The hydrolysis and resynthesis of a single reactive site peptide bond in recombinant antistasin by coagulation factor Xa.

Antistasin (ATS) is a 119-amino acid, leech-derived protein which exhibits selective, tight-binding inhibition of blood coagulation factor Xa. Prolonged incubation of ATS with factor Xa leads to the highly specific hydrolysis of the peptide bond between residues Arg34 and Val35, implicating this peptide bond as the putative reactive site. We report here the preparation of pure, cleaved (modified) recombinant ATS (rATS) and utilize this material to provide additional proof that the cleaved peptide bond is in fact the reactive site. Modified rATS retains strong inhibitory potency against factor Xa as evidenced by a dissociation constant of 166.3 +/- 9.6 pM; four-fold greater than that of native inhibitor, 43.4 +/- 1.4 pM. Incubation of pure, modified rATS with catalytic amounts of factor Xa results in resynthesis of the hydrolyzed peptide bond, achieving an equilibrium near unity between native and modified inhibitors. Specific removal of the newly formed carboxy-terminal Arg residue from modified rATS by carboxypeptidase B treatment obviates its conversion to native inhibitor coincident with the complete loss of inhibitory activity. These results establish that rATS inhibits factor Xa according to a standard mechanism of serine protease inhibitors and support the contention that the Arg34-Val35 peptide bond constitutes the reactive site.     

Investigation of kinetic parameters in vitro of serine proteinases included in the blood coagulation cascade

During the last years the cases and death due to hemostatic violations exceed that of tumors. Enormous efforts have devoted to the prevention and treatment of some diseases such as arterial thrombosis. Antistasin, a 15 kDa anticoagulant protein isolated from salivary glands of the Mexican leech Haementeria officinalis, has been shown to be a potent inhibitor of Factor Xa in the blood coagulation cascade. Some short analogues which are hybrid structure between isoform 2 and 3 of antistasin and tripeptides inhibitors of serine proteinases were synthesized and reported in our previous work. Inhibitor constants, mechanism, and type of inhibition of some short analogues of antistasin are investigated. These analogs which show high anticoagulant activity in vitro in pure platelet human plasma.     

In vivo bypass of hemophilia A coagulation defect by factor XIIa implant

Hemophilia A and B coagulation defects, which are caused by deficiencies of Factor VIII and Factor IX, respectively, can be bypassed by administration of recombinant Factor VIIa. However, the short half-life of recombinant Factor VIIa in vivo negates its routine clinical use. We report here an in vivo method for the continuous generation of Factor VIIa. The method depends on the implantation of a porous chamber that contains Factor Xa or XIIa, and continuously generates Factor VIIa bypass activity from the subject's own Factor VII, which enters the chamber by diffusion. Once inside, the Factor VII is cleaved to Factor VIIa by the immobilized Factor Xa or XIIa. The newly created Factor VIIa diffuses out of the chamber and back into the circulation, where it can bypass the deficient Factors VIII or IX, and enable coagulation to occur. In vitro, this method generates sufficient Factor VIIa to substantially correct Factor VIII-deficient plasma when assessed by the classical aPTT coagulation assay. In vivo, a Factor XIIa peritoneal implant generates bypass activity for up to one month when tested in rhesus monkeys. Implantation of such a chamber in a patient with hemophilia A or B could eventually provide a viable alternative to replacement therapies using exogenous coagulation factors.     

Expression and characterization of the N-terminal half of antistasin, an anticoagulant protein derived from the leech Haementeria officinalis

Antistasin, a 15-kDa anticoagulant protein isolated from the salivary glands of the Mexican leech Haementeria officinalis, has been shown to be a potent inhibitor of factor Xa in the blood coagulation cascade. Antistasin possesses a twofold internal homology between the N- and C-terminal halves of the molecule, suggesting a gene duplication event in the evolution of the antistasin gene. This structural feature also suggests that either or both halves of the protein may possess biological activity if expressed as separate domains. Because the N-terminal domain contains a factor Xa P1-reactive site, we chose to express this domain in an insect cell baculovirus expression system. Characterization of this recombinant half antistasin molecule reveals that the N-terminal domain inhibits factor Xa in vitro, with a K(i) of 1.7 nM.     

