类泛素化修饰蛋白SUMO1的表达纯化及抗体制备

SUMO是近年发现的类泛素化修饰蛋白,可通过异肽键共价连接到靶蛋白上,影响靶蛋白的细胞内定位、稳定性及与其它生物大分子的相互作用. 为研究蛋白质的SUMO化修饰,本文表达并利用亲和层析的方法纯化了重组的人SUMO1,制备了兔抗hSUMO1的多克隆抗体. 经ELISA和免疫印迹检测,获得了灵敏度高、特异性好的抗体,可用于SUMO化修饰靶蛋白的鉴定及SUMO化修饰的生物学功能研究.     

SENPs对肿瘤发展的分子调控机理

SUMO化修饰是一种把小泛素相关修饰物(small ubiquition related modifier,SUMO)共价连接到细胞内靶蛋白半胱氨酸残基上的一种蛋白质翻译后修饰。SUMO化修饰参与并调控着多种细胞进程,如转录调控、核转运和信号转导等。SUMO化修饰是一种动态可逆的修饰方式。SUMO特异性蛋白酶(SUMO-specific proteases,SENPs)可以使SUMO化修饰的蛋白质发生去SUMO化,在维持细胞内SUMO化与去SUMO化的平衡中起重要作用。研究表明,SENPs与多种癌症的发生发展密切相关,如SENP1能直接调节多条致癌通路,诱发正常的前列腺上皮细胞状态异常。癌细胞中的SENP3能诱导血管生成。因此,对去SUMO化机制研究可以为开发癌症治疗药物提供新的思路。     

植物SUMO化修饰研究进展

SUMO化修饰是一种高度保守的蛋白质翻译后修饰。在SUMO化酶系统的协同作用下,成熟的SUMO分子以异肽键的方式结合到靶蛋白上,调控靶蛋白稳定性、活性、定位等。同时,发生SUMO化修饰的蛋白在SUMO特异蛋白酶的作用下发生去SUMO化反应,使SUMO重新进入循环过程。已知SUMO化修饰参与了植物胁迫响应、生长发育、开花等重要生理过程的调控。本文主要介绍了植物SUMO化修饰途径及其调控的生物学过程,并讨论蛋白组学方法在SUMO化修饰底物鉴定的进展及问题。     

UFDS系统检测蛋白质SUMO化修饰研究

为了验证UFDS系统（Ubc9 fusion-directed sumoylation, UFDS）是否能够检测蛋白质SUMO(small ubiquitin-related modifier)化修饰,构建了Ubc9和PKCθ的融合表达载体,与SUMO1表达载体共转染293T细胞,通过免疫共沉淀和Western印迹检测Ubc9-PKCθ与SUMO1的相互作用。 结果表明,Ubc9-PKCθ与SUMO1相互作用,且SENP1共表达时导致Ubc9-PKCθ去SUMO化修饰;相较于野生型Ubc9-PKCθ,SUMO化修饰位点突变型Ubc9-PKCθ与SUMO1的相互作用显著减弱;而相较于野生型PKCθ,SUMO化修饰位点突变型PKCθ与SUMO1的相互作用则完全检测不到。 研究结果说明,应用UFDS系统能检测蛋白质的SUMO化修饰,但在鉴定潜在的SUMO化修饰位点时有一定的缺陷。     

植物蛋白质SUMO化修饰体外高效检测系统

蛋白质SUMO化修饰是一种调控蛋白命运的关键修饰方式, 广泛参与植物生长发育及逆境胁迫响应。SUMO化修饰过程主要由激活酶(E1)-结合酶(E2)-连接酶(E3)组成的级联酶促反应催化, 其关键酶组分将SUMO分子缀合至底物蛋白的赖氨酸残基, 形成共价异肽键以完成SUMO化修饰过程。该文报道了1种植物蛋白质SUMO化修饰体外高效检测系统, 通过在大肠杆菌(Escherichia coli)中构建拟南芥(Arabidopsis thaliana) SUMO化修饰的关键通路实现对底物蛋白的SUMO化修饰, 结果可通过免疫印迹进行检测。该系统可以简化植物蛋白质SUMO化修饰的检测流程, 为植物细胞SUMO化修饰的功能研究提供了有力工具。     

