人组织型纤溶酶原激活剂（t—PA）突变体FrGGI的构建,表达及特性…

为了获得半衰期延长,特异活性提高及具有ＰＡＩ－１抗性的新型ｔ－ＰＡ溶性剂,利用基因重组及定位突变技术构建了ｔ－ＰＡ的Ｋ１、Ｋ２区糖基化位点消除,ＰＡＩ－１结合位点缺失,Ｆ与Ｅ区连接序列Ｈｉｓ４４￣Ｓｅｒ５０置换为纤粘蛋白Ｉ型Ｆ区间连接序列Ｇｌｕ Ｓｅｒ Ｌｙｓ Ｐｒｏ Ｇｌｕ Ａｌａ Ｇｌｕ Ｇｌｕ的ｔ－ＰＡ组合突变体ＦｒＧＧＩ,并在中国仓鼠卵巢细胞中获得了高效表达,对表达产物的生物学特性分析表明     

人组织型纤溶酶原激活剂（t－PA）突变体FrGGI的构建、表达及特性分析

为了获得半衰期延长,特异活性提高及具有ＰＡＬ－１抗性的新型ｔ－ＰＡ溶栓剂,利用基因重组及定位突变技术构建了ｔ－ＰＡ的Ｋ１、Ｋ２区糖基化位点消除,ＰＡＩ－１结合位点缺失,Ｆ与Ｅ区连接序列Ｈｉｓ４４～Ｓｅｒ５０置换为纤粘蛋白Ⅰ型Ｆ区间连接序列ＧｌｕＳｅｒＬｙｓＰｒｏＧｌｕＡｌａＧｌｕＧｌｕ的ｔ－ＰＡ组合突变体ＦｒＧＧＩ,并在中国仓鼠卵巢细胞中获得了高效表达。对表达产物的生物学特性分析表明,ＦｒＧＧＩ在大鼠血浆中的半衰期延长了１５倍,并获得了ＰＡＩ－１抗性,是一株很有希望的新型溶栓剂候选株。     

凝血酶激活的单链尿激酶型纤溶酶原激活剂的构建、表达、纯化和性质研究

用Ｋｕｎｋｅｌ突变法,将单链尿激酶型纤溶酶原激活剂（ｓｃｕ－ＰＡ）ｃＤＮＡ基因中编码Ｐｒｏ１５５—Ｌｙｓ１５８的片段定点突变,并将此突变的ｓｃｕ－ＰＡ（ｔｓｃｕ－ＰＡ）的ｃＤＮＡ克隆到表达载体ｐＣＭ－β－ｎｅｏ中,与ｐＣＭ－ｄｈｆｒ共转染ＣＨＯ／ＤＨＦＲ－细胞．获得的稳定表达株在无血清培养基中２４ｈ的表达量为６２０ＩＵ／１０６细胞．经锌离子螯合Ｓｅｐｈａｒｏｓｅ亲和层析得到ｔｓｃｕ－ＰＡ纯品．ＳＤＳ－ＰＡＧＥ显示ｔｓｃｕ－ＰＡ分子量为５３ｋＤ左右,与预期的结果相符．ｔｓｃｕ－ＰＡ是由凝血酶激活而不是由纤溶酶激活,但激活后也能转变为双链分子（ｔｃｕ－ＰＡ）．ｔｓｃｕ－ＰＡ仍保持了ｓｃｕ－ＰＡ的血纤维蛋白亲和性．酶动力学研究表明,激活后的ｔｓｃｕ－ＰＡ水解Ｓ２４４４的Ｋｍ和Ｋｃａｔ值与高分子量尿激酶（ＨＵＫ）相似．体外溶栓实验结果表明,ｔｓｃｕ－ＰＡ可以选择性地溶解富含凝血酶的血凝块,对贫凝血酶的血凝块作用不大     

