牛α—sl酪蛋白基因序列指导htPA突变体小基因在小鼠乳腺中的表达

将包括α－sl酪蛋白基因的启动子、LAtPA小基因、α－sl酪蛋白基因下游调控序列的融合基因经显微注射至小鼠的受精卵中,获得了5只转基因阳性鼠,其中1只转基因阳性雌鼠乳清中LAtPA的含量为0．18αg/ml,说明构建的LAtPA小基因能够正确表达出有生物活性的LAtPA, 在酪蛋白基因调控序列的指导下在小鼠乳汁中表达。     

The High-Level Expression of Human Tissue Plasminogen Activator in the Milk of Transgenic Mice with Hybrid Gene Locus Strategy

Transgene expression for the mammary gland bioreactor aimed at producing recombinant proteins requires optimized expression vector construction. Previously we presented a hybrid gene locus strategy, which was originally tested with human lactoferrin (hLF) as target transgene, and an extremely high-level expression of rhLF ever been achieved as to 29.8 g/l in mice milk. Here to demonstrate the broad application of this strategy, another 38.4 kb mWAP-htPA hybrid gene locus was constructed, in which the 3-kb genomic coding sequence in the 24-kb mouse whey acidic protein (mWAP) gene locus was substituted by the 17.4-kb genomic coding sequence of human tissue plasminogen activator (htPA), exactly from the start codon to the end codon. Corresponding five transgenic mice lines were generated and the highest expression level of rhtPA in the milk attained as to 3.3 g/l. Our strategy will provide a universal way for the large-scale production of pharmaceutical proteins in the mammary gland of transgenic animals.     

绿色荧光蛋白基因导入胡萝卜愈伤组织并获得表达

目的:将绿色荧光蛋白基因(green fluorescent protein,GFP)重组到胡萝卜愈伤组织细胞中,使其获得表达,为今后利用GFP基因作为植物报告基因提供条件。方法:通过冻融法将含有GFP基因的重组表达载体PBI1121转入到根癌农杆菌EHA105中,再利用根癌农杆菌介导的方法将GFP基因导入到胡萝卜愈伤组织细胞中,经过除菌和抗性筛选后观测转化结果。结果:荧光显微镜观测到被转化的愈伤组织在受蓝光激发后发出绿色荧光,利用PCR法扩增出约740bp的目的基因片断。结论:GFP基因在胡萝卜愈伤组织细胞中获得了表达。     

组织型纤溶酶原激活剂A链与尿激酶原B链嵌合分子的构建与表达

利用 Ｄ Ｎ Ａ 重组技术和定位删除技术,将组织型纤溶酶原激活剂（ｔ Ｐ Ａ）的 Ａ 链（ Ｓｅｒｌ Ｔｈｒ２６３）基因与尿激酶原（ｐｒｏ Ｕ Ｋ）的 Ｂ链（ Ｓｅｒ１３８ Ｌｅｕ４１１）基因相连,得到嵌合分子基因ｔｕ ｐａ,并在昆虫杆状病毒系统中进行表达,表达量可达 ５００ Ｉ Ｕ／ｍ ｌ．经单克隆抗体免疫亲和层析纯化细胞表达上清液,得到ｔｕ Ｐ Ａ 嵌合分子,其比活为 ２００ ０００ Ｉ Ｕ／ｍ ｇ 蛋白． Ｓ Ｄ Ｓ Ｐ Ａ Ｇ Ｅ 及 Ｗ ｅｓｔｅｒｎ ｂｌｏｔ 鉴定证明此表达产物分子量约为 ６０ ｋ Ｄ,与预期值相符．纤维蛋白平板测活及纤维蛋白亲和性分析初步证明,此嵌合分子的溶纤活性与ｐｒｏ Ｕ Ｋ 相近,而纤维蛋白亲和性高于 ｐｒｏ Ｕ Ｋ．     

Tristetraprolin Inhibits the Growth of Human Glioma Cells through Downregulation of Urokinase Plasminogen Activator/Urokinase Plasminogen Activator Receptor mRNAs

Urokinase plasminogen activator (uPA) and urokinase plasminogen activator receptor (uPAR) play a major role in the infiltrative growth of glioblastoma. Downregulatoion of the uPA and uPAR has been reported to inhibit the growth glioblastoma. Here, we demonstrate that tristetraprolin (TTP) inhibits the growth of U87MG human glioma cells through downregulation of uPA and uPAR. Our results show that expression level of TTP is inversely correlated with those of uPA and uPAR in human glioma cells and tissues. TTP binds to the AU-rich elements within the 3′ untranslated regions of uPA and uPAR and overexpression of TTP decreased the expression of uPA and uPAR through enhancing the degradation of their mRNAs. In addition, overexpression of TTP inhibited the growth and invasion of U87MG cells. Our findings implicate that TTP can be used as a promising therapeutic target to treat human glioma.     

Impairment of Protein Synthesis in the Retinal Tissue in Diabetic Rabbits: Secondary Reduction of Fast Axonal Transport

Protein biosynthesis in the retina and fast axonal transport along the optic pathway were studied in rabbits in which diabetes had been experimentally induced. Retinal protein biosynthesis and axonal transport were significantly reduced in the diabetic rabbits, and the reduction was correlated to the severity of the diabetes. The "somal delay time' was only slightly elongated and the O/R ratio was fairly constant in the various levels of blood glucose; thus intrasomal protein movement seems to be less affected in diabetic rabbits. Velocity and the distribution pattern of axonally transported protein remained unaffected in the diabetic rabbits. These findings suggest that a disturbance in the metabolism in the cell body is the most important factor related to quantitative reduction of fast axonal transport in diabetic rabbits.     

Plasminogen Activator Inhibitor-1 Antagonist TM5484 Attenuates Demyelination and Axonal Degeneration in a Mice Model of Multiple Sclerosis

Multiple sclerosis (MS) is characterized by inflammatory demyelination and deposition of fibrinogen in the central nervous system (CNS). Elevated levels of a critical inhibitor of the mammalian fibrinolitic system, plasminogen activator inhibitor 1 (PAI-1) have been demonstrated in human and animal models of MS. In experimental studies that resemble neuroinflammatory disease, PAI-1 deficient mice display preserved neurological structure and function compared to wild type mice, suggesting a link between the fibrinolytic pathway and MS. We previously identified a series of PAI-1 inhibitors on the basis of the 3-dimensional structure of PAI-1 and on virtual screening. These compounds have been reported to provide a number of in vitro and in vivo benefits but none was tested in CNS disease models because of their limited capacity to penetrate the blood-brain barrier (BBB). The existing candidates were therefore optimized to obtain CNS-penetrant compounds. We performed an in vitro screening using a model of BBB and were able to identify a novel, low molecular PAI-1 inhibitor, TM5484, with the highest penetration ratio among all other candidates. Next, we tested the effects on inflammation and demyelination in an experimental allergic encephalomyelitis mice model. Results were compared to either fingolimod or 6α-methylprednisolone. Oral administration of TM5484 from the onset of signs, ameliorates paralysis, attenuated demyelination, and axonal degeneration in the spinal cord of mice. Furthermore, it modulated the expression of brain-derived neurotrophic factor, which plays a protective role in neurons against various pathological insults, and choline acetyltransferase, a marker of neuronal density. Taken together, these results demonstrate the potential benefits of a novel PAI-1 inhibitor, TM5484, in the treatment of MS.     