蛋白质的类泛素化修饰

SUMO(small ubiquitin-related modifier)是一类重要的类泛素蛋白,在生物进化过程中高度保守,其三维结构及生化修饰过程与泛素类似,但该两类蛋白质修饰的生物学意义却不尽相同。SUMO化修饰作为一种重要的蛋白质翻译后修饰,广泛参与细胞活动的各个方面,且SUMO化修饰异常与许多人类重大疾病密切相关。     

SUMO化修饰对NF-kB信号通路的调控

小泛素相关修饰物(small ubiquitin-related modifier,SUMO)经由一系列酶介导的生化级联反应共价结合于靶蛋白的赖氨酸残基上,稳定靶蛋白免受降解的过程称为SUMO化修饰(SUMOylation).核转录因子kB(nuclear factors kB,NF-kB)是公认的炎症和免疫反应的重要调节因子,并与糖尿病的发生发展密切相关.近年来研究发现,不仅NF-kB抑制蛋白(inhibitor of NF-kB,IkB)的SUMO化修饰参与NF-kB信号通路的调节,而且SUMO酶可以直接调节NF-kB对靶基因的转录.现就SUMO亚型及结构,SUMO化修饰与去SUMO化修饰过程,SUMO、SUMO酶对NF-kB的转录调控及其与糖尿病相关性的最新研究进展作以综述.     

植物SUMO化修饰及其生物学功能

SUMO化修饰是细胞内蛋白质功能调节的重要方式之一。植物中的SUMO化修饰途径由SUMO分子和SUMO化酶系组成。SUMO化修饰是一个可逆的动态过程。SUMO前体蛋白在SUMO特异性蛋白酶的作用下成熟,随后通过SUMO活化酶、SUMO结合酶和SUMO连接酶将靶蛋白SUMO化,最后SUMO特异性蛋白酶将SUMO与靶蛋白分离,重新进入SUMO化循环。初步研究表明,植物SUMO化修饰参与植物花期调控、激素信号转导、抗病防御以及逆境应答等生理过程。     

植物SUMO化修饰及其生物学功能

SUMO化修饰是细胞内蛋白质功能调节的重要方式之一。植物中的SUMO化修饰途径由SUMO分子和SUMO化酶系组成。SUMO化修饰是一个可逆的动态过程。SUMO前体蛋白在SUMO特异性蛋白酶的作用下成熟, 随后通过SUMO活化酶、SUMO结合酶和SUMO连接酶将靶蛋白SUMO化, 最后SUMO特异性蛋白酶将SUMO与靶蛋白分离, 重新进入SUMO化循环。初步研究表明, 植物SUMO化修饰参与植物花期调控、激素信号转导、抗病防御以及逆境应答等生理过程。     

蛋白质SUMO化修饰研究进展

SUMO(small ubiquitin-related modifier)是类泛素蛋白家族的重要成员之一,可与多种蛋白结合发挥相应的功能,其分子结构及SUMO化反应途径都与泛素类似,但二者功能完全不同。SUMO化修饰可参与转录调节、核转运、维持基因组完整性及信号转导等多种细胞内活动,是一种重要的多功能的蛋白质翻译后修饰方式。SUMO化修饰功能的失调可能导致某些疾病的发生。     

Translating tissue culture results into animal models: the case of Salmonella typhimurium

Investigators use both in vitro and in vivo models to better understand infectious disease processes. Both models are extremely useful in research, but there exists a significant gap in complexity between the highly controlled reductionist in vitro systems and the largely undefined, but relevant variability encompassing in vivo animal models. In an effort to understand how Salmonella initiates disease at the intestinal epithelium, in vitro models have served a useful purpose in allowing investigators to identify molecular mechanisms responsible for Salmonella invasion of host cells and stimulation of host inflammatory responses. Identification of these molecular mechanisms has generated hypotheses that are now being tested using in vivo models. Translating the in vitro findings into the context of an animal model and subsequently to human disease remains a difficult challenge for any disease process.     