t—PA S165W突变体的分子设计及其生物活性的初步分析

为得到对纤维蛋白的亲和力提高的ｔ－ＰＡ突变体,采用计算机分子技术提出对纤维蛋白亲和力提高的ｔ－ＰＡ结构改造方案（ｔ－ＰＡＳ１６５Ｗ）,并将共在ＣＨＯ细胞中进行表达,对表达产物进行生物活性及与纤维蛋白亲和力的分析表明;ｔ－ＰＡ Ｓ１６５Ｗ突变体与野生型ｔ－ＰＡ对蛋白的亲和力没有明显的变化,说明单一的Ｓ１６５Ｗ的点 变并不能导致ｔ－ＰＡ对蛋白亲和力的提高。     

u-PA/t-PA嵌合型纤溶酶原激活剂(ut-PA)的构建、表达、纯化和性质研究

将尿激酶原（ｐｒｏ－ＵＫ）ｃＤＮＡ和组织型纤溶酶原激活剂（ｔ－ＰＡ）Ａ链ｃＤＮＡ克隆到Ｍ１３ｍｐ１８中,经过二次寡核甘酸诱导的大片段定点删除和一次寡核苷酸诱导的多位点突变,得到ｕ－ＰＡ（Ｌｅｕ１４４－Ｇｌｙ４０８）／ｔ－ＰＡ（Ｓｅｒ１－Ｔｈｒ２６３）（ｕｔ－ＰＡ）融合基因．将ｕｔ－ＰＡ融合基因克隆到表达载体ｐＣＭ－βｎｅｏ中,与ｐＣＭ－ｄｈｆｒ共转染ＣＨＯ／ＤＨＦＲ－细胞,筛选稳定表达株．收集无血清表达上清,经苯甲脒柱纯化得到ｕｔ－ＰＡ纯品,ＳＤＳ－ＰＡＧＥ和纤维蛋白自显影显示ｕｔ－ＰＡ有两种分子量形式,分子量分别为６８ｋＤ和６１ｋＤ．纤维蛋白亲和性试验表明,ＬＵＫ（低分子量尿激酶）对纤维蛋白没有亲和性,而含有ＬＵＫ的ｕｔ－ＰＡ则对纤维蛋白表现出很强的亲和性,但ｕｔ－ＰＡ的亲和性略低于亲本ｔ－ＰＡ．     

纤溶酶原激活物抑制因子－1突变体E350G，E351K的构建及性质研究

利用ＰＣＲ扩增和合成突变引物的方法,将ＰＡＬ－１的Ｇｌｕ３５０和Ｇｌｕ３５１分别突变为Ｇｌｙ和Ｌｙｓ,在大肠杆菌中表达并分离纯化突变体ＰＡＬ－１（Ｅ３５０Ｇ,Ｅ３５１Ｋ）,用盐酸胍激活并以ＥＬＩＳＡ法确定它与野生型ｒＰＡＩ－１的相对含量。通过对ｕ－ＰＡ,ｔ－ＰＡ抑制的动力学研究表明,突变体与野生型ｒＰＡＩ－１相比,对ｕ－ＰＡ和ｔ－ＰＡ的抑制活性都有明显下降,由活性态向潜伏态转变的半寿期也由０．８３ｈ缩短为０．５７ｈ。     

纤溶酶原激活物抑制因子—1突变体E350G,E351K的构建及性质研究

利用ＰＣＲ扩增和合成突变引物的方法,将ＰＡＩ－１的Ｇｌｕ３５０和Ｇｌｕ３５１分别突变为Ｇｌｙ和Ｌｙｓ在大肠杆菌中表达并分离纯化突变体ＰＡＩ－１（Ｅ３５０Ｇ,Ｅ３５１Ｋ）有 酸胍激活并以ＥＬＩＳＡ法确定它与野生型ｒＰＡＩ－１的相对含量,通过对ｕ－ＰＡ抑制的动力学研究表明,突变体与野生型ｒＰＡＩ－１相比,对ｕ－ＰＡ和ｔ－ＰＡ的抑制活性都有明显下降,由活性态向潜伏态转变的半寿期也由０．８３ｈ缩短为０．５     

SDS－聚丙烯酰胺凝胶电泳纤维蛋白自显影法检测不同分子量的纤溶酶原激活剂

ＳＤＳ－聚丙烯酰胺凝胶电泳（ＳＤＳ－ＰＡＧＥ）纤维蛋白显影方法是经ＳＤＳ－ＰＡＧＥ将不同分子量的纤溶酶原激活剂（ＰＡ）分开,然后再转溶纤维蛋白板使之产生溶带而检测ＰＡ物质活性及分子大小的方法。此法与Ｗｅｓｔｅｒｎ印迹方法比具有检测更简便、灵敏、快速的特点,且是活性检测,但其分子量分析精度不如Ｗｅｓｔｅｒｎ印迹法。本研究用ＳＤＳ－ＰＡＧＥ纤维蛋白自显影方法对本室表达的重组组织型－ｐＡ（ｒｔ－ＰＡ）及突变体Ｎｌｌ７Ｑ／Ｎｌ８４Ｑ／△（Ｋ２９６——Ｇ３０２）及标准尿激酶（ＵＫ）和ｒｔ－ＰＡ进行了分析鉴定。     

转译优化对EPO基因在COS7细胞中表达的影响

利用ＣＯＳ７细胞暂时表达系统,研究转译起始序列对ＥＰＯ－ｃＤＮＡ表达的影响。通过ＤＮＡ重组技术,构建了原ＥＰＯ－ｃＤＮＡ表达载体ｐＣＳＶ－ＥＰＯ（１）,其转译起始序列为５＇ＡＡＴＴＣＡＴＧＧ３＇。同时通过定点突变技术,将起始序列改变成５＇ＣＣＡＣＣＡＴＧＧ３＇,而构建了另一表达载体ＰＣＳＶ－ＥＰＯ（２）。后经序列分析证明无误后和前均通过ＤＥＡＥ－ｄｅｘｔｒａｎ法转染ＣＯＳ７细胞上清,测定结果为     

用蛋白质工程方法改变葡萄糖异构酶最适pH和最适温度

用寡核苷酸诱导的定点突变方法构建了葡萄糖异构酶基因的突变体（Ｎ１８４Ｄ和Ａ１９８Ｃ）。含突变体的重组质粒ｐＴＫＤ－ＧＩ１（Ｎ１８４Ｄ）和ｐＴＫＤ－ＧＩ２（Ａ１９８ｃ）在Ｅ．ｃｏｌｉＫ３８菌株中表达,用ＤＥＡＥ－Ｓｅｐｈａｒｏｓｅ ＦＦ和Ｓｅｐｈａｃｒｙｌ Ｓ－３００ＨＲ柱层析分离纯化突变酶。与野生型葡萄糖异构酶比较实验表明：（１）突变酶Ｎ１８４Ｄ的最适ｐＨ值下降了１个单位;等电点下降了０．６个单位     

人组织型纤溶酶原激活剂(t-PA)突变体FrGGI的构建、表达及特性分析

为了获得半衰期延长,特异活性提高及具有PAI—1抗性的新型t-PA溶栓剂,利用基因重组及定位突变技术成功地构建了t-PA的K1、K2区糖基化位点消除,PAI-1结合位点缺失,F与E区连接序列His44～Ser50置换为纤粘蛋白Ⅰ型F区间连接序列GluSerLysProGluAlaGluGlu的t-PA的组合突变体FrGGI,并在中国仓鼠卵巢细胞中获得了高效表达。对表达产物的生物学特性分析表明,FrGGI在大鼠血浆中的半衰期延长了15倍,特异活性提高了40％,并获得了PAI-1抗性,是一株很有希望的新型溶栓剂候选株。     

Binding of mutant tissue-type plasminogen activators to human endothelial cells and their extracellular matrix

