played an important role in resistance against aminoglycosides, ampicillin, tetracycline, and chloramphenicol, while genome-derived β-lactamases and drug efflux pumps appeared to be more important in resistance to cloxacillin. acrAB, encoding a potent multidrug efflux pump, was cloned from K. pneumoniae MGH78578 and ATCC10031, to investigate reasons for the high drug resistance of K. pneumoniae MGH78578, and the results revealed that AcrAB from K. pneumoniae ATCC10031 conferred weaker drug resistance than AcrAB from K. pneumoniae MGH78578. DNA sequencing revealed that acrB from K. pneumoniae ATCC10031 carried the nonsense mutation, UGA, which was not found in acrB from K. pneumoniae MGH78578. However, acrB from K. pneumoniae ATCC10031 conferred slightly elevated resistant levels to several antimicrobials. The intact length of AcrB was detected in K. pneumoniae ATCC10031 by Western blot analysis, even though its quantity was small. Therefore, the stop codon UGA in acrB was thought to be overcome to some extent in this strain. We artificially introduced the nonsense mutation, UGA to the cat gene on pACYC184, and the plasmid also elevated the MIC of chloramphenicol in K. pneumoniae ATCC10031. These results suggest that a mechanism to overcome the nonsense mutation in acrB sustained resistance against a few β-lactams, dyes, and cholic acid in K. pneumoniae ATCC10031.  相似文献   
6.
7.
In plants, RNA-directed DNA methylation (RdDM) can target both transgene promoters and coding regions/gene bodies. RdDM leads to methylation of cytosines in all sequence contexts: CG, CHG and CHH. Upon segregation of the RdDM trigger, at least CG methylation can be maintained at promoter regions in the progeny. So far, it is not clear whether coding region methylation can be also maintained. We showed that the body of Potato spindle tuber viroid (PSTVd) transgene constructs became densely de novo methylated at CG, CHG and CHH sites upon PSTVd infection. In this study, we demonstrate that in viroid-free progeny plants, asymmetric CHH and CHG methylation was completely lost. However, symmetric CG methylation was stably maintained for at least two generations. Importantly, the presence of transgene body methylation did not lead to an increase of dimethylation of histone H3 lysine 9 or a decrease of acetylation of H3. Our data supports the view that CG methylation can be maintained not only in promoters but also in the body of transgenes. They further suggest that maintenance of methylation may occur independently of tested chromatin modifications.  相似文献   
8.
目的:探究磷酸肌酸钠配合大剂量维生素C对小儿肺炎支原体感染心肌损害患儿炎症因子的影响。方法:收集我院收治的肺炎支原体感染心肌损害患儿72例,根据治疗方法不同分为对照组和试验组,每组36例。对照组给予磷酸肌酸钠治疗,试验组给予磷酸肌酸钠联合维生素C治疗。观察并比较两组患儿治疗前后心肌酶、心功能、炎症因子水平、临床疗效及不良反应。结果:与治疗前比较,治疗后两组患儿血清心肌酶水平均降低,且试验组低于对照组,差异均具有统计学意义(P0.05)。与治疗前比较,治疗后两组患儿心排出量、每搏输出量均升高,且试验组高于对照组,差异均具有统计学意义(P0.05);与治疗前比较,治疗后两组患儿血清IL-18,IL-6及IL-17水平均降低,且试验组低于对照组,差异均具有统计学意义(P0.05);与治疗前比较,治疗后两组患儿血清TGF-β水平均升高,且试验组高于对照组,差异均具有统计学意义(P0.05)。试验组临床总有效率(91.67%)高于对照组(72.22%),差异具有统计学意义(P0.05)。结论:磷酸肌酸钠配合大剂量维生素C治疗小儿肺炎支原体感染心肌损害的临床疗效显著,能够改善心肌功能,抑制炎性反应,安全性较高。  相似文献   
9.
The response of soil exchangeable sodium percentage levels to nitrate reductase activity, nitrite reductase activity, free proline, DNA, RNA, chlorophyll a and b contents and yield components in lentil (Lens esculenta Moench)cv. PL 406 was studied in a replicated pot experiment. All the biochemical observations were recorded at four growth stages i.e. 30, 60, 90 and 120 days after sowing (DAS). Germination occurred up to exhangeable sodium percentage of 30, but plants survived only up to 25. With increasing exchangeable sodium percentage, there was a continuous decrease in chlorophyll a and b content, nitrate and nitrite reductase enzyme activities and DNA and RNA content. Increasing level of sodicity enhanced the free proline content up to 60 DAS, after which values fell.Number of pods per plant, 1000 grain weight and grain yield were significantly reduced with increasing level of sodicity, but the number of grains per pod was not affected.  相似文献   
10.
GCAPs are neuronal Ca2 +-sensors playing a central role in light adaptation. GCAPs are N-terminally myristoylated membrane-associated proteins. Although, the myristoylation of GCAPs plays an important role in light adaptation its structural and physiological roles are not yet clearly understood. The crystal-structure of GCAP-1 shows the myristoyl moiety inside the hydrophobic core of the protein, stabilizing the protein structure; but 2H-solid-state NMR investigations on the deuterated myristoyl moiety of GCAP-2 in the presence of liposomes showed that it is inserted into the lipid bilayer. In this study, we address the question of the localization of the myristoyl group of Ca2 +-bound GCAP-2, and the influence of CHAPS-, DPC-micelles and DMPC/DHPC-bicelles on the structure, and on the localization of the myristoyl group, of GCAP-2 by solution-state NMR. We also carried out the backbone assignment. Characteristic chemical shift differences have been observed between the myristoylated and the non-myristoylated forms of the protein. Our results support the view that in the absence of membrane forming substances the myristoyl moiety is buried inside a hydrophobic pocket of GCAP-2 similar to the crystal structure of GCAP-1. Addition of CHAPS-micelles and DMPC/DHPC-bicelles cause specific structural changes localized in and around the myristoyl binding pocket. We interpret these changes as an indication for the extrusion of the myristoyl moiety from its binding pocket and its insertion into the hydrophobic interior of the membrane mimic. On the basis of the backbone chemical shifts, we propose a structural model of myristoylated GCAP-2 in the presence of Ca2 + and membrane mimetics.  相似文献   
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