N-Acetylcysteine Attenuates Copper Overload-Induced Oxidative Injury in Brain of Rat

Copper is an integral part of many important enzymes involved in a number of vital biological processes. Even though it is essential to life, at elevated tissue concentrations, copper can become toxic to cells. Recent studies have reported oxidative damage due to copper in various tissues. Considering the vulnerability of the brain to oxidative stress, this study was undertaken to explore possible beneficial antioxidant effects of N-acetylcysteine on oxidative stress induced by copper overload in brain tissue of rats. Thirty-two Wistar rats were equally divided into four groups. The first group was used as control. The second, third, and fourth groups were given 1 g/L copper in their drinking water for 1 month. At the end of this period, the group 2 rats were sacrificed. During the next 2 weeks, the rats in group 3 were injected intraperitoneally with physiological saline and those in group 4 with 20 mg/kg intraperitoneal injections of N-acetylcysteine. In group 2 the lipid peroxidation and nitric oxide levels were increased in the brain cortex while the activities of superoxide dismutase and catalase and the concentration of glutathione were decreased. In rats treated with N-acetylcysteine, lipid peroxidation decreased and the activities of antioxidant enzyme improved in the brain cortex. In conclusion, treatment with N-acetylcysteine modulated the antioxidant redox system and reduced brain oxidative stress induced by copper.     

Opposite Regulation of Basic Fibroblast Growth Factor and Nerve Growth Factor Gene Expression in Rat Cortical Astrocytes Following Dexamethasone Treatment

Abstract: Growth factors are peptides that exert different activities in the CNS, supporting the survival of different cell populations and playing an important role in the maintenance of cell homeostasis. Much evidence has suggested that these molecules can protect neurons from degeneration induced by mechanical injury or excitotoxic stimuli. Different factors can contribute to the regulation of neurotrophic factor expression in the brain. Such mechanisms may therefore be important in the manipulation of the levels of these peptides in specific brain areas as a therapeutic intervention in acute and chronic neurodegenerative diseases. We have used a primary culture of rat cortical astrocytes to investigate the regulation of basic fibroblast growth factor (bFGF) gene expression in comparison with other neurotrophic molecules. Our results indicate that the glucocorticoid analogue dexamethasone markedly elevates bFGF mRNA levels but reduces the expression of nerve growth factor. The induction of bFGF was transient, as it peaked after 6 h and returned to basal levels within 24 h and was not blocked by coincubation of cycloheximide, thus indicating that it did not require de novo protein synthesis. This effect was also observed in vivo, as systemic injection of dexamethasone (1 or 10 mg/kg) produced a significant increase in the amount of bFGF mRNA in cerebral cortex and hippocampus. The effect we describe can contribute to the regulation of bFGF expression in the brain and may be important in relation to the protective effect exerted by this growth factor in different models of neuronal injury.     

碱性成纤维细胞生长因子在苜蓿中的表达

为了降低bFGF(basic fibroblast growth factor)的生产成本,结合植物生物反应器的优点,就bFGF在转基因苜蓿中的表达进行了探索.将bFGF插入植物表达载体pBⅡ21中,获得了含有bFGF基因的植物表达pBIcbFGF,再将pBIcbFGF利用冻融法转到农杆菌中.利用农杆菌介导法将基因转化保定苜蓿,转基因苜蓿在TM-1培养基+20 mg/L卡那霉素(Kan)+200 mg/L特美汀(Tim)中诱导分化,在生根培养基中生根,获得再生植株.再生植株通过PCR检测、RT-PCR及Western blot证实外源基因已经在苜蓿中成功表达.获得含有目的蛋白的阳性植株.为苜蓿作为植物生物反应器生产bFGF奠定了理论及技术基础.     

碱性成纤维细胞生长因子的研究进展

碱性成纤维细胞生长因子是一种多肽细胞生长因子,具有广泛的生理功能。碱性成纤维细胞生长因子的研究近年来取得了迅速发展,尤其是基因的表达及临床应用等方面。本文就该生长因子基因的克隆和表达、生物功能及临床应用研究进展作一概述。     

Expression of Biologically Active Basic Fibroblast Growth Factor by Genetically Modified Rat Primary Skin Fibroblasts

