EC:3.4.21.68 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recombinant DNA technology was used to insert a fetal liver genomic library ApaI fragment encoding for human erythropoietin (Epo) into Bowes melanoma cells. The cells expressed the erythropoietin gene, and Epo was secreted into the culture medium together with the normally-secreted tissue plasminogen activator. Attempts to grow the cells in glass spinners in Dulbecco's medium supplemented with fetal bovine serum produced cell aggregates growing in suspension. When calcium-free suspension culture media (Joklik, DME-S, McCoy 5A-S) were used, single cell suspension cultures were obtained and high Epo production observed. When attempts were made to scale up the small glass spinners, poor growth or Epo production occurred unless the vessels were aerated. This was shown to be because of the drop in pH, possibly due to CO2 accumulation, rather than due to oxygen depletion. It was shown that a semi-continuous operation could be achieved in aerated 8-1 spinners fitted with either a conventional stirrer or a vibromixer agitator. The system was scaled up to a 100-1 stainless steel vessel fitted with a vibromixer agitator. This system was operated for over 4 months with weekly harvests producing over 100 million units of Epo in about 1000-1 of culture fluid. Interference by the serum proteins with downstream purification of the hormone from the culture fluid made the use of serum-free media highly desirable. Studies showed that the Epo was produced in serum-free systems containing peptones.
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PMID:Production of recombinant human erythropoietin in Bowes melanoma cells in suspension culture. 136

A major adverse effect of recombinant human erythropoietin (r-HuEPO) in hemodialyzed patients are thrombotic events. Several reports on platelet function during r-HuEPO treatment have been published but less is known about fibrinolysis. In the present study, the fibrinolytic capacity was studied in 20 patients on maintenance hemodialysis and treated with r-HuEPO. The patients were randomized into two groups and investigated in a crossover design. r-HuEPO was administered intravenously and subcutaneously in each group and was given for 3 months, respectively. Plasma tissue plasminogen activator (t-PA) and released t-PA remained unaffected by r-HuEPO in both groups throughout the study. Tissue plasminogen activator inhibitor (PAI) increased in a cyclic way reaching peak values 4-6 weeks after the start of investigation and again 4-6 weeks after changing therapy. The increase in PAI was significant in the two groups (0.025 > p > 0.01). Tissue plasminogen antigen was low in the uremic patients. The influence of r-HuEPO on this parameter was not investigated. Compensatory changes in plasma levels of factor XII procoagulant activity, activated protein C and of alpha 2-antiplasmin were not observed. Thrombotic events occurred in 4 patients at peak values of PAI. Six patients required an increase in heparin dose simultaneously with the increase in PAI. Thus, r-HuEPO seemed to affect the fibrinolytic capacity of uremic patients.
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PMID:Fibrinolytic capacity in hemodialysis patients treated with recombinant human erythropoietin. 143 39

A variety of different fermentation processes has been successfully employed to produce consistent protein-based biopharmaceuticals from genetically engineered animal cells. Chinese hamster ovary (CHO) cells were genetically modified to produce recombinant human soluble CD4, tissue plasminogen activator (tPA) or erythropoietin (EPO). Soluble CD4 was collected from extended perfused fermentations of several months' duration, during which some quantitative loss of DNA copy level, mRNA expression level, and fermentation titer were observed. In one extended run, a novel contaminant appeared in intermediates purified from later harvests. However, in all cases, the final soluble CD4 product was consistent in terms of purity and potency. Evaluation of genetic stability for tPA examined both biological traits at the cellular level as well as potency, purity and structure of product derived from cells at various levels of in vitro age; no significant cell age effects were observed. Similarly, evaluation of the EPO product showed that genetically-determined and process-determined traits such as potency, tryptic peptide mapping, and sialylation were consistent from lot to lot. These data exemplified how process design, process validation, and in-process and quality control assays can be used effectively to ensure the consistency of recombinant products derived from cell culture fermentations.
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PMID:Effects of fermentation on product consistency. 147 31