Activity of dehydroabietic acid derivatives against wood contaminant fungi

The antifungal activity of 10 dehydroabietic acid derivatives with different configuration in A and B rings (cis/trans A/B junction) and different substituents and/or functionalities was evaluated in bioassays in vitro and in situ (pine wood blocks).

The test compounds dissolved in acetone were assayed at several concentrations w/w (test compound/culture medium) against the fungi. The Relative Inhibition (RI) was determined by measuring the radial growth of colonies of the fungi treated with the test compounds by comparison with those of control cultures; the results are expressed as EC₅₀.

The results of bioassays in vitro have shown that hydroxyl and aldehyde functions are required for antifungal activity in this group of compounds and deisopropylation can increase the activity. Our assay of antifungal activity in situ (in pine wood blocks) provides a means to investigate the preservative activities of these antifungal compounds under actual conditions of use.

The dehydroabietic acid derivative cis-deisopropyldehydroabietanol (10) inhibited the growth of several of the fungi tested, in vitro and in situ.

The results obtained in situ with the test compound (10) at 6% and 8% were not significantly different from the reference products and a good level of protection of the wood against the organisms tested was achieved.

The results in wood bioassays present new possibilities in the search for natural new compounds in the wood protection, as an alternative to conventional fungicides.     

Specificity of the action of parathyroid hormone upon mitochondrial metabolism: Cyanogen bromide-derived parathyroid-hormone peptides

The mitochondrial response to cyanogen bromide-treated parathyroid hormone was studied as a means of testing further the relationship between the structure and the effects in vitro of this hormone. The treated hormone and appropriate control hormone were tested in a standard bioassay and in a mitochondrial assay system in vitro.

Reaction of more than 90 % of the methionine residues in the hormone resulted in total inactivation of the hormone both in vivo and in vitro. This result disagrees with previously published data.     

Highly selective inhibition of estrogen biosynthesis by CGS 20267, a new non-steroidal aromatase inhibitor

CGS 20267 is a new non-steroidal compound which potently inhibits aromatase in vitro (IC₅₀ of 11.5 nM) and in vivo (ED₅₀ of 1–3 μg/kg p.o.). CGS 20267 maximally inhibits estradiol production in vitro in LH-stimulated hamster ovarian tissue at 0.1 μM with an IC₅₀ of 0.02 μM and does not significantly affect progesterone production up to 350 μM. In ACTH-stimulated rat adrenal tissue in vitro, aldosterone production was inhibited with an IC₅₀ of 210 μM (10,000 times higher than the IC₅₀ for estradiol production); no significant effect on corticosterone production was seen at 350 μM. In vivo, in ACTH-treated rats, CGS 20267 does not affect plasma levels of corticosterone or aldosterone at a dose of 4 mg/kg p.o. (1000 times higher than the ED₅₀ for aromatase inhibition in vivo). In adult female rats, a 14-day treatment with 1 mg/kg p.o. daily, completely interrupts ovarian cyclicity and suppresses uterine weight to that seen 14 days after ovariectomy. In adult female rats bearing estrogen-dependent DMBA-induced mammary tumors, 0.1 mg/kg p.o. given daily for 42 days caused almost complete regression of tumors present at the start of treatment. Thus compared to each other, CGS 16949A and CGS 20267 are both highly potent in inhibiting estrogen biosynthesis in vitro and in vivo. The striking difference between them is that unlike CGS 16949A, CGS 20267 does not affect adrenal steroidogenesis in vitro or in vivo, at concentrations and doses several orders of magnitude higher than those required to inhibit estrogen biosynthesis.     