Abstract: Basic fibroblast growth factor (FGF-2) is normally expressed as a cell-associated protein, and accordingly it is not clear how it exerts its action on target cells in vivo. It has been proposed that cells release, by death or other mechanisms, small amounts of FGF-2 that then acts in an autocrine manner. To address the question of whether it is necessary that FGF-2 remain cell associated or needs to be secreted from cells to have biological activity, we expressed the 18-kDa form of FGF-2 in primary fibroblasts as a cell-associated (FGF-2-B) or as a secreted (FGF-2-S) protein. FGF-2 protein is detected in cell lysates and membrane fractions of both cell types, whereas it is present in significant amounts only in the conditioned medium of FGF-2-S cells. No FGF-2 is detected in control (untransfected) cells. FGF-2-S cells also grow faster than the control or FGF-2-B cells. Yet, when evaluated for their ability to promote the survival of embryonic hippocampal neurons in vitro, both the cell types are active, establishing the activity of the transgene product. We conclude that FGF-2 is active when engineered to be expressed as a cell-associated form or secreted from cells.     

Basic Fibroblast Growth Factor Expression is Implicated in Mesenchymal Stem Cells Response to Light-Induced Retinal Injury

Neurotrophic factors are involved in neuroprotection and its expression in mesenchymal stem cells (MSCs) may change during light-induced retinal injury. In this study, neurotrophic factor expression in MSCs was investigated after stimulation by supernatants of homogenized retina (SHR) from normal and light-injured rats. Conditioned media from control MSCs (CM-MSCs), MSCs stimulated by normal SHR (CM-NSHR), and MSCs stimulated by light-injured SHR (CM-ISHR) were examined regarding their ability to prevent degeneration of retinal explants. Basic fibroblast growth factor (bFGF) in MSCs was knockdown by lentivirus-mediated mRNA interference. Transfected MSCs were stimulated by SHR, and retinal preservation was reevaluated in the resultant conditioned media. We detected significant up-regulation of bFGF in CM-ISHR, accompanied by superior retinal neurotrophic effects in CM-ISHR over CM-NSHR and CM-MSCs. Down-regulation of bFGF in MSCs effectively inhibited this protective effect. Adding neutralizing antibody against bFGF to CM-ISHR also induced a similar effect. It is thus concluded that retinal injury may enhance neurotrophic factor expression in MSCs and promote the repair process. bFGF may play a critical role in MSCs’ response to retinal injury.     

两种类型人碱性成纤维生长因子的体外稳定性研究

目的:通过野生型bFGF和改构型bFGF蛋白溶液中的聚集过程的比较,初步探讨bFGF在水溶液中发生聚集的机理。方法:在选择合适溶液体系后,采用蛋白溶解度和促有丝分裂活性能力为指标,表征野生型bFGF和突变型bFGF聚合程度,分析共价聚合和非共价聚合所起的作用。结果:在相同的溶液体系中,野生型bFGF的聚集程度高于突变型bFGF。bFGF聚合程度与浓度有依赖性。沉淀结果分析非共价聚合占主要作用。结论:野生型bFGF在溶液中共价聚和和非共价聚合同时发生,两种bFGF聚合过程中非共价聚合占较大比例。突变半胱氨酸可以减少聚合发生。     

Regulation of Astrocytic Tenascin by Basic Fibroblast Growth Factor

Extracellular matrix (ECM) molecules have been implicated in the regulation of neuronal adhesion and neurite outgrowth both during development and after injury. It has been demonstrated in our laboratory that astrocytes are heterogenous in expression of the ECM molecule tenascin. High-tenascin astrocytes have a reduced ability to support neurite outgrowth. In addition, astrocytes treated with exogenous basic fibroblast growth factor (bFGF) supported reduced neuronal growth and adhesion. In the current study, the hypothesis was tested that bFGF could increase the expression of tenascin by these cells. Basic FGF was added to cultures of rat cerebral cortical astrocytes at concentrations of up to 30 ng/ml, concentrations shown to have a significant effect on neuronal adhesion. Tenascin levels were evaluated by Western blot analysis of both cell extracts and conditioned media and also by immunocytochemistry techniques. Tenascin levels began to increase after 24-48 hr and continued to increase throughout 8 days in culture. The increase in tenascin was concentration-dependent, with the largest increase seen at 5 ng/ml bFGF. Tenascin production was increased approximately 5.5-fold in serum-containing medium but only about 2-fold in serum-free medium. When heparin (10 μg/ml) was included along with bFGF in serum-free medium, tenascin production was further enhanced. The bFGF treatment was discontinued after 8 days, and the cells were maintained for an additional 8 days in culture. Tenascin levels returned to control values, demonstrating that the bFGF effect is transient. It is our hypothesis that the action of bFGF during injury may evoke the induction of tenascin on astrocytes, thereby reducing regeneration in the central nervous system.     