含绿色荧光蛋白标记的木霉表达载体的构建

ACCC 30150是由本实验室筛选的一株对黄瓜枯萎病、青椒疫病等多种土传病害具有较好防治效果的长柄木霉生防菌,为研究其在蔬菜根际的定殖情况,本试验将含绿色荧光蛋白(GFP)和潮霉素B抗性的融合基因交换整合到真核表达骨架载体pNOM102上.通过酶切鉴定和测序鉴定证明目的片段与载体片段连接正确,木霉表达载体pNOM102-HygEGFP构建成功,为下一步进行生防木霉根际定殖研究奠定基础.     

rt-PA治疗急性脑梗死的近期临床疗效及其影响因素分析

目的:探讨重组组织型纤溶酶原激活剂(recombinant tissue plasminogen activator,rt-PA)溶栓治疗急性脑梗死的近期临床疗效及其影响因素。方法:回顾性分析2013年8月至2015年1月于我院神经内科接受rt-PA溶栓治疗的88例急性脑梗死患者的临床资料,分析患者入院及发病24h的美国国立卫生研究院卒中量表(NIHSS)评分,以评分的差值作为结局变量,分为预后良好的观察组(NIHSS差值≥4分或≥50%)及预后不良的对照组(NIHSS差值4分或50%)。选取溶栓前临床及实验室资料,筛选不良预后的可能影响因素,并进行单因素及多因素分析。结果:88例患者溶栓治疗后近期预后良好者46例(52.27%),预后不良者42例(47.73%)。4.5 h内接受溶栓者好转率为57.14%(36/63),4.5 h接受溶栓者好转率为32.00%(8/25),显著低于4.5h内接受溶栓者,差异具有统计学意义(P0.05)。单因素分析结果显示糖尿病史、高密度脂蛋白、血糖、溶栓时间窗、NIHSS评分变量是影响rt-PA溶栓疗效的因素,进一步多因素分析结果显示溶栓时间窗、血糖、NIHSS评分是影响rt-PA溶栓疗效的因素。结论:rt-PA静脉溶栓治疗急性脑梗死的近期疗效有明显的时间依赖性,且血糖、NIHSS评分为早期预后的影响因素。     

含EGFP报告基因的慢病毒载体的构建及有感染能力病毒的制备

目的:构建含EGFP报告基因的慢病毒表达载体,包装成病毒并测定病毒感染效率。方法:以pEGFP-C1为模板扩增EGFP基因,经PstⅠ和XhoⅠ酶切后与载体连接,得到慢病毒表达载体pLenti6/v5-EGFP;将此载体与包装质粒共转染包装细胞制备病毒,测定不同感染复数(MOI)下病毒的感染效率。结果与结论:构建了含EGFP报告基因的慢病毒表达载体,制备了有感染能力的慢病毒。     

Microtubule-dependent Recruitment of Staufen-Green Fluorescent Protein into Large RNA-containing Granules and Subsequent Dendritic Transport in Living Hippocampal Neurons

Dendritic mRNA transport and local translation at individual potentiated synapses may represent an elegant way to form synaptic memory. Recently, we characterized Staufen, a double-stranded RNA-binding protein, in rat hippocampal neurons and showed its presence in large RNA-containing granules, which colocalize with microtubules in dendrites. In this paper, we transiently transfect hippocampal neurons with human Staufen-green fluorescent protein (GFP) and find fluorescent granules in the somatodendritic domain of these cells. Human Stau-GFP granules show the same cellular distribution and size and also contain RNA, as already shown for the endogenous Stau particles. In time-lapse videomicroscopy, we show the bidirectional movement of these Staufen-GFP–labeled granules from the cell body into dendrites and vice versa. The average speed of these particles was 6.4 μm/min with a maximum velocity of 24.3 μm/min. Moreover, we demonstrate that the observed assembly into granules and their subsequent dendritic movement is microtubule dependent. Taken together, we have characterized a novel, nonvesicular, microtubule-dependent transport pathway involving RNA-containing granules with Staufen as a core component. This is the first demonstration in living neurons of movement of an essential protein constituent of the mRNA transport machinery.     