Characterization of recombinant antistasin secreted by Saccharomyces cerevisiae.

Secretion from recombinant yeast was used as a potential source of large quantities of the leech protein antistasin (ATS), a potent and highly specific inhibitor of the serine protease coagulation factor Xa. Mature recombinant ATS (r-ATS) is obtained after intracellular cleavage by the yscF protease of the mating factor alpha-1 pre-proleader from the fusion protein at the Lys-Arg sequence junction. Production levels are relatively low (ca. 1 mg/liter). Purification of the secreted product from a complex growth medium involved cell removal by microfiltration and diafiltration, cation-exchange capture and concentration on S-Sepharose Fast Flow, C-4 reverse-phase high-performance liquid chromatography (RP-HPLC), and HPLC cation-exchange chromatography step, and RP-HPLC concentration and desalting. The process was scaled up from the 16- to the 250-liter level with a corresponding increase in amount of r-ATS. From the 250-liter fermentation two major forms, r-ATS-I and r-ATS-II, distributed approximately 60:40, and a minor form, r-ATS-minor (ca. 1% of the purified r-ATS), were characterized. Limited N-terminal sequence analysis by Edman degradation indicated that r-ATS-I has the predicted mature N-terminus starting with Gln, that r-ATS-II is N-terminally blocked with pyroglutamate, and that r-ATS-minor is an incompletely processed form. RP-HPLC, hydrophilic-interaction HPLC, cation-exchange HPLC analysis, and electrophoresis results are consistent with the differences observed by sequencing. Preliminary in vitro characterization by intrinsic Ki determination for factor Xa inhibition indicated that the yeast r-ATS forms are indistinguishable from each other as well as from r-ATS expressed by the insect baculovirus host-vector system. Nevertheless, r-ATS-I and r-ATS-II appear less potent than insect-derived r-ATS in the activated partial thromboplastin time clotting assay. Further characterization indicated that C-terminal cleavage at Pro-116 had occurred in r-ATS-I and r-ATS-II as well as oxidation of methionine residues to methionine sulfoxide. The possible role of the C-terminus in inhibition of the prothrombinase complex is discussed.     

Coagulation cascade proteases and tissue fibrosis

Fibrotic disorders of the liver, kidney and lung are associated with excessive deposition of extracellular matrix proteins and ongoing coagulation-cascade activity. In addition to their critical roles in blood coagulation, thrombin and the immediate upstream coagulation proteases, Factors Xa and VIIa, influence numerous cellular responses that may play critical roles in subsequent inflammatory and tissue repair processes in vascular and extravascular compartments. The cellular effects of these proteases are mediated via proteolytic activation of a novel family of cell-surface receptors, the protease-activated receptors (PAR-1, -2, -3 and -4). Although thrombin is capable of activating PAR-1, -3 and -4, there is accumulating in vitro evidence that the profibrotic effects of thrombin are predominantly mediated via PAR-1. Factor Xa is capable of activating PAR-1 and PAR-2, but its mitogenic effects for fibroblasts are similarly mediated via PAR-1. These proteases do not exert their profibrotic effects directly, but act via the induction of potent fibrogenic mediators, such as platelet-derived growth factor and connective tissue growth factor. In vivo studies using proteolytic inhibitors, PAR-1 antagonists and PAR-1-deficient mice have provided evidence that coagulation proteases play a key role in tissue inflammation and in a number of vascular pathologies associated with hyperproliferation of smooth muscle cells. More recently, coagulation proteases have also been shown to play a role in the pathogenesis of fibrosis but the relative contribution of their cellular versus their procoagulant effects awaits urgent evaluation in vivo. These studies will be informative in determining the potential application of PAR-1 antagonists as antifibrotic agents.     