Resveratrol Attenuates Copper and Zinc Homeostasis and Ameliorates Oxidative Stress in Type 2 Diabetic Rats

Diabetes is a common metabolic disorder characterized by elevated blood glucose level. Trace element homeostasis causes disturbances in diabetes due to hyperglycemia. Superoxide dismutase (SOD), an antioxidant enzyme, contains zinc and copper ions as its cofactors. Defects in SOD level and activity have been observed in diabetes. Resveratrol (RSV) has displayed hypoglycemic effects and is proven to improve oxidative stress. The aim of the present study was to examine the possible effects of RSV on blood glucose level, serum copper and zinc levels, SOD, and a number of other oxidative markers in type 2 diabetic rats. Diabetes was induced in male Wistar rats with administration of streptozotocin and nicotine amide. The studied groups containing six animals per group were as follows: group 1 normal control group; group 2 diabetic control group; groups 3, 4, and 5 diabetic rats that received 1, 5, and 10 mg/kg body weight of RSV, respectively for 30 days. Serum glucose, copper, zinc, SOD activity, total oxidant status (TOS) as well as thiol groups were all measured. Blood glucose in RSV treated groups significantly decreased. Similarly, copper significantly decreased in diabetic groups treated with RSV. Treatment with 10 mg/kg RSV resulted in significantly increased serum zinc. Furthermore, Cu/Zn ratio was observed to decrease in treated groups compared with untreated diabetic control group. RSV treated groups revealed an increased level of SOD activity as well as improved oxidative status. In summary, the results showed that RSV has potential hypoglycemic effect, attenuates trace element homeostasis, and consequently increases SOD activity level.     

Epidermal Growth Factor and Basic Fibroblast Growth Factor Protect Dopaminergic Neurons from Glutamate Toxicity in Culture

Abstract: In this report we characterize the toxicity of the excitatory amino acid l -glutamate with respect to dopaminergic neurons cultured from embryonic rat mesencephalon. We also demonstrate that two growth factors, epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF), can protect these neurons from damage. Micromolar concentrations of l -glutamate, as well as agonists that specifically activate N -methyl- d -aspartate (NMDA) and non-NMDA receptors, are all toxic to dopamine neurons in a concentration-dependent manner, as reflected by decreases in high-affinity dopamine uptake and confirmed by decreases in numbers of tyrosine hydroxylase-immunoreactive neurons. Although the non-NMDA receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione could attenuate the effects of quisqualate, treatment with this antagonist could not eliminate the effects of glutamate itself. Similarly, (±)-2-amino-5-phosphonopentanoic acid was effective against NMDA toxicity but could not protect cells from quisqualate toxicity. Thus, each type of receptor could mediate neurotoxicity independently of the other. The presence of EGF or bFGF in the culture medium conferred a relative resistance of dopaminergic neurons to glutamate and quisqualate neurotoxicity by increased glutamate transport. However, treatment of the cultures with l - trans -pyrrolidine-2,4-dicarboxylic acid, an inhibitor of glutamate transport, attenuated but did not eliminate the protective effects of both growth factors against glutamate toxicity. When cultures were incubated with conditioned medium from growth factor-treated cultures, neuroprotection was also achieved. These results suggest that both EGF and bFGF can protect neurons from neurotoxicity in culture by increasing the capacity of the culture for glutamate uptake as well as by the secretion of soluble factors into the medium.     

Production of 1,2-Diacylglycerol in PC12 Cells by Nerve Growth Factor and Basic Fibroblast Growth Factor

The addition of nerve growth factor (NGF) or basic fibroblast growth factor (bFGF) to PC12 cells prelabeled with [3H]inositol and preincubated for 15 min in the presence of 10 mM LiCl stimulated the production of inositol phosphates with maximal increases of 120-180% in inositol monophosphate (IP), 130-200% in inositol bisphosphate (IP2), and 45-50% in inositol trisphosphate (IP3) within 30 min. The majority of the overall increase (approximately 85%) was in IP; the remainder was recovered as IP2 and IP3 (approximately 10% as IP2 and 5% as IP3). Under similar conditions, carbachol (0.5 mM) stimulated about a 10-fold increase in IP, a sixfold increase in IP2, and a fourfold increase in IP3. The mass level of 1,2-diacylglycerol (DG) in PC12 cells was found to be dependent on the incubation conditions; in growth medium [Dulbecco's modified Eagle's medium (DME) plus serum], it was around 6.2 mol %, in DME without serum, 2.5 mol %, and after a 15-min incubation in Dulbecco's phosphate-buffered saline, 0.62 mol %. The addition of NGF and bFGF induced an increase in the mass level of DG of about twofold within 1-2 min, often rising to two- to threefold by 15 min, and then decreasing slightly by 30 min. This increase was dependent on the presence of extracellular Ca2+, and was inhibited by both phenylarsine oxide (25 microM) and 5'-deoxy-5'-methylthioadenosine (3 mM). Under similar conditions, 0.5 mM carbachol stimulated the production of DG to the same extent as 200 ng/ml NGF and 50 ng/ml bFGF. Because carbachol is much more effective in stimulating the production of inositol phosphates, the results suggest that both NGF and bFGF stimulate the production of DG primarily from phospholipids other than the phosphoinositides.     