We previously demonstrated that tissue-type plasminogen activator (t-PA) specifically bound to its receptor (t-PAR) on human umbilical vein endothelial cells (HUVEC). In addition to analyses of t-PA binding to plasminogen activator inhibitor-1 (PAI-1) in the extracellular matrix (ECM) and to the t-PAR, we further evaluated the binding of three t-PA mutants, deltaFE1X t-PA lacking finger (F), epidermal growth factor-like (E) domains and one sugar chain at Asn177 thus comprising two kringles (K1 and K2) and protease (P) domains, deltaFE3X t-PA with three glycosylation sites deleted at Asn117, 184, and 448, and deltaFEK1 t-PA comprising K2 and P domains without glycosylation. Wild-type t-PA bound to ECM with high affinity, which was completely blocked by anti-PAI-1 IgG. Wild-type t-PA, deltaFE1X t-PA and deltaFEK1 t-PA bound to two classes of binding sites with high and low affinities on monolayer HUVEC. However, all t-PAs bound to a single class of binding site in the presence of anti-PAI-1 IgG. DeltaFEK1 t-PA bound t-PAR maximally among these t-PAs. These results suggested that the high affinity binding of t-PA mainly occurred with PAI-1 on ECM while the low affinity binding was with t-PAR. The deletion of F, E domains and sugar chains had no effect on binding with t-PAR. However, since only K1-missing t-PA (deltaFEK1) exhibited significantly increased binding sites among these t-PAs, it was suggested that the binding to t-PAR was mediated mainly by K2 domain and that the increase of binding was due to direct exposure of K2 domain.     

抗PAI抑制作用的纤溶酶原激活剂突变体的活性研究

目的:重组表达抗PAI抑制作用的t-PA突变体,经诱导表达、复性、纯化后进行生物学活性和酶动力学分析。方法:构建pBV220-tpa重组表达质粒,经DNA测序确认后,转化至大肠杆菌DH5a,温控诱导表达,凝胶过滤法对包涵体蛋白进行初步纯化,复性后,过刺桐胰蛋白酶亲和层析柱纯化,酶动力学分析其活性。结果:测序证实,t-PA突变体的DNA序列正确,表达蛋白占总菌体蛋白的30%,经纯化后纯度达90%以上,比活性为7.0×108IU/mg,t-PA突变体与PAI-1反应后,其活性未受到抑制。t-PA突变体酶的米氏常数Km为0.5298,最大水解速度Vmax为0.0595。结论:经生物学活性测定,表达蛋白能够明显抵抗PAI的抑制作用,并具有良好的生物活性,该突变体有可能成为用量更少、疗效更佳的新型溶栓药物。     

Combined TGE-SGE expression of novel PAI-1-resistant t-PA in CHO DG44 cells using orbitally shaking disposable bioreactors

An important modification of thrombolytic agents is resistance to plasminogen activator inhibitor-1 (PAI-1). In previous studies, a new truncated PAI-1-resistant variant was developed based on deletion of the first three domains in t-PA and the substitution of KHRR 128-131 amino acids with AAAA in the truncated t-PA. The novel variant expressed in a static culture system of Chinese Hamster Ovary (CHO) DG44 cells exhibited a higher resistance to PAI-1 when compared with the full-length commercial drug; Actylase. In the present study, the truncatedmutant protein was expressed in CHO DG44 cells in 50 ml orbital shaking bioreactors. The final yield of the truncatedmutant in the culture was 752 IU/ml, representing a 63% increase compared with the static culture system. Therefore, these results suggest that using the combined features of a transient and stable expression system is feasible for the production of novel recombinant proteins in the quantities needed for preclinical studies.     

Characterization of interaction of active-site serine mutants of tissue-type plasminogen activator with plasminogen activator inhibitor-1

To define determinants of interactions of tissue-type plasminogen activator (t-PA) with plasminogen activator inhibitor type-1 (PAI-1), we utilized site-directed mutagenesis to substitute either threonine or glycine for the active-site serine of tissue-type plasminogen activator. Assays of conditioned media of transfected cells demonstrated that the threonine substitution markedly decreased but did not entirely abolish plasminogen activating activity. In contrast, the glycine substitution yielded a mutant with absolutely no detectable plasminogen activating activity. Wild-type t-PA formed stable complexes with PAI-1. However, even when exogenous inhibitor was present in the medium or purified mutant was added to plasma that had been rendered PAI-1-rich in vivo, the mutants were present in the free form exclusively judging from results of fibrin autography and Western blot analysis. Thus, despite maintenance of some residual plasminogen-activating activity associated with preservation of the hydroxyl group at the active site, the threonine mutant did not form stable complexes with inhibitor. The glycine mutant, developed so that steric hindrance or other unfavorable interactions at the modified active site would be minimal, was similarly incapable of forming complexes with PAI-1. These results show that the presence of an active site serine residue is necessary for formation of stable complexes between t-PA and PAI-1.     

19F NMR studies of plasminogen activator inhibitor-1

Plasminogen activator inhibitor-1 (PAI-1) is a 43 kDa protein involved in the regulation of fibrinolysis. PAI-1 is the principal inhibitor of tissue-type plasminogen activator (t-PA), trapping the proteinase as an acyl-enzyme covalent complex (approximately 105 kDa). Four single tryptophan mutants of PAI-1 have been constructed in which three of the four tryptophan residues (Trp86, Trp139, Trp175, and Trp262) were replaced with phenylalanine. Biosynthetic incorporation of 5-fluorotryptophan (5F-Trp) into wild-type PAI-1 (5FW wtPAI-1) and the single tryptophan mutants (5FW86, 5FW139, 5FW175, and 5FW262) was achieved, allowing a (19)F NMR spectroscopic study of PAI-1 in its active and cleaved forms and in complex with t-PA. The (19)F NMR spectrum of active 5FW wtPAI-1 shows four clearly resolved peaks at -39.20, -49.26, -50.74, and -52.57 ppm relative to trifluoroacetic acid at 0 ppm. Unequivocal assignments of these four resonances in the spectrum of 5FW wtPAI-1 to specific tryptophan residues were accomplished by measuring the chemical shifts of the (19)F resonances of the single tryptophan mutants. There was close agreement between the resonances observed in 5FW wtPAI-1 and of those in the mutants for all three protein forms. This would imply little structural perturbation in the local structures of the tryptophan residues resulting from substitution by phenylalanine. The 5FW wtPAI-1 was observed to have lower second-order rate constant (k(app)) for the inhibition of t-PA than the natural tryptophan wtPAI-1, suggesting that the decreased activity may result from a small structural effect of the fluorine substituent of the indole ring. Further alterations in the k(app) and the stoichiometry of inhibition (SI) were observed in each of the mutants indicating an effect of the three tryptophan to phenylalanine mutations. Detailed interpretation of the (19)F NMR spectra of the PAI-1 mutants provides insights into the local segmental structure of the active form of the proteins and the structural changes that occur in the cleaved and t-PA complexed forms.     

Vitronectin governs the interaction between plasminogen activator inhibitor 1 and tissue-type plasminogen activator.

The "serpin" plasminogen activator inhibitor 1 (PAI-1) is the fast acting inhibitor of plasminogen activators (tissue-type (t-PA) and urokinase type-PA) and is an essential regulatory protein of the fibrinolytic system. Its P1-P1' reactive center (R346 M347) acts as a "bait" for tight binding to t-PA/urokinase-type PA. In vivo, PAI-1 is encountered in complex with vitronectin, an interaction known to stabilize its activity but not to affect the second-order association rate constant (k1) between PAI-1 and t-PA. Nevertheless, by using PAI-1 reactive site variants (R346M, M347S, and R346M M347S), we show that the binding of vitronectin to the PAI-1 mutant proteins improves plasminogen activator inhibition. In the absence of vitronectin the PAI-1 R346M mutants are virtually inactive toward t-PA (k1 less than 1 x 10(3) M-1 s-1). In contrast, in the presence of vitronectin the rate of association increases about 1,000-fold (k1 of 6-8 x 10(5) M-1 s-1). This inhibition coincides with the formation of serpin-typical, sodium dodecyl sulfide-stable t-PA.PAI-1 R346M (R346M M347S) complexes. As evidenced by amino acid sequence analysis, the newly created M346-M/S347 peptide bond is susceptible to attack by t-PA, similar to the wild-type R346-M347 peptide bond, indicating that in the presence of vitronectin M346 functions as an efficient P1 residue. In addition, we show that the inhibition of t-PA and urokinase-type PA by PAI-1 mutant proteins is accelerated by the presence of the nonprotease A chains of the plasminogen activators.