Therostasin, a novel clotting factor Xa inhibitor from the rhynchobdellid leech, Theromyzon tessulatum

Therostasin is a potent naturally occurring tight-binding inhibitor of mammalian Factor Xa (K(i), 34 pm), isolated from the rhynchobdellid leech Theromyzon tessulatum. Therostasin is a cysteine-rich protein (8991 Da) consisting of 82 amino acid residues with 16 cysteine residues. Its amino acid sequence has been determined by a combination of techniques, including Edman degradation, enzymatic cleavage, and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) on the native and s-beta-pyridylethylated compound. Sequence analysis reveals that it shares no significant homology with other Factor Xa inhibitors except for the putative reactive site. Moreover, it contains a signature pattern for proteins of the endothelin family, potent vasoconstrictors isolated in mammal and snake venom. Therostasin cDNA (825 bp) codes for a polypeptide of 82 amino acid residues preceded by 19 residues, representing a signal peptide sequence. As for the other known inhibitors of Factor Xa, therostasin is expressed and stored in the cells of the leech salivary glands.     

Interactions and inhibition of blood coagulation factor Va involving residues 311-325 of activated protein C.

Activated protein C (APC) exerts its physiologic anticoagulant role by proteolytic inactivation of the blood coagulation cofactors Va and VIIIa. The synthetic peptide-(311-325) (KRNRTFVLNFIKIPV), derived from the heavy chain sequence of APC, potently inhibited APC anticoagulant activity in activated partial thromboplastin time (APTT) and Xa-1-stage coagulation assays in normal and in protein S-depleted plasma with 50% inhibition at 13 microM peptide. In a system using purified clotting factors, peptide-(311-325) inhibited APC-catalyzed inactivation of factor Va in the presence or absence of phospholipids with 50% inhibition at 6 microM peptide. However, peptide-(311-325) had no effect on APC amidolytic activity or on the reaction of APC with the serpin, recombinant [Arg358]alpha 1-antitrypsin. Peptide-(311-325) surprisingly inhibited factor Xa clotting activity in normal plasma, and in a purified system it inhibited prothrombinase activity in the presence but not in the absence of factor Va with 50% inhibition at 8 microM peptide. The peptide had no significant effect on factor Xa or thrombin amidolytic activity and no effect on the clotting of purified fibrinogen by thrombin, suggesting it does not directly inhibit these enzymes. Factor Va bound in a dose-dependent manner to immobilized peptide-(311-325). Peptide-(311-315) inhibited the binding of factor Va to immobilized APC or factor Xa.(ABSTRACT TRUNCATED AT 250 WORDS)     

Intraoperative coagulation activity--a defined group of trauma surgery patients

Analyses of blood coagulation in a defined group of patients before, during, and after trauma-surgery confirms an intraoperative trigger-mechanism, that causes postoperative thromboembolic complications. They also proof the correlation between extent of tissue-lesion and extent of triggering, this was previously presumed from the postoperative incidence of thromboembolic complications. Apart from the usual blood coagulation tests the following parameters where analysed: Factor VIII: C, Ristocetin-Co-factor, Factor Xa, AT III, TAT, Reptilase-time, tPA, D-dimers, and FPA. Simultaneously, it was shown, that a preoperative prophylaxis of thrombosis can prevent an intraoperative increase of Factor Xa, that plays a key role in postoperative thromboembolic complication. The increased intraoperative turnover of coagulation factors, which is necessary for physiologic blood coagulation, is not prevented.     

人TFF2基因的原核表达与纯化(英文)

人三叶因子2(hTFF2)具有促进细胞迁移和抑制细胞凋亡的活性,所以被认为是胃肠黏膜修复的启动者之一。因为从人组织中获得hTFF2比较困难,而且体外产生的重组hTFF2大都以融合蛋白的形式存在,所以该研究的目的是在体外产生不带任何融合蛋白的游离型hTFF2。hTFF2的开放阅读框被插入pET-32a(+)表达载体,然后在大肠杆菌中表达出带有硫氧还蛋白融合部分的hTFF2融合蛋白。进而利用融合蛋白的组氨酸标签使用镍亲和色谱柱以及反向高压色谱柱对目的蛋白进行纯化。23°C,FXa因子裂解纯度高达95%的融合蛋白以得到游离型hTFF2。在去除FXa因子和尚未被切开的融合蛋白后,获得的游离型hTFF2被SDS-PAGE和Westernblotting所证实。重组游离型hTFF2的产量约为5mg/L,并且hTFF2能促进IEC-6细胞的迁移以及体外的伤口修复,而这些活性是依赖于ERK1/2的激活。同时,hTFF2也能抑制50μmol/L神经鞘氨醇所引起的HCT-116细胞的凋亡。总之,研究结果表明,在大肠杆菌中高产量地成功表达出具有生物学活性的游离型hTFF2,这为研究TFF2的分子机制,以及研制和开发TFF2的相关药物都提供很大的帮助。     

Isolation and characterization of antistasin. An inhibitor of metastasis and coagulation

The purpose of this study was to purify and characterize the agent responsible for the antimetastatic activity of an extract of the salivary glands (SGE) of the Mexican leech Haementeria officinalis. When administered intravenously in mice on the same day as the intravenous inoculation of T241 sarcoma cells, SGE markedly reduces the number and size of lung tumor colonies. In designing a purification protocol for the antimetastatic agent, we postulated that the antimetastatic agent would also display anticoagulant activity. Thus, we discovered that heparin affinity chromatography followed by anion-exchange chromatography results in a fraction highly enriched in both potent anticoagulant activity and potent antimetastatic activity. Approximately, 200-300 micrograms of purified protein is isolated from 150 mg of SGE. As little as 15 micrograms of this material inhibits tumor cell metastasis to the same extent as 1.0 mg of the unfractionated SGE. When analyzed on sodium dodecyl sulfate gels the active fraction consists mainly of one polypeptide band having an apparent molecular weight of approximately 17,000 under either reducing or nonreducing conditions. The protein has a pI of approximately 9.5 and a molecular weight of approximately 17,000 under nondenaturing conditions. A specific antiserum prepared against the 17,000-dalton protein indicated that this protein is the major anticoagulant and antimetastatic agent of leech salivary gland extract. We have termed this anticoagulant, antimetastatic agent "antistasin." We hypothesize that antistatin inhibits coagulation via factor Xa, and not thrombin, since factor Xa, but not thrombin, is rapidly inactivated upon addition of antistasin. The mechanism of antistasin's antimetastatic activity is currently under investigation.     

A novel approach in potential anticoagulants from peptides epitope 558–565 of A2 subunit of factor VIII

Factor VIII, a human blood plasma protein, plays an important role during the intrinsic pathway of blood coagulation cascade after its activation by thrombin. The activated form of FVIII acts as cofactor to the serine protease Factor IXa, in the conversion of the zymogen Factor X to the active enzyme Factor Xa. The Ser⁵⁵⁸–Gln⁵⁶⁵ region of the A2 subunit of Factor VIII has been shown to be crucial for FVIIIa–FIXa interaction. Based on this, a series of linear peptides, analogs of the 558–565 loop of the A2 subunit of the heavy chain of Factor VIII were synthesized using the acid labile 2-chlorotrityl chloride resin and biologically evaluated in vitro by measuring the chronic delay of activated partial thromboplastin time and the inhibition of Factor VIII activity, as potential anticoagulants.     

Activation of coagulation releases endothelial cell mitogens

Recent studies have indicated that endothelial cell function includes elaboration of growth factors and regulation of coagulation. In this paper we demonstrate that activated coagulation Factor X (Factor Xa), a product of the coagulation mechanism generated before thrombin, induces enhanced release of endothelial cell mitogens, linking these two functions. Mitogenic activity generated by cultured bovine aortic endothelial cells in response to Factor Xa included platelet-derived growth-factor-like molecules based on a radioreceptor assay. Effective induction of mitogens by Factor Xa required the integrity of the enzyme's active center and the presence of the gamma-carboxyglutamic acid-containing domain of the molecule. Factor Xa-induced release of mitogens from endothelium occurred in serum-free medium and was not altered by hirudin or antibody to Factor V, indicating that it was a direct effect of Factor Xa and was not mediated by thrombin. Elaboration of mitogenic activity required only brief contact between Factor Xa and endothelium, and occurred in a time-dependent manner. Generation of enhanced mitogenic activity in response to Factor Xa was unaffected by the presence of actinomycin D and was not associated with increased hybridization of RNA from treated cells to a v-sis probe. Release of mitogenic activity was dependent on the dose of Factor Xa, being half-maximal at 0.5 nM and reaching a maximum by 5 nM. Radioligand binding studies demonstrated a class of endothelial cell sites half-maximally occupied at a Factor Xa concentration of 0.8 nM. The close correspondence between the parameters of Factor Xa-induced mitogen release and Factor Xa binding suggests these sites may be related. When Factor X was activated on the endothelial cell surface by Factors IXa and VIII, the Factor Xa formed resulted in the induction of enhanced release of mitogenic activity. These data suggest a mechanism by which the coagulation system can locally regulate endothelial cell function and vessel wall biology before thrombin-induced release of growth factors from platelets.     

