Effect of copper,zinc and cadmium on the promoter of selenoprotein W in glial and myoblast cells

Rat selenoprotein W (SeW) promoter activity was investigated using different concentrations of cadmium, copper, and zinc. Two fragments (404 and 1265 bp) of the SeW promoter, containing a single metal response element (MRE), were ligated into the multiple cloning site of a pGL3-Basic reporter plasmid. The constructs were transfected into cultured C6 (rat glial) and L8 (myoblast) cells and promoter activity measured by means of luciferase reporter gene fused to the SeW promoter fragments in the reporter plasmid. With post-transfection exposure of these cell lines to these metals, copper and zinc, but not cadmium, significantly increased promoter activity of the unmutated 1265 bp (not 404 bp) construct (p<0.05) only in the C6 cells. Mutation of the MRE sequence abolished promoter response to metal exposure but did not eliminate promoter activity. The results suggest that SeW expression in glial cells can be increased on exposure to copper and zinc and that this response is dependent on the MRE sequence present in the SeW promoter.     

Deletion analysis of the rodent selenoprotein W promoter

To identify regulatory elements in the rat selenoprotein W (SeW) promoter, 2090, 1265, 741, and 404 base pair truncations of genomic DNA lying immediately upstream of the SeW coding sequence were cloned into a luciferase reporter vector (pGL3-Basic from Promega, Madison, WI, USA). 3656 and 406 base pair mouse SeW promoter constructs were also compared. SeW promoter activity was assayed in two rat cell lines: L8 muscle cells and C6 brain cells. The SeW promoter was 2-7 times more active (p<0.01) than SV40 promoter. Promoter activity of constructs of the SeW promoter ranging from 200 base pairs to 51 base pairs gradually decreased to zero in brain cells, but fell precipitously to zero in muscle cells. Some truncations stimulated promoter activity, suggesting the full-length promoter may contain binding sites for factors that suppress SeW expression.     

Selenoprotein W as molecular target of methylmercury in human neuronal cells is down-regulated by GSH depletion

Methylmercury (MeHg) is well known as a neurotoxic chemical. However, little is mentioned about its neurotoxic mechanism or molecular target in human neuronal cells in particular. We show in this study that exposure of human neuronal cell line, SH-SY5Y, to MeHg dose- and time-dependently impairs viability and mRNA expression of selenoprotein W (SeW) with a significant difference, unlike other selenoenzymes such as, SeP, GPX4, 5DI, and 5'DI. Using real-time RT PCR, the influence of selenium (Se) and glutathione (GSH) on SeW expression was also investigated. While Se depletion caused a weakly reduced SeW mRNA levels, additional Se caused an increase of SeW mRNA levels. Although 2 mM GSH had induced a weak shift on SeW level, the expression of SeW mRNA was down-regulated in SH-SY5Y cells treated with 25 microM BSO, an inhibitor of GSH synthesis. To understand the relationship between a decrease of SeW expression and intracellular GSH and ROS, we measured the concentration of intracellular GSH and ROS in cells treated to 1.4 microM MeHg using fluorescence based assays. A positive correlation was found between SeW mRNA level and intracellular GSH but no significant correlation was observed between intracellular ROS and SeW mRNA level or intracellular GSH contents. Therefore, we suggest that SeW is the novel molecular target of MeHg in human neuronal cells and down-regulation of this selenoenzyme by MeHg is dependent not on generation of ROS but on depletion of GSH.     

核糖核酸酶抑制因子对H_2O_2损伤的大鼠神经胶质瘤细胞系C6的影响

核糖核酸酶抑制因子 (ribonucleaseinhibitor,RI)是广泛存在于哺乳动物细胞浆中的一种酸性糖蛋白 .为了进一步了解RI的功能 ,根据RI分子结构富含巯基的特点 ,研究了RI对过氧化氢(H2 O2 )损伤的大鼠神经胶质瘤细胞 (C6 )的影响 .用不同浓度的H2 O2 分别作用于转染有RIcDNA并且RI过表达的C6细胞和正常C6细胞 ,对比损伤前后 2者的细胞存活率、LDH漏出量、细胞内GSH和MDA含量差别 ,以及细胞内抗氧化酶类GPX、CAT和GST活性的差别 .结果表明 ,与正常C6细胞相比 ,RI过表达的C6细胞在H2 O2 作用下存活率高 ,LDH漏出量、MDA含量明显减少 ,而细胞内GSH较多 ;RI过表达的C6细胞在损伤前后均表现出更强的CAT和GST活性 .提示RI具有抗氧化功能 ,能够减轻H2 O2 所致的细胞过氧化损伤 .     