Interaction of glucocorticoid analogues with the human glucocorticoid receptor

Transient co-transfection of receptor cDNA and suitable reporter genes was used to study human glucocorticoid receptor (hGR) function in a neutral mammalian cell background. A variety of natural and synthetic steroids were analyzed for their ability to activate gene expression through the hGR and to bind to extracts of cells expressing the hGR cDNA. There was very good correlation between these two in vitro parameters for these compounds. Furthermore, correlation of these data with reported in vivo anti-inflammatory potencies was surprisingly close, with two exceptions. The in vitro data suggest an explanation for the discrepant compounds, consistent with published data on their metabolic fate in vivo. The co-transfection assay has utility as a quantitative predictor of in vivo glucocorticoid pharmacology.     

In vitro simulation and quantification of wear within the patellofemoral joint replacement

Quantification of the wear rate in vitro is now considered an essential step in the development of a new joint replacement prior to clinical trials. However, little research exists around in vitro simulation of wear in the patellofemoral joint (PFJ) despite over 200,000 being implanted annually within the European Union. A method to simulate wear in the laboratory using four input degrees of freedom within the PFJ of total knee replacement (TKR) has been developed. Wear simulation was validated through comparison of functional kinematics and patellar surface damage modes produced in vitro to clinical outcomes. The technique has been shown to replicate the prescribed in vivo kinematics in a reproducible and repeatable manner. The wear scar areas were similar to those found in vivo. However, geometrical measurements of wear were not reliable due to creep and geometry changes. As has been found previously with tibial inserts, geometrical determination of wear volume was not found to be an effective method of comparing wear from simulators and retrievals. Change in volume calculated gravimetrically was seen to be the most repeatable measure of patellar wear in vitro.     

Developmental profiles of glial enzymes in the chick embryo: In vivo and in culture

The activities of two glial cell enzymes, glutamine synthetase (a marker for astrocytes) and 2′,3′-cyclic nucleotide 3′-phosphohydrolase (a marker for oligodendrocytes and myelination) were studied in the developing chick embryo brain in vivo and in cultures derived from chick embryos. The in vivo findings showed that the activities of both enzymes parallel the patterns of gliogenesis and myelination. Glutamine synthetase follows similar patterns in culture and in vivo, whereas the developmental profile of 2′,3′-cyclic nucleotide 3′-phosphohydrolase appears to be affected by the culture conditions.     

In Vivo Esr Studies of Antioxidant Activity on Free Radical Reaction in Living Mice Under Oxidative Stress

In vivo antioxidant activity seems to be quite complicate due to multiple interaction with biomaterials and differs from results by in vitro experiments. In vivo estimation of antioxidant activity is performed by measuring TBA reactive substances in blood or hydrocarbon gases in breath, but these systems do not measure free radical reaction but the final products of oxidative reaction. In the present study, we applied in vivo ESR to evaluate antioxidant activity by monitoring the redox reaction of nitroxide radical and clearly found that the nitroxide is very susceptible to oxidative stress in vivo and quite useful to evaluate antioxidant activity non-invasively.     

Effects of Calpain on Antioxidant Enzyme Activities

The activities of superoxide dismutase, catalase and glutathione reductase were not affected by in vitro incubation with the intracellular proteinase calpain, suggesting that these enzymes are not in vivo substrates of calpain. In contrast, the activity of another important antioxidant enzyme, glutathione peroxidase, is stimulated in vitro by calpain. This may explain the correlation between elevations in glutathione peroxidase activity and calpain activity which occur in aging, exercised and dystrophic muscle. Calpain treatment in vitro caused a large decrease in the activity of carnosine synthetase which is involved in the synthesis of the putative antioxidant carnosine. This may be the reason for the in vivo correlation between elevated calpain and diminished carnosine levels in aging, hypertensive, denervated and dystrophic muscles.