Design of constructs for the expression of biologically active recombinant human factors X and Xa. Kinetic analysis of the expressed proteins

Activation of vitamin K-dependent plasma proteases occurs by specific interaction with components of the blood coagulation cascade. In this report, we describe the direct expression and enzymatic characterization of the human coagulation zymogen factor X and its activated form, factor Xa, from transformed Chinese hamster ovary fibroblast cell lines. Expression was achieved using either a full-length factor X cDNA or a unique mutant factor Xa cDNA. The functional factor Xa precursor contained a novel tripeptide bridge in place of the native 52-amino acid activation peptide. This mutation allowed for intracellular processing and secretion of the activated form of factor X. Secreted recombinant factors X (rX) and Xa (rXa) were purified by sequential anion-exchange and immunoaffinity chromatography. The enzymatic activities of factors rX and rXa were compared with those of plasma factors X and Xa in three independent assay systems. In comparison to human plasma factor X, the amidolytic, prothrombinase complex, and plasma clotting activities of factor rX were 50, 85, and 43%, respectively. The corresponding comparative activities for factor rXa were 32, 64, and 48%, respectively. The ability to directly express mutant forms of biologically active human factor X will facilitate the structure/function analysis of this important blood coagulation protein and may lead to the development of novel coagulation inhibitors.     

Functional characterization of recombinant batroxobin, a snake venom thrombin-like enzyme, expressed from Pichia pastoris

A thrombin-like enzyme of Bothrops atrox moojeni venom, batroxobin, specifically cleaves fibrinogen alpha chain, resulting in the formation of non-crosslinked fibrin clots. The cDNA encoding batroxobin was cloned, expressed in Pichia pastoris and the molecular function of purified recombinant protein was also characterized. The recombinant batroxobin had an apparent molecular weight of 33 kDa by SDS-PAGE analysis and biochemical activities similar to those of native batroxobin. The purified recombinant protein strongly converted fibrinogen into fibrin clot in vitro, and shortened bleeding time and whole blood coagulation time in vivo. However, it did not make any considerable alterations on other blood coagulation factors. Several lines of experimental evidence in this study suggest that the recombinant batroxobin is a potent pro-coagulant agent.     

Expression system for synthesis and purification of recombinant human growth hormone in Pichia pastoris and structural analysis by MALDI-ToF Mass Spectrometry

An expression system in Pichia pastoris for the production and purification of recombinant human growth hormone (rHGH) was designed and implemented. hGH cDNA sequence was cloned into pPICZalphaA vector under the control of AOX1 promoter, which included a polyhistidine-tag on the amino terminal end to enable affinity purification and a target site for Factor Xa protease such that protease cleavage in vitro would produce rhGH without any non-native N- and C-termini. Analyses of the affinity-purified rhGH product by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) showed a spectral peak at m/z 23699. Purified product digested with Factor Xa protease had a molecular mass of 22132 kDa. The molecular mass difference before and after Factor Xa protease digestion expectedly corresponds to the 12 amino acids in the rhGH amino terminus, which includes the EcoRI digestion site (Glu-Phe), the 6xHis tag for affinity purification, and the Factor Xa protease recognition sequence (Ile-Glu-Gly-Arg), a result that also indicates that the signal peptide was properly processed by P. pastoris. N-Terminal sequence analysis of the Factor Xa protease trimmed recombinant product confirmed the mature hGH sequence. Thus, the system designed functioned with its intended purpose effectively in expression, cleavage, and purification of the recombinant product.