人组织型纤溶酶原激活剂突变体微小基因的构建

tPA基因全长约36kb,至少由13个内含子分隔为14个外显子。根据tPA的第一、二外显子的编码情况,考虑建立从第二至第六外显子序列在内的tPA微小基因。即将tPA的部分基因组序列与LAtPA cDNA的序列在第六外显子的NarI位点处相连。     

Determination of tissue plasminogen activator by an enzyme-immunoassay method

The sensitive assay method of tissue plasminogen activator was established by an enzyme-immunoassay method, and discriminates tissue (nonurokinase) type plasminogen activator from urokinase. The sensitivity was 0.1 ng/assay tube, and the plasma concentration of tissue plasminogen activator in normal healthy subjects was 1.22 +/- 0.25 ng/ml. Distribution of tissue plasminogen activator was examined in normal tissue. A melanoma cell line was employed as cell culture medium for determination of tissue plasminogen activator.     

Oviduct-specific expression of tissue plasminogen activator in laying hens

Egg-laying hens are important candidate bioreactors for pharmaceutical protein production because of the amenability of their eggs for protein expression. In this study, we constructed an oviduct-specific vector containing tissue plasminogen activator (tPA) protein and green fluorescent protein (pL-2.8OVtPAGFP) and assessed its expression in vitro and in vivo. Oviduct epithelial and 3T3 cells were cultured and transfected with pL-2.8OVtPAGFP and pEGP-N1 (control vector), respectively. The pL-2.8OVtPAGFP vector was administered to laying hens via a wing vein and their eggs and tissues were examined for tPA expression. The oviduct-specific vector pL-2.8OVtPAGFP was expressed only in oviduct epithelial cells whereas pEGP-N1 was detected in oviduct epithelial and 3T3 cells. Western blotting detected a 89 kDa band corresponding to tPA in egg white and oviduct epithelial cells, thus confirming expression of the protein. The amount of tPAGFP in eggs ranged 9 to 41 ng/mL on the third day after vector injection. The tPA expressed in egg white and oviduct epithelial cells showed fibrinolytic activity, indicating that the protein was expressed in active form. GFP was observed only in oviducts, with no detection in heart, muscle, liver and intestine. This is the first study to report the expression of tPA in egg white and oviduct epithelial cells using an oviduct-specific vector.     

Regulation of tissue-type plasminogen activator and plasminogen activator inhibitor type-1 in cultured rat Sertoli and Leydig cells

New data are provided to show that (i) rat Sertoli cells produce two types of plasminogen activators, tissue type (tPA) and urokinase type (uPA), and a plasminogen activator inhibitor type-1 (PAI-1); (ii) both tPA (but not uPA) and PAI-1 secretion in the culture are modified by FSH, forskolin, dbcAMP, GnRH, PMA and growth factors (EGF and FGF), but not by hCG and androstenedione (△4); (iii) in vitro secretion of tPA and PA-PAI-1 complexes of Sertoli cells are greatly enhanced by presence of Leydig cells which produce negligible tPA but measurable PAI-1 activity;(iv) combination culture of Sertoli and Leydig cells remarkably increases FSH-induced PAI-1 activity and decreases hCG- and forskolin-induced inhibitor activity as compared with that of two cell types cultured alone. These data suggest that rat Sertoli cells, similar to ovarian granulosa cells, are capable of secreting both tPA and uPA, as well as PAI-1. The interaction of Sertoli cells and Leydig cells is essential for the cells to response to     

促乳素抑制培养的大鼠颗粒细胞中卵泡素介导的组织纤溶酶原激活因子的表达

本文主要是观察促乳素（ＰＲＬ）是否曩体外培养的大鼠颗粒细胞中,组织纤溶酶原激活因子（ｔＰＡ）和Ｉ型纤溶酶原激活因子抑制因子（ＰＡＩ－Ｉ）基因表达间的协调作用。我们采用了多种方法,例如ＳＤＳ－ＰＡＧＥ、免疫印迹等,来检测ＰＲＬ对ｔＰＡ和ＰＡＩ－Ｉ基因表达的作用。结果证实：（１）在离体条件下促乳素（ＰＲＬ）能刺激颗粒细胞（ＧＣ）中ＰＡＩ－Ｉ ｍＲＮＡ的合成,而ＦＳＨ无此作用。但ＦＳＨ可与ＰＲＬ协同增加     

哺乳动物DNA甲基化修饰的动态调控机制

DNA甲基化是最主要的表观遗传修饰之一,主要发生在胞嘧啶第五位碳原子上,称为5-甲基胞嘧啶。哺乳动物DNA甲基化由从头DNA甲基转移酶DNMT3A/3B在胚胎发育早期建立。细胞分裂过程中甲基化模式的维持由DNA甲基转移酶DNMT1实现。TET家族蛋白氧化5-甲基胞嘧啶成为5-羟甲基胞嘧啶、5-醛基胞嘧啶和5-羧基胞嘧啶,从而起始DNA的去甲基化过程。这些DNA甲基化修饰酶精确调节DNA甲基化的动态过程,在整个生命发育过程中发挥重要作用,其失调也与多种疾病发生密切相关。本文对近年来DNA甲基化修饰酶的结构与功能研究进行讨论。     

Expression of plasminogen activator and plasminogen activator inhibitor mRNA in human fibroblasts grown on different substrates

mRNA levels for urokinase type plasminogen activator (uPA), tissue type plasminogen activator (tPA), plasminogen activator inhibitor-1 (PAI-1) and plasminogen activator inhibitor-2 (PAI-2) were examined in human diploid (neonatal foreskin) fibroblasts grown in 200-ml microcarrier suspension culture. Four different substrates were used. These included gelatin-coated polystyrene plastic, DEAE-dextran, glass-coated polystyrene plastic and uncoated polystyrene plastic. Our previous studies have shown that culture fluids from diploid fibroblasts grown on DEAE-dextran contained higher levels of plasminogen-dependent fibrinolytic activity than culture fluids from the same cells grown on other substrates. The increased plasminogen activator activity was due largely to elevated amounts of tPA (In Vitro Cell. Develop. Biol. 22: 575–582, 1986). The present study shows that there is a corresponding elevation of tPA mRNA in diploid fibroblasts cultured on DEAE-dextran relative to the other substrates. There does not appear to be any difference in uPA mRNA or in mRNA for PAI-1 or PAI-2 produced by the same cells on the four substrates. These data suggest that the influence of the substrate on plasminogen activator production is mediated at the genetic level.     

Thrombolysis with tissue plasminogen activator in patients with acute myocardial infarction

Thrombolytic agents are being employed clinically in increasing numbers of patients in the attempt to eliminate occlusive coronary thrombi in patients with evolving myocardial infarction. When administered by the intracoronary route, streptokinase lyses is successful in coronary thrombi in more than two-thirds of patients, but when administered intravenously is successful in only one-third. Since streptokinase is a nonselective plasminogen activator, it induces fibrinogenolysis when administered selectively or systematically with an attendant marked reduction in plasma fibrinogen levels and significant bleeding complications. In contrast, the action of tissue plasminogen activator (t-Pa) is relatively selective for fibrinolysis (as opposed to fibrinogenolysis). It induces coronary thrombolysis in at least 60% of patients when administered either into a coronary ostium or a peripheral vein without producing substantial reductions in circulating fibrinogen. Bleeding complications are modest and usually related to high administered doses and concomitant heparinization, and occur primarily at sites of vascular access. Thus, t-Pa appears to be a promising agent for thrombolytic treatment of patients with evolving acute myocardial infarction.     

Increased expression of recombinant human tissue plasminogen activator in Leishmania tarentolae

Recombinant tissue plasminogen activator (rt-PA) is one of the most important thrombolytic agents for treating cardiovascular obstructions such as stroke. Glycoprotein rt-PA is a serine protease, consisting of 527 amino acids of which 35 are cysteine residues. A variety of recombinant protein expression systems have been developed for heterologous gene expression in prokaryotic and eukaryotic hosts. In recent years, Leishmania tarentolae has been considered because of its safety aspects and special attributes in expression of complex proteins. In this study, two expression cassettes, each one including two copies of t-PA cDNA, were used for integration into the L. tarentolae genome by electroporation. Transformed clones were selected in the presence of appropriate antibiotics. Expression of active rt-PA was confirmed by Western blot and Zymography tests. Real-time PCR analysis was applied to investigate the presence of multiple t-PA gene copies in the parasite genome. Correlation of t-PA gene dosage and production rate was confirmed with real-time PCR. It was shown that the expression level of rt-PA in L. tarentolae is at least 480 IU/mL of culture media. This concentration of rt-PA is seven times higher than what was reported in previous studies in L. tarentolae and some other eukaryotic systems.     

The role of tissue plasminogen activator in methamphetamine-related reward and sensitization

In the central nervous system, tissue plasminogen activator (tPA) plays a role in synaptic plasticity and remodeling. Our recent study has suggested that tPA participates in the rewarding effects of morphine by regulating dopamine release. In this study, we investigated the role of tPA in methamphetamine (METH)-related reward and sensitization. Repeated METH treatment dose-dependently induced tPA mRNA expression in the frontal cortex, nucleus accumbens, striatum and hippocampus, whereas single METH treatment did not affect tPA mRNA expression in these brain areas. The METH-induced increase in tPA mRNA expression in the nucleus accumbens was completely inhibited by pre-treatment with R(+)-SCH23390 and raclopride, dopamine D1 and D2 receptor antagonists, respectively. In addition, repeated METH treatment increased tPA activity in the nucleus accumbens. There was no difference in METH-induced hyperlocomotion between wild-type and tPA-deficient (tPA-/-) mice. On the other hand, METH-induced conditioned place preference and behavioral sensitization after repeated METH treatment were significantly reduced in tPA-/- mice compared with wild-type mice. The defect of behavioral sensitization in tPA-/- mice was reversed by microinjections of exogenous tPA into the nucleus accumbens. Our findings suggest that tPA is involved in the rewarding effects as well as the sensitization of the locomotor-stimulating effect of METH.     

Role of tissue plasminogen activator in the sensitization of methamphetamine-induced dopamine release in the nucleus accumbens

We have previously demonstrated that repeated, but not acute, methamphetamine (METH) treatment increases tissue plasminogen activator (tPA) activity in the brain, which is associated with the development of behavioral sensitization to METH. In this study, we investigated whether the tPA-plasmin system is involved in the development of sensitization in METH-induced dopamine release in the nucleus accumbens (NAc). There was no difference in acute METH-induced increase in extracellular dopamine levels in the NAc between wild-type and tPA-deficient (tPA−/−) mice. Repeated METH treatment resulted in a significant enhancement of METH- induced dopamine release in wild-type mice, but not tPA−/− mice. Microinjection of exogenous tPA or plasmin into the NAc of wild-type mice significantly potentiated acute METH- induced dopamine release. Degradation of laminin was evident in brain tissues incubated with tPA plus plasminogen or plasmin in vitro although tPA or plasminogen alone had no effect. Immunohistochemical analysis revealed that microinjection of plasmin into the NAc reduced laminin immunoreactivity without neuronal damage. Our findings suggest that the tPA-plasmin system participates in the development of behavioral sensitization induced by repeated METH treatment, by regulating the processes underlying the sensitization of METH-induced dopamine release in the NAc, in which degradation of laminin by plasmin may play a role.     

DNA methylation and tissue culture-induced variation in plants

Summary Plant cells growing in an artificial culture environment make numerous genetic mistakes. These alterations are manifested as increased frequencies of single-gene mutations, chromosome breakages, transposable element activations, quantitative trait variations, and modifications of normal DNA methylation patterns. Evidence is presented that indicates a high frequency of DNA hypomethylation as the result of the tissue culture process. Fifteen percent of the methylation changes appear to have been homozygous in the original regenerated plants. A hypothesis is advanced that relates DNA methylation to the variety of genetic alterations found among maize tissue culture regenerants and their progenies. The epigenetic nature of DNA methylation raises questions concerning the stability of tissue culture-induced changes in self-pollinations and crosses. Presented in the Session-in-Depth Exploitation of Plant Cell Culture Variants at the 1992 World Congress on Cell and Tissue Culture, Washington, DC, June 20–25, 1992.     

DNA甲基化与脊椎动物胚胎发育

DNA甲基化是指DNA甲基转移酶(DNMT)将DNA序列中的5′胞嘧啶转变为5′甲基胞嘧啶的化学修饰, 可以调控基因的时空特异性表达, 从而影响细胞命运决定和分化等生物学过程。近年来研究发现, DNA甲基化在脊椎动物胚胎早期发育中有重要作用, Dnmt基因的缺失会影响胚胎早期发育和多个器官的形成及分化, 如胚胎早期致死、内脏器官和神经系统终末分化缺陷以及血液发生紊乱等。文章总结了DNA甲基化转移酶在小鼠和斑马鱼发育过程中的动态变化, 并系统阐述了DNA甲基化在胚胎早期发育和器官发生中的作用, 重点揭示DNA 甲基化转移酶与组蛋白甲基化转移酶如何协同调控DNA甲基化从而影响基因转录的分子机理。DNA甲基化作为一种关键的表观遗传学因素, 全面系统地理解其在胚胎发育过程中的作用机制对靶向治疗人类相关疾病有一定的理论指导意义。     

Enhanced expression of an antibody-targeted plasminogen activator in Escherichia coli by fusion to decorsin

To improve the thrombolytic specificity of plasminogen activators, an antibody-targeted plasminogen activator was constructed consisting of a single-chain variable fragment of a monoclonal antibody SZ-51 raised specifically against human P-selectins on activated platelets and a low molecular weight single-chain urokinase. After fusion to the 3' end of the gene coding for decorsin, originally isolated from the leech Macrobdella decora, expression of the antibody-targeted plasminogen activator gene in E. coli strain Rosetta (DE3) pLysS was greatly enhanced.     

Production of tissue plasminogen activator (t-PA) in Aspergillus niger

A protease-deficient strain of Aspergillus niger has been used as a host for the production of human tissue plasminogen activator (t-PA). In defined medium, up to 0.07 mg t-PA (g biomass)(-1) was produced in batch and fed-batch cultures and production was increased two- to threefold in two-phase batch cultures in which additional glucose was provided as a single pulse at the end of the first batch growth phase. Production was increased [up to 1.9 mg t-PA (g biomass)(-1)] by the addition of soy peptone to the defined medium. The rate of t-PA production in batch cultures supplemented with soy peptone (0.2 to 0.6 mg t-PA L(-1) h(-1)) was comparable to rates observed previously in high-producing mammalian or insect cell cultures. In glucose-limited chemostat culture supplemented with soy peptone, t-PA was produced at a rate of 0.7 mg t-PA L(-1) h(-1). Expression of t-PA in A. niger resulted in increased expression of genes (bipA, pdiA, and cypB) involved in the unfolded protein response (UPR). However, when cypB was overexpressed in a t-PA-producing strain, t-PA production was not increased. The t-PA produced in A. niger was cleaved into two chains of similar molecular weight to two-chain human melanoma t-PA. The two chains appeared to be stable for at least 16 h in culture supernatant of the host strain. However, in general, <1% of the t-PA produced in A. niger was active, and active t-PA disappeared from the culture supernatant during the stationary phase of batch cultures, suggesting that the two-chain t-PA may have been incorrectly processed or that initial proteolytic cleavage occurred within the proteolytic domain of the protein. Total t-PA (detected by enzyme-linked immunoassay) also eventually disappeared from culture supernatants, confirming significant extracellular proteolytic activity, even though the host strain was protease-deficient.