Endogenous GSK‐3/Shaggy Regulates Bidirectional Axonal Transport of the Amyloid Precursor Protein

Neurons rely on microtubule (MT) motor proteins such as kinesin‐1 and dynein to transport essential cargos between the cell body and axon terminus. Defective axonal transport causes abnormal axonal cargo accumulations and is connected to neurodegenerative diseases, including Alzheimer's disease (AD). Glycogen synthase kinase 3 (GSK‐3) has been proposed to be a central player in AD and to regulate axonal transport by the MT motor protein kinesin‐1. Using genetic, biochemical and biophysical approaches in Drosophila melanogaster, we find that endogenous GSK‐3 is a required negative regulator of both kinesin‐1‐mediated and dynein‐mediated axonal transport of the amyloid precursor protein (APP), a key contributor to AD pathology. GSK‐3 also regulates transport of an unrelated cargo, embryonic lipid droplets. By measuring the forces motors generate in vivo, we find that GSK‐3 regulates transport by altering the activity of kinesin‐1 motors but not their binding to the cargo. These findings reveal a new relationship between GSK‐3 and APP, and demonstrate that endogenous GSK‐3 is an essential in vivo regulator of bidirectional APP transport in axons and lipid droplets in embryos. Furthermore, they point to a new regulatory mechanism in which GSK‐3 controls the number of active motors that are moving a cargo .     

Engineering a Novel Multifunctional Green Fluorescent Protein Tag for a Wide Variety of Protein Research

Background

Genetically encoded tag is a powerful tool for protein research. Various kinds of tags have been developed: fluorescent proteins for live-cell imaging, affinity tags for protein isolation, and epitope tags for immunological detections. One of the major problems concerning the protein tagging is that many constructs with different tags have to be made for different applications, which is time- and resource-consuming.

Methodology/Principal Findings

Here we report a novel multifunctional green fluorescent protein (mfGFP) tag which was engineered by inserting multiple peptide tags, i.e., octa-histidine (8×His), streptavidin-binding peptide (SBP), and c-Myc tag, in tandem into a loop of GFP. When fused to various proteins, mfGFP monitored their localization in living cells. Streptavidin agarose column chromatography with the SBP tag successfully isolated the protein complexes in a native form with a high purity. Tandem affinity purification (TAP) with 8×His and SBP tags in mfGFP further purified the protein complexes. mfGFP was clearly detected by c-Myc-specific antibody both in immunofluorescence and immuno-electron microscopy (EM). These findings indicate that mfGFP works well as a multifunctional tag in mammalian cells. The tag insertion was also successful in other fluorescent protein, mCherry.

Conclusions and Significance

The multifunctional fluorescent protein tag is a useful tool for a wide variety of protein research, and may have the advantage over other multiple tag systems in its higher expandability and compatibility with existing and future tag technologies.     

Stem Cells Downregulate the Elevated Levels of Tissue Plasminogen Activator in Rats After Spinal Cord Injury

We investigated the involvement of tPA after SCI in rats and effect of treatment with human umbilical cord blood derived stem cells. tPA expression and activity were determined in vivo after SCI in rats and in vitro in rat embryonic spinal neurons in response to injury with staurosporine, hydrogen peroxide and glutamate. The activity and/or expression of tPA increased after SCI and reached peak levels on day 21 post-SCI. Notably, the tPA mRNA activity was upregulated by 310-fold compared to controls on day 21 post-SCI. As expected, MBP expression is minimal at the time of peak tPA activity and vice versa. Implantation of hUCB after SCI resulted in the downregulation of elevated tPA activity/expression in vivo in rats as well as in vitro in spinal neurons. Our results demonstrated the involvement of tPA in the secondary pathogenesis after SCI as well as the therapeutic potential of hUCB.     

Design and Chemoenzymatic Synthesis of A Tissue Plasminogen Activator Gene with Unique Restriction Sites: A Model for Studying Protein Domain Function

Abstract

We have designed and constructed a cassette tPA gene with unique restriction sites in the interdomain regions. Each domain was chemoenzymatically assembled, cloned and sequenced. We have constructed and expressed the full-length molecule and some deletion mutants.     

Noninvasive Measurement of Bacterial Intracellular pH on a Single-Cell Level with Green Fluorescent Protein and Fluorescence Ratio Imaging Microscopy

We show that a pH-sensitive derivative of the green fluorescent protein, designated ratiometric GFP, can be used to measure intracellular pH (pH_i) in both gram-positive and gram-negative bacterial cells. In cells expressing ratiometric GFP, the excitation ratio (fluorescence intensity at 410 and 430 nm) is correlated to the pH_i, allowing fast and noninvasive determination of pH_i that is ideally suited for direct analysis of individual bacterial cells present in complex environments.     

人组织型纤溶酶原激活剂-水蛭素融合基因的构建及其在毕赤酵母中的表达

构建并表达兼有溶栓和抗凝活性、减少出血副作用的人组织型纤溶酶原激活剂(t-PA)和水蛭素(HV2)的融合蛋白。通过提取总RNA和RT-PCR获得t-PA基因,与HV2基因通过活化凝血因子X(Fxa)识别序列（IEGR）的对应碱基序列连接构成融合蛋白基因,融合蛋白基因经pGEM-T、pIC9克隆至表达载体pIC9K上,电转导入毕赤酵母（Pichia pastoris）GS115。转化子摇瓶内甲醇诱导表达。纤维蛋白平板溶圈法和纤维蛋白凝块法分别检测溶栓和抗凝活性。琼脂糖凝胶电泳结果显示克隆的t-PA基因片段大小为1700bp,序列测定结果表明其35位氨基酸由文献报道的精氨酸突变为色氨酸。限制性酶切和PCR鉴定结果均表明融合蛋白基因已克隆入表达载体和宿主菌。甲醇利用实验、G418抗性筛选获得多拷贝甲醇利用快型克隆。甲醇诱导表达产物具有纤溶活性并可被抗t-PA抗体抑制。完整融合蛋白无抗凝活性,但以Fxa裂解后可释放抗凝活性。同时,融合蛋白以单链和双链两种形式存在。融合蛋白在血栓部位特有的Fxa作用下靶向释放抗凝活性,具有溶栓抗凝双功能,有望降低临床出血副作用。     

Rapid Diffusion of Green Fluorescent Protein in the Mitochondrial Matrix

Abstract. It is thought that the high protein density in the mitochondrial matrix results in severely restricted solute diffusion and metabolite channeling from one enzyme to another without free aqueous-phase diffusion. To test this hypothesis, we measured the diffusion of green fluorescent protein (GFP) expressed in the mitochondrial matrix of fibroblast, liver, skeletal muscle, and epithelial cell lines. Spot photobleaching of GFP with a 100× objective (0.8-μm spot diam) gave half-times for fluorescence recovery of 15–19 ms with >90% of the GFP mobile. As predicted for aqueous-phase diffusion in a confined compartment, fluorescence recovery was slowed or abolished by increased laser spot size or bleach time, and by paraformaldehyde fixation. Quantitative analysis of bleach data using a mathematical model of matrix diffusion gave GFP diffusion coefficients of 2–3 × 10⁻⁷ cm²/s, only three to fourfold less than that for GFP diffusion in water. In contrast, little recovery was found for bleaching of GFP in fusion with subunits of the fatty acid β-oxidation multienzyme complex that are normally present in the matrix. Measurement of the rotation of unconjugated GFP by time-resolved anisotropy gave a rotational correlation time of 23.3 ± 1 ns, similar to that of 20 ns for GFP rotation in water. A rapid rotational correlation time of 325 ps was also found for a small fluorescent probe (BCECF, ~0.5 kD) in the matrix of isolated liver mitochondria. The rapid and unrestricted diffusion of solutes in the mitochondrial matrix suggests that metabolite channeling may not be required to overcome diffusive barriers. We propose that the clustering of matrix enzymes in membrane-associated complexes might serve to establish a relatively uncrowded aqueous space in which solutes can freely diffuse.