Two patients (one male and one female) with end stage renal disease on chronic hemodialysis were treated with recombinant human erythropoietin (r-HuEPO). Both patients developed significant clotting in the vascular access and extracorporeal circuits. Coagulation studies indicated that both patients acquired high levels of tissue-type plasminogen activator inhibitor (PAI) with deficiency in tissue-type plasminogen activator (t-PA) and consequent impaired fibrinolysis. Their fibrinolytic activity was normalized with danazol therapy in doses as low as 2-4 mg/kg given orally once daily. We conclude that r-HuEPO-induced thrombosis is associated with impaired fibrinolysis due to acquired elevation of PAI which can be effectively prevented by small doses of danazol.
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PMID:Low dose danazol is effective in management of erythropoietin induced thrombosis. 180 58

A natural antibody with binding specificity for recombinant tissue-type plasminogen activator (t-PA) expressed in mouse C127 cells was present in almost all disease-free humans and patients with thrombotic disease examined. This antibody was specific for a carbohydrate, alpha 1-3-linked galactose residue, and was isolated by affinity chromatography using Synsorb 90 coupled with the glycosidic epitope Gal alpha 1-3Gal beta 1-4Glc-R as an immunoadsorbent. The evaluation of various glycoproteins for ability to bind the purified antibody in ELISA demonstrated that not only recombinant t-PA from C127 cells but also recombinant erythropoietin (EPO) and recombinant protein C produced in C127 cells have alpha 1-3-linked galactose residues on their sugar side chains. This anti-alpha-galactosyl antibody also interacted with natural t-PA from human vascular trees (vascular t-PA) and placenta (placenta t-PA), but not to melanoma t-PA, recombinant t-PA, EPO or protein C expressed in Chinese hamster ovary (CHO) cells.
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PMID:Specificity of human natural antibody to recombinant tissue-type plasminogen activator (t-PA) expressed in mouse C127 cells. 211 46

HPLC analysis of sialic acids released from recombinant variants of human tissue plasminogen activator, human chimeric plasminogen activator, human erythropoietin, and human follitropin, expressed in Chinese hamster ovary cells, demonstrates for each glycoprotein the presence of N-acetylneuraminic acid and N-glycolylneuraminic acid in a ratio of 97:3. Structural analysis by 500 MHz1H-NMR spectroscopy, of the enzymatically released N-linked carbohydrate chains of chimeric plasminogen activator and of erythropoietin, showed that alpha 2-3 linked N-glycolylneuraminic acid can occur in different N-acetyllactosamine type antennary structures.
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PMID:Sialylated carbohydrate chains of recombinant human glycoproteins expressed in Chinese hamster ovary cells contain traces of N-glycolylneuraminic acid. 212 46

The carbohydrate structures of blotted glycoproteins can be analyzed by probing them with lectins. Here we describe a method where lectins conjugated with digoxigenin are used in combination with an anti-digoxigenin antibody AP conjugate as a very sensitive detection system for this type of analysis. The specificity of the lectins used, and the sensitivity of the detection system, provide valuable conclusions on the glycan structures. Only small amounts of glycoproteins are required for the analysis. The binding specificity of a set of lectins is demonstrated with various glycoproteins of defined carbohydrate structure. The application of these labeled lectins in combination with specific glycosidases for the characterization of the carbohydrate chains of recombinant tissue plasminogen activator and erythropoietin is presented.
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PMID:Structural characterization of glycoprotein carbohydrate chains by using diagoxigenin-labeled lectins on blots. 212 61