Expression of recombinant Atlantic salmon serum C-type lectin in Drosophila melanogaster Schneider 2 cells

The Atlantic salmon (Salmo salar) serum lectin (SSL) is a soluble C-type lectin that binds bacteria, including salmon pathogens. This lectin is a cysteine-rich oligomeric protein. Consequently, a Drosophila melanogaster expression system was evaluated for use in expressing SSL. A cDNA encoding SSL was cloned into a vector designed to express it as a fusion protein with a hexahistidine tag, under the control of the Drosophila methallothionein promoter. The resulting construct was stably transfected into Drosophila S2 cells. After CdCl₂ induction, transfected S2 cells secreted recombinant SSL into the cell culture medium. A cell line derived from stably transformed polyclonal cell populations expressing SSL was used for large-scale expression of SSL. Recombinant SSL was purified from the culture medium using a two-step purification scheme involving affinity binding to yeast cells and metal-affinity chromatography. Although yields of SSL were very low, correct folding and functionality of the recombinant SSL purified in this manner was demonstrated by its ability to bind to Aeromonas salmonicida. Therefore, Drosophila S2 cells may be an ideal system for the production of SSL if yields can be increased.     

Coupled expression of Ca2+ transport ATPase and a dihydrofolate reductase selectable marker in a mammalian cell system.

Stable expression of a full-length cDNA encoding chicken fast muscle Ca2+ transport ATPase was obtained in a Chinese hamster lung cell line (DC-3F), using a dual-promoter expression vector (pH beta FCaA3) in which the ATPase was cloned downstream of a human beta-actin gene promoter, and a mutant dihydrofolate reductase cDNA (A3/DHFR) was cloned downstream of an SV40 promoter-enhancer. Owing to its essentially normal catalytic activity and modest (20-fold) resistance to the antifolate methotrexate (MTX), the A3/DHFR mutant enzyme served as an efficient dominant selection marker in transfected cell populations challenged with MTX and, within a broad range of drug concentrations, allowed subsequent amplification and overexpression of vector sequences. In stable transfectants, the expressed ATPase was targeted to intracellular membranes, and the microsomal fractions from those cells exhibited high rates of Ca2+ transport. In comparative experiments using transient expression in COS1 cells, the level of ATPase per transfected cell was greater, but less than 5% of the transfected population exhibited ATPase expression. Furthermore, as opposed to the stable lines, the transiently expressing cells could not be propagated. Overall, the yield of ATPase was 12-16 and 4-6 micrograms per milligram of microsomal protein in the stable and the transient expression systems, respectively. The advantages of the stably transfected cell lines therefore lie in the homogeneity of ATPase expression and its distribution in cells and microsomes, in the large yield of microsomes obtained by continuous cell propagation, and in the reproducible functional characteristics of the microsomes. Moreover, the microsomes derived from stably transfected cell lines provide a convenient system for studies of Ca2+ transport and ATPase partial reaction, eliminating the need to conduct repetitive transient transfections to obtain sufficient amounts of enzyme for functional studies.     

Suppression of Glial Tumor Growth by Expression of Glial Fibrillary Acidic Protein

We examined the effect of expression of glial fibrillary acidic protein (GFAP) on the tumor growth of astrocytoma in vivo. When rat astrocytoma C6 cells were injected subcutaneously in athymic mice, the cells produced tumors that grew rapidly. The tumor growth of C6 cells transfected with GFAP cDNA was significantly reduced compared to that of control NeoC6 cells transfected only with the neomycin resistant gene. After implantation of C6 cells transfected with mutated GFAP cDNA at the phosphorylation sites, the tumor growth was suppressed similar to that of the wild GFAP transfectants. To determine whether the cell growth suppression by GFAP is specific for astroglial cells, we assessed the effect of GFAP on the cell growth of an L cell of fibroblast origin in vitro. By GFAP cDNA transfection, L cells showed morphological changes, but the cell growth was not reduced. These results suggest that GFAP is a critical regulator of the tumor growth of astrocytoma.     

Insulin-like growth factor-I (IGF-I) attenuation of growth hormone is enhanced by overexpression of pituitary IGF-I receptors.

Insulin-like growth factor-I (IGF-I) attenuates GH gene expression by a receptor-mediated mechanism in pituitary cells. We, therefore, isolated neomycin-resistant stable GC cell transfectants over-expressing human IGF-I receptor cDNA (IGFIR-cDNA) cloned in an Rous sarcoma virus-directed expression vector. A transfection control contained the IGFIR-cDNA cloned in the reverse orientation. Southern analysis confirmed incorporation of human IGFIR-cDNA sequences into rat genomic DNA. Immunoprecipitation of metabolically labeled [35S]methionine stably transfected cells revealed a 200-kDa human IGF-I receptor precursor protein. Growth rate and basal GH secretion were not altered in transfected cells. Although transfected and control cells had a similar Kd for IGF-I binding (0.43 and 0.40 nM, respectively), IGF-I-binding sites were induced 17-fold (384,000 vs. 22,000 sites/cell). Treatment of cells with IGF-I (6.5 nM) maximally attenuated GH secretion by 80% compared to 40% attenuation in control cells (P less than 0.0001). Maximal suppression of GH in transfectants occurred within 15 h of treatment, and GH secretion by control cells was only maximally suppressed after 42 h. The ED50 of IGF-I suppression of GH secretion in transfectants after 15 h was 0.5 nM. These results demonstrate that transfectants overexpressing human IGF-I receptor are hyperresponsive to exogenous IGF-I. These data indicate that IGF-I receptor number plays an important role in mediating the signal transduction of IGF-I to the GH gene.     

小鼠白细胞介素33真核表达质粒的构建及表达

克隆小鼠IL-33基因构建其真核表达质粒,并转染COS-7细胞检测其表达。提取C57BL/6小鼠肺组织总RNA,经反转录聚合酶链式反应（RT-PCR）扩增小鼠IL-33基因,酶切后插入pcDNA^TM3.1/myc HisA构建其真核表达质粒pcDNA-3.1-IL-33,重组质粒转染COS-7细胞,RT-PCR和免疫印迹法（western blotting）检测目的基因表达。结果显示,pcDNA3.1-IL-33中插入的片段序列测定结果与小鼠IL-33cDNA序列一致,重组质粒转染COS-7细胞后检测到相应mRNA及蛋白表达。成功克隆了小鼠IL-33基因cDNA,并构建其真核表达质粒。     

H18杂交瘤抗凋亡能力的改造

利用PCR从pGEMTbcl-X_L质粒中获得bcl-X_L基因,构建真核表达载体pEF-bcl-X^{L,脂质体法转染杂交瘤细胞,G418筛选稳定表达株,Western blotting检测目的蛋白表达,流式细胞仪检测Bcl-X_L提高杂交瘤抗正丁酸钠诱导凋亡的功能。 将构建的编码鼠bcl-X_L基因的真核表达载体pEF-bcl-X_L,转染H18细胞后,获得稳定的表达株细胞;稳定表达Bcl-X_L的细胞具有抗正丁酸钠诱导凋亡的功能。鼠bcl-X_L基因在杂交瘤细胞中稳定表达,提高了杂交瘤抗凋亡的能力,对高密度大规模培养杂交瘤细胞具有重要意义。}     

Mitochondrial NADP-dependent isocitrate dehydrogenase knockdown inhibits tumorigenicity of melanoma cells

The potent cytotoxicity of reactive oxygen species (ROS) can cause various diseases but may also serve as a powerful weapon capable of destroying cancer cells. Although the balance between generation and elimination of ROS is maintained by the proper function of antioxidative systems, the severe disturbance of cellular redox status may cause various damages, leading to cell death. Mitochondrial NADP⁺-dependent isocitrate dehydrogenase (IDH2), an NADPH-generating enzyme, is one of the major antioxidant and redox regulators in mitochondria. To assess the effect of IDH2 knockdown in the malignancy process, we generated B16F10 melanoma cells stably transfected either with the cDNA for mouse IDH2 cloned in antisense orientation or with a control vector. Mice injected with B16F10 cells harboring IDH2 downregulation showed a dramatic reduction in tumor progression in comparison to mice administered control cells. This effect might be secondary to a shift from a reducing to an oxidative state in tumor cells. The tumor tissue of mice administered B16F10 cells transfected with the IDH2 cDNA exhibited induction of apoptosis and downregulation of angiogenesis markers. These observations demonstrate that reduction of IDH2 levels in malignant cells has anti-tumorigenic effects and suggest that IDH2 is a potential target for cancer therapy.     

A short synthetic chimeric sequence harboring matrix attachment region/PSAR2 increases transgene expression in Chinese hamster ovary cells

A chimeric DNA fragment containing an interferon-beta matrix attachment region (MAR) and an immunoglobulin MAR (PSAR2) was synthesized. PSAR2 was cloned into the upstream or downstream region of an enhanced green fluorescent protein (eGFP) expression cassette in a eukaryotic vector, which was then transfected into CHO cells. The results showed that PSAR2 did not effectively increase transgene expression when it was cloned into the upstream region of the eGFP expression cassette. However, when inserted downstream of the eGFP expression cassette, PSAR2-enhanced transient transgene expression and significantly increased the numbers of stably transfected cells compared with the control vector. Additionally, PSAR2 significantly increased eGFP copy numbers as compared with the control vector. PSAR2 could significantly enhance transgene expression in CHO cells according to the position in the vector and increased transgene copy numbers. We found a short chimeric sequence harboring two MARs effectively increased transgene expression in CHO cells.     

绵羊Follistatin基因表达及其结构域的功能分析

为研究羊Follistatin基因的功能,提取了绵羊卵巢总RNA,通过RT-PCR方法获得羊Follistatin cDNA的完整开放阅读框 (1 038 bp)。去除信号肽序列后与原核表达载体pET41a连接,构建重组表达质粒pFSsig?,经大肠杆菌诱导表达获得FS sig?蛋白 (66 kDa)。通过RT-PCR克隆了包含N端和结构域1的Follistatin突变体 (FS N+D1),将FS N+D1片段插入慢病毒载体 (pLEX-MCS) 构建了pFS-N+D1慢病毒重组表达质粒。在293T细胞中进行慢病毒的包装,再感染绵羊肌肉原代细胞,得到稳定表达FS N+D1的肌肉细胞系,通过细胞生长曲线结果显示稳定表达FS N+D1的肌肉细胞明显比正常肌肉细胞增殖快,且差异极显著 (P＜0.01),表明绵羊FS N+D1结构域有促进肌肉细胞生长的功能。     

稳定表达人JNK3的SHSY5Y细胞系的建立及鉴定

目的构建人c-jun氨基末端激酶3（c-jun N—terminal kinase 3,JNK3）真核表达载体,并在人神经母细胞瘤细胞（SHSY5Y）中稳定表达以探讨JNK3对细胞凋亡的影响。方法以pDBleu—JNK3为模板,PCR扩增人JNK3基因全长,目的片段亚克隆至真核表达载体pEGFP—C3,酶切及测序鉴定。Lipofeetamine^TM 2000转染SHSY5Y细胞,并通过G418选择性培养建立稳定表达JNK3的SHSY5Y细胞系,荧光垃微镜下观察细胞中JNK3表达,RT—PCR、Western印迹检测JNK3表达。结果成功构建了pEGFP—C3-JNK3真核表达载体,并建立了稳定表达人JNK3的SHSY5Y细胞系,与对照组相比,其人JNK3基因表达明显升高。结论稳定表达人JNK3的SHSY5Y细胞系的建立,为进一步研究人JNK3的功能及其与细胞凋亡的关系提供了重要的细胞模型和实验基础。     

The antioxidant effects of ribonuclease inhibitor

Ribonuclease inhibitor (RI) is an acidic cytosolic glycoprotein with molecular weight of about 50 kDa, which contains 32 cysteine residues. It is possibly that RI may have antioxidant effect by thiol-disulfide exchange reaction. We studied the effects of RI over-expression on the rat glial cell line C6 injured with H2O2. The transfected C6 cells with RI cDNA (C6') had higher viability, less LDH leakage and MDA contents, but more GSH contents compare that in the control C6 cells. In transfected C6 cells, the activities of CAT and GST were higher than that in the control C6 cells. Without H202 stress, the activities of CAT and GST in the C6' cells were 1.73 and 3.62 times that in the control C6 cells, respectively; With 1.00 mmol/L H2O2 stress, the activities of CATand GSTin the C6' cells were 3.38 and 2.11 times that in the C6 cells, respectively. These results suggest that the over-expression RI has antioxidant activity and it is able to protect cells from per-oxidative injuries. Moreover, we investigated whether RI has a protective role against mouse hepatic damage in vivo. The mice pretreated with different doses of human RI were injected by CC14. The results show that the SOD activities of therapy groups were significantly higher than that of the control group (p < 0.01), while the contents of MOD and activities of ALT and AST in blood were remarkably lower than that of the control group (p < 0.01). Pathological examination shows that the degree of damage was alleviated with RI therapy. These results suggest that RI has the protective role against mouse hepatic damage induced by CC14. The anti-oxidative effects of RI may play an important role in cell protection from per-oxidative injuries.     

The Role of N53Q Mutation on the Rat μ-Opioid Receptor Function

Glycosylation of the μ-opioid receptor may play an important role on its function. Using nested PCR, N53Q mutation was prepared in the N-terminal region of the rat μ-opioid receptor cDNA and cloned into the pcDNA3 vector. The plasmids containing the wild-type and mutated receptor cDNA were transfected into the COS-7 cells. Intracellular cAMP was measured in the morphine-treated and untreated transfected cells using an ELISA kit. Plasmid expression was evaluated using X-gal staining. Intracellular concentration of cAMP in the N53Q-mutated cells was not significantly different from the wild-type. The expression of the transfected plasmids was confirmed. Therefore, based on these results, it seems that glycosylation at the N53 site of the rat μ-opioid receptor does not influence the function of this receptor significantly.     

Expression of gamma-glutamyl transpeptidase protects ramos B cells from oxidation-induced cell death

The ectoenzyme, gamma-glutamyl transpeptidase (GGT, EC ) cleaves glutathione (GSH) to facilitate the recapture of cysteine for synthesis of intracellular GSH. The impact of GGT expression on cell survival during oxidative stress was investigated using the human B cell lymphoblastoid cell line, Ramos. Ramos cells did not express surface GGT and exhibited no GGT enzyme activity. In contrast, Ramos cells stably transfected with the human GGT cDNA expressed high levels of surface GGT and enzymatic activity. GGT-transfected Ramos cells were protected from apoptosis when cultured in cyst(e)ine-deficient medium. The GGT-expressing cells also had lower levels of intracellular reactive oxygen species (ROS). Homocysteic acid and alanine, inhibitors of cystine and cysteine uptake, respectively, caused increased ROS content and diminished viability of GGT expressing cells. Exogenous GSH increased the viability of the GGT-transfected cells more effectively than that of control cells, whereas the products of GSH metabolism prevented death of both the control and GGT-transfected cells comparably. These data indicate that GGT cleavage of GSH and the subsequent recapture of cysteine and cystine allow cells to maintain low levels of cellular ROS and thereby avoid apoptosis induced by oxidative stress.     

小鼠DLL1真核表达载体的构建及其在肿瘤细胞中的表达

目的：构建带绿色荧光蛋白的小鼠DLL1全长基因真核表达载体,并在肿瘤细胞中表达。方法：利用PCR特异性引物扩增出DLL1基因全长,将克隆的基因片段插入带绿色荧光蛋白的真核表达载体pIRES2-EGFP质粒中。然后利用脂质体将重组质粒pIRES2-EGFP-DLL1转染进小鼠B16黑色素瘤细胞中,并通过G418筛选后选取生长良好、荧光强度高的三株单克隆进行mRNA水平DLL1表达的鉴定。结果：成功扩增小鼠DLL1的全长基因。克隆入质粒载体后,通过DNA序列测定证实其序列正确。将构建的pIRES2-EGFP-DLL1质粒转染小鼠B16黑色素瘤细胞,经过G418筛选和荧光显微镜观察后,挑选得到GFP阳性率90%以上的稳定转染细胞株。RT-PCR检测稳定转染细胞的mDLL1的表达显著增加,进一步证实了pIRES2-EGFP-DLL1的表达效能。结论：成功构建了小鼠DLL1基因的真核表达质粒,证实其在真核细胞B16中可以表达。