基因重组人碱性成纤维细胞生长因子的遗传毒性研究

用Ames试验、CHL细胞染色体畸变试验、小鼠骨髓PCE微核试验和小鼠致畸试验对基因重组人碱性成纤维细胞生长因子（rh-bFGF)进行研究。结果显示,rh-bFGF(0.1～500μg/皿）对TA97、TA98、TA100和TA102菌株在±S9mix条件下无致突变作用。各剂量组的微核细胞率与溶剂组比较,P>0.05。4个剂量组CHL细胞染色体畸变率均<5％。在妊娠母鼠6～15d P0给药,各剂量组活胎率90.2％～95.9％,与溶剂组95％比较,P>0.05。对胎鼠外观、骨骼和内脏无致畸作用。但0.03264mg/kg b.w吸收胎与溶剂组比较,P<0.01,显示一定的胚胎毒性。 Abstract: The genotoxicity of recombinant human basic fibroblast growth factor(rh-bFGF)was studied by Ames test,Chromosome aberration assay of mammalian cell(CHL)in vitro,mouse marrow micronucleus assay and teratogenesis assay.The results showed that rh－bFGF at the dose level of(0.1～500μg/plate)did not induce positive mutations in TA97,TA98,TA100,TA102 with or without S9mix of Ames test.It was control within the range(<5％)of chromosome aberration rates from rh-bFGF with 4 doses groups with or without S9min.The frequency of mouse micronuleus rate had no increase.It was divided into each groups of rh?bFGF received(p.o)dosages the 6th to 15 day of gestation mouse respectively in the teratology test.The frequency of live fetuses of each dose was between 90.2～95.9％,there were no significant difference as compared with 95％ of solution control group.It did not cause deformity of the fetus appearances,bone and internal organs.But there were significant differences from solution control in rf-bFGF group of absorfoetus at 0.03264mg/kg(P<0.01).The results showed certainly dembyotoxicity.     

Localization of Basic Fibroblast Growth Factor in Bovine Adrenal Chromaffin Cells

Abstract: We have investigated basic fibroblast growth factor (FGF-2) localization in and release from isolated bovine adrenal chromaffin cells. In contrast to previous reports, we found no evidence of fibroblast growth factor (FGF) storage in catecholamine-containing chromaffin granules. Subcellular fractionation studies did not show enrichment of FGF-2 immunoreactivity in granules, and cholinergic stimulation failed to release FGF-2 into the medium. Our results suggest that adrenal chromaffin cells resemble other FGF-2-synthesizing cell types with respect to FGF storage and secretion.     

Epidermal Growth Factor and Basic Fibroblast Growth Factor Have Independent Actions on Mesencephalic Dopamine Neurons in Culture

Abstract: Epidermal growth factor (EGF) and basic fibro-blast growth factor (bFGF) are both trophic for dopamine neurons s in cultures of dissociated embryonic rat mesen-cephaion, but the significance of this apparent overlap in neurotrophic activity is not yet known. In this study, we investigated the mechanisms of action of these two growth factors and the potential relationship between them, Using a nuclease protection assay, we determined that bFGF mRNA was expressed in the cultures. Double-label immunocytochemistry revealed that bFGF immunore-active material could be detected in tyrosine hydroxylase immunoreactive neurons and glial fibrillary acidic protein immunoreactive astrocytes. EGF treatment increased bFGF mRNA content per culture dish. As we have previously demonstrated that EGF exerts its dopaminergic neurotrophic activity via an intermediate cell type, studies were designed to address whether the pathway by which EGF acts on dopaminergic neurons is mediated by the release of bFGF. However, the trophic action of EGF on dopamine neurons, represented by high-affinity neuronal dopamine uptake, could not be blocked by immunoneutralization of bFGF, suggesting that the actions of EGF were not mediated by bFGF release. The time course of the effects of EGF and bFGF on dopamine uptake were similar, with significant increases detectable only after 5 days in culture. Both growth factors were active in the picomolar-to-nannomolar range with maximal trophic activity between 0.4 and 2.5 n M. EGF, however, was the more potent mitogen under these conditions. When cultures were simultaneously incubated with maximal concentrations of EGF and bFGF, the effect on dopamine uptake was significantly greater than with either growth factor alone and, in fact, approximated the sum of the individual effects. On the basis of these results we conclude that these growth factors have independent effects on dopamine neurons of the mesencephalon.     

碱性成纤维细胞生长因子在肝纤维化过程中的研究进展

碱性成纤维细胞生长因子(b-FGF)是在人体内广泛分布而又含量极少的一种生物因子,但是却在信号传导,细胞增值分化,促进血管生成,损伤组织修复等过程中起到相当重要的作用,目前在医学的各个领域对b-FGF的研究取得了一定的成就,同时也存在着一些问题,尤其是在肝纤维化相关疾病中的研究。肝纤维化是肝炎-肝硬化-肝癌三部曲中的一个动态过程与共同病理途径。肝纤维化发展的核心环节和共同通路是肝星状细胞(HSC)激活和以及大量ECM的合成分泌。而HSC的激活成为肝纤维化的关键,许多生物因子参与了这个病理过程,而碱性成纤维细胞生长因子就是其极为个最重要的几个因子之一。本文就近些年b-FGF的基本概况,作用机制,b-FGF在急慢性肝炎中的表达情况,在肝癌中的表达和信号传导情况,以及它在肝纤维化相关疾病中的作用机制及相关因素等进行系统整理归纳,另外就b-FGF未来的发展前景做一简单介绍,本文就以上内容的研究进展作一综述。     

成纤维细胞生长因子与其受体相互作用及其抑制剂的研究进展

成纤维细胞生长因子（FGF）有许多重要的生理功能，并与肿瘤的形成有关.为了弄清FGF与成纤维细胞生长因子受体(FGFR)相互作用的机制，人们对FGF和FGFR的各个结合结构域进行了深入、细致的研究，定位了aFGF、bFGF的肝素结合区、bFGF的受体结合区、FGF受体的肝素结合区、配体结合区和FGF受体相互结合区，提出了两个FGF与FGFR相互作用的模型，在此基础上设计了FGF的核酸类、糖类和多肽类抑制剂，为寻找新一代抗癌药物打下了理论基础.     

人碱性成纤维细胞生长因子突变体的高效表达

用PCR法将人碱性成纤维细胞生长因子(hbFGF)基因中编码第25、69和92位的半胱氨酸(Cys)密码子突变为丝氨酸(Ser)密码子,将突变的hbFGFcDNA片断与表达质粒pET3c连接,构建重组质粒pET3chbFGFSer25,69,92。hbFGFSer25,69,92在大肠杆菌BL21(DE3)中的表达量大于30%。通过阳离子交换和肝素亲和层析两步纯化,得到纯度大于95%的hbFGFSer25,69,92。MTT法测定纯化的产物活性表明,hbFGFSer25,69,92突变体促Balb/c细胞增殖的活性与野生型hbFGF相当,为下一步对hbFGFSer25,69,92突变体进行定点化学修饰打下了基础。     

重组人碱性成纤维细胞生长因子(bFGF)融合蛋白的高效表达及鉴定

碱性成纤维细胞生长因子（ｂＦＧＦ）参与了许多细胞生长和分化的调控过程。本文采用重组ＤＮＡ技术在大肠杆菌中高效表达了人ｂＦＧＦ。首先将编码人ｂＦＧＦ基因克隆到ｐＸＴ表达载体中与其上游的一短Ｓ导肽共一阅读框架,ｂＦＧＦ基因的表达受强的Ｔ７启动子调控。采用ＢＬ２１（ＤＥ３）大肠杆菌作为宿主菌,用ＩＰＴＧ诱导ＢＬ２１（ＤＥ３）细菌合成的Ｔ７ＲＮＡ聚合酶,后者可催化高水平的ｂＦＧＦ基因表达,其ｂＦＧＦ产量可占总菌体蛋白的４２.５％。采用肝素Ｓｅｐｈａｒｏｓｅ一步亲和层析法直接从诱导后的细菌裂解产物中得到纯化的重组人ｂＦＧＦ蛋白。经Ｗｅｓｔｅｒｎ印迹分析证明该蛋白可被人ｂＦＧＦ特异性单克隆抗体所识别。进一步研究证明该蛋白具有刺激ＮＲ６Ｒ－３Ｔ３成纤维细胞增殖的生物学活性,并且这一活性可被人ｂＦＧＦ特异性中和抗体所中和。