Clinical trials of recombinant biologic agents have resulted in new treatment options for hematologic, oncologic, and cardiologic disorders. These agents include the interferons, recombinant human erythropoietin (r-HuEPO), colony-stimulating factors (CSFs), interleukins (ILs), and tissue plasminogen activator (t-PA). Interferon alfa has proven efficacious in treating certain hematologic malignancies and solid tumors and has recently been indicated for acquired immunodeficiency syndrome (AIDS)-related Kaposi's sarcoma. Treatment with r-HuEPO has relieved the chronic anemia of hemodialysis patients. Recombinant human granulocyte CSF (G-CSF) or human granulocyte macrophage CSF (GM-CSF) has been used to treat patients after autologous bone marrow transplantation for lymphoid or solid malignancies, resulting in increased production of granulocytes and platelets. G-CSF and GM-CSF have been used to treat aplastic anemia, myelodysplastic syndromes, chemotherapy-induced neutropenia, and neutropenia associated with AIDS. In patients with evolving myocardial infarction, the recombinant agent t-PA has proved more efficacious than streptokinase in terms of average coronary artery patency rates and survival rates in patients with evolving myocardial infarction. While these agents all offer promising therapeutic advances, the expenses associated with developing and testing biotherapeutic substances have resulted in high treatment costs. Since in many instances investigational therapy is the best treatment option available, physicians, patients, the pharmaceutical industry, the government, and insurance carriers must work together to ensure that these therapies are financially available to those in need.
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PMID:New directions in hematologic biotherapy. 247 3

Presented are the steps in creating a recombinant DNA molecule, examples of recombinant drug products, a description of DNA fingerprinting methods for diagnosing diseases, a discussion of the patenting of recombinant drugs, and a look to the future of this revolutionary biotechnology. Constructing a recombinant DNA molecule involves cutting the DNA into fragments with restriction endonucleases and rejoining the fragments in novel arrangements with ligase. Propagating the molecule in a microorganism, or cloning, is necessary to increase the number of gene copies to facilitate detection of the gene of interest and to produce the protein it encodes. Recombinant DNA drug products have been developed that represent the communicator, structural, and modifier classes of proteins. Recombinant communicator proteins include interferons alfa-2a and alfa-2b and granulocyte-macrophage colony-stimulating factor (immune system modulators); epidermal growth factor and erythropoietin (tissue repair promoters); and human insulin, growth hormone, and atrial peptide (metabolism modulators). Recombinant structural proteins include hepatitis B virus vaccine and CD4 protein, and recombinant modifier proteins include tissue plasminogen activator and superoxide dismutase (agents that split or splice organic molecules). In the future, gene defects associated with genetic diseases will be unraveled, leading to the production of new therapeutic agents designed to counteract or actually reverse those defects. Recombinant protein drugs will be further tailored to enhance their activity and specificity. These advances are so novel and momentous that patent protection has been extended not only to recombinant drugs but to the recombinant microorganisms in which they are manufactured. In cloning genes, investigators directly use the protein designs that occur naturally. Basic research will soon lead to the engineering of novel proteins with specified functions.
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PMID:Drug products of recombinant DNA technology. 267 63

Treatment with recombinant human erythropoietin (rhEPO) for the anemia of end-stage renal disease has been associated with thrombotic complications. To detect prothrombotic changes in autologous blood donors given 500 U/kg rhEPO subcutaneously (twice weekly during a 3-week period), changes in variables of hemostasis and fibrinolysis and in blood rheology before and at the end of treatment were investigated. In 21 patients, platelet count increased from 272 +/- 55 x 10(9)/L to 313 +/- 55 x 10(9)/L (p < 0.05). Although activated partial thromboplastin time and protein C antigen decreased significantly during rhEPO treatment, these changes remained within normal ranges. No changes in the hemostatic variables prothrombin time, fibrinogen, factor V, von Willebrand factor antigen, antithrombin III activity, protein S antigen, and prothrombin fragments F 1 + 2 were found. Measurements of plasminogen activity, alpha 2-antiplasmin activity, tissue plasminogen activator, and plasminogen activator inhibitor-1, representing variables of fibrinolysis, were normal and constant during the study. In 5 patients no changes in red cell deformability and whole blood viscosity, corrected for differences in hematocrit, were observed. Plasma viscosity showed a slight but clinically not relevant increase in 4 out of 5 patients. The absence of evident (pro)thrombotc changes in this study confirms the safety of high-dose rhEPO therapy in autologous blood donors, who donate 2 units (i.e., 2 x 450 ml) of blood.
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PMID:The effect of recombinant human erythropoietin on hemostasis, fibrinolysis, and blood rheology in autologous blood donors. 803 97

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