Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Research on normal human megakaryopoiesis has been limited by technical problems in obtaining megakaryocytic cells in sufficient quantities for experimental purposes. We describe here an ex vivo serum-free liquid culture system to expand normal human megakaryoblasts from purified bone marrow-, cord blood- or peripheral blood-derived CD34(+) cells. The early megakaryocytic cells are expanded in the presence of recombinant thrombopoietin (TpO) and interleukin-3 (IL-3), and if necessary further purified by employing anti-CD61 immunomagnetic beads. Our expansion system generates normal human megakaryoblasts in quantities sufficient to perform various functional studies on these cells as well as to isolate from them proteins and mRNA for molecular analysis. Megakaryocytic cells isolated from these cultures (i) express several markers characteristic of this lineage (CD41, CD61, CD62 P, CXCR-4, PAR-1, etc.), (ii) respond by calcium flux and phosphorylation of various intracellular proteins to stimulation by thrombin and (iii) adhere to fibrinogen and vitronectin. However, human megakaryoblasts derived from the cultures supplemented with TpO + IL-3, in contrast to murine megakaryocytic cells cultured under similar conditions, display poor polyploidization and do not release platelets. Since IL-3 has been reported to inhibit final maturation of megakaryocytic cells, we recently modified our expansion strategy. In this new approach CD34(+) cells are first expanded for 11 days in the presence of TpO + IL-3. Then megakaryoblasts derived are expanded for an additional 7 days supplemented with TpO only. We found that megakaryocytic cells expanded in this 'two step culture' model are more differentiated, are polyploid and release platelets. The model described here provides normal human megakaryoblasts in adequate numbers, to study megakaryopoiesis and megakaryocyte function.
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PMID:In vitro expansion of human megakaryocytes as a tool for studying megakaryocytic development and function. 1167 71

Angiogenesis is required for tumor growth and metastasis. It has recently been suggested that thrombin is a potent promoter of angiogenesis. We therefore examined the possibility that thrombin could be inducing the expression of vascular endothelial growth factor (VEGF), which promotes endothelial growth. Primary human FS4 fibroblasts as well as tumor cell lines: prostate DU145 and megakaryocyte CHRF were incubated with thrombin (0.25-1 unit/ml) for 1-8 hrs and then examined for mRNA by Northern Analysis. Enhanced mRNA (approximately 3-4 fold over base line) was noted at 2-4 hrs, with 0.5 u/ml thrombin. The effect was specific for thrombin activity on its PAR-1 receptor, since equal units of hirudin completely inhibited the response and the thrombin effect could be mimicked with the 14 mer thrombin receptor activation peptide (TRAP). Upregulation of mRNA was associated with enhanced VEGF protein synthesis and secretion as assayed by immunoblot. Enhanced expression of VEGF mRNA was not secondary to enhanced transcription (nuclear run on experiments), but due to an >3 fold stabilization of mRNA (Actinomycin D chase experiment). Enhanced VEGF mRNA stabilization is promoted by the PI3Kinase and serine/threonine kinase pathways, since thrombin-induced mRNA expression is inhibited by Wortmanin and H7. No effect was noted with the MAPKinase inhibitor, PD98059. Thus, thrombin-induced tumorigenesis and metastasis is associated with enhanced VEGF protein synthesis and secretion via the stabilization of VEGF mRNA promoted by the PI3Kinase and serine/threonine kinase pathways. This could help explain how thrombin promotes angiogenesis.
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PMID:Thrombin induces increased expression and secretion of VEGF from human FS4 fibroblasts, DU145 prostate cells and CHRF megakaryocytes. 1168 29

Extracellular signal-regulated kinases 1 and 2 (ERK1/2) are a group of kinases that play an important role in proliferation and differentiation. In megakaryocyte-like human erythroleukemia (HEL) cells, ERK2 was found to be predominantly expressed and strongly activated by prostaglandin (PG) E(2), thrombin, and epinephrine. On the other hand, adenosine, ADP, ATP, and UTP did not significantly increase ERK1/2 phosphorylation. However, of the agonists tested, only ADP was able to stimulate thymidine uptake. Pretreatment with pertussis toxin abolished the PGE(2) response but had less of an effect on thrombin. PGE(2)- and thrombin-induced ERK1/2 activation was mimicked by 4-beta-phorbol-12-myristate-13-acetate and ionomycin and blocked by mitogen-activated protein kinase kinase inhibitor 1,4 diamino-2,3-dicyano-1,4-bis[2-aminophenylthio]butadiene but displayed differential sensitivity to protein kinase C inhibitor bisindolylmaleimide I and Ca(2+) chelator 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid. Analogs of cAMP or agents that stimulate cAMP production were either weak or ineffective activators. Further studies indicate that the effect of thrombin was blocked by the phosphoinositide 3-kinase inhibitor wortmannin but not by agents inhibiting tyrosine kinase activity. On the contrary, herbimycin, but not wortmannin, attenuated the effect of PGE(2). Collectively, these results indicate that ERK1/2 are selectively activated by G protein-coupled receptors and not functionally associated with proliferation in HEL cells. ERK1/2 activation in response to PGE(2) and thrombin is mediated by distinctive types of G proteins and is differentially regulated by multiple pathways, including calcium mobilization, protein kinase C, phosphoinositide 3-kinase, and tyrosine kinases.
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PMID:Extracellular signal-regulated kinases and g protein-coupled receptors in megakaryocytic human erythroleukemia cells: selective activation, differential regulation, and dissociation from mitogenesis. 1175 34

Mona, also called Gads, is a molecular adapter that plays a key role in T-cell and platelet signalling by linking the adaptors Src homology 2 domain-containing leukocyte phosphoprotein of 76 kDa (Slp-76) and linker for activation of T cells (LAT) upon T-cell receptor and collagen receptor activation. Platelets express a specific form of Mona mRNA, called 1B, which is transcribed from a megakaryocyte-specific promoter. Mona 1B mRNA differ from 1A transcripts found in T cells and some myeloid cells only by the 5'UTR. We report here that 1B mRNA expressing cells do not express detectable amounts of Mona protein, in contrast to 1A expressing cells, and we show that 1B 5'UTR contains upstream open reading frames (uORFs). Mutating the corresponding uAUG restored efficient Mona translation, or that of an unrelated ORF. This suggested that Mona protein expression in 1B mRNA expressing cells is tightly controlled at the translational level. Accordingly, Mona protein was not detected in resting platelets. Strikingly, platelet activation by thrombin resulted in the rapid induction of Mona protein expression, suggesting that translation inhibition of 1B mRNA may be relieved in activated platelets.
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PMID:Upstream open reading frames regulate translation of Mona/Gads adapter mRNA in the megakaryocytic lineage. 1248 79

Using patch- and carbon-fiber electrodes, we studied release phenomena of adenine nucleotides and serotonin from megakaryocytes isolated from the bone marrow of the mouse. Megakaryocytes express ionotropic purinergic receptors on their surfaces. Under the condition of whole cell recording, the cells showed spikelike spontaneous inward currents. The spontaneous currents were carried by cations and had amplitudes of 30-800 pA at -43 mV and durations of 0.1-0.3 s. Pyridoxalphosphate-6-azophenyl-2',4'-disulfonic acid (PPADS; 100 microM) and suramin (100 microM), purinoceptor-blocking agents, depressed the currents reversibly. It is thought that the receptor involved was the P2X1 subtype on the cell and that the currents were due to activation of the P2X1 receptor by adenine nucleotides released from the cell. The currents showed a skewed amplitude distribution, suggesting variation of vesicular contents and/or distinct localization or varied density of receptors on the cell. Frequency of the spontaneous inward currents was enhanced by external application of platelet-activating substances, thrombin (0.4 U/ml), phorbol ester (100 nM), and ADP (2 microM), at low concentrations. With a carbon-fiber electrode, which can detect oxidizable substances including serotonin, spikelike oxidation currents from the external surface of the megakaryocyte were detected. The frequency of the oxidation currents increased remarkably after the application of thrombin (10 U/ml). The majority of the oxidation currents coincided with the rising phase of the whole cell currents, suggesting corelease of serotonin and adenine nucleotide from the same vesicle. We concluded that megakaryocytes store adenine nucleotides and serotonin in the same vesicle and release them simultaneously in a discrete manner.
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PMID:Discrete but simultaneous release of adenine nucleotides and serotonin from mouse megakaryocytes as detected with patch- and carbon-fiber electrodes. 1296 10

RSNOs (S-nitrosothiols) regulate platelet and megakaryocyte function, and may act in vivo as a nitric oxide reservoir. There is a discrepancy between the spontaneous rate of NO release from different RSNO compounds and their pharmacological effects, implying that target cells may mediate biological activity either by metabolism of RSNOs or by displaying cell surface receptors. In the present study, we sought evidence for rapid cell-mediated metabolism of RSNOs. Exposure of platelets to GSNO (S-nitrosoglutathione) for as little as 5 s inhibited thrombin-induced platelet aggregation by >95%; however, AlbSNO (S-nitrosoalbumin) was much less effective over these short time periods. Incubation of 1 microM GSNO or AlbSNO with platelets and megakaryocytes resulted in a 25-34% loss of RSNO recoverable from the supernatant (P <0.02) within 30 s. This rapid cell-mediated RSNO decay did not progress further over 5 min, and could not be accounted for by release of free NO. The gamma-glutamyl transpeptidase inhibitor acivicin (100 microM) partially decreased GSNO decay, whereas the membrane-impermeable thiol-blocking agent 5,5'-dithiobis-(2-nitrobenzoic acid) (100 microM) completely blocked cell-mediated GSNO decay and partially blocked AlbSNO decay. Our results highlight differences between high- and low-molecular-mass RSNOs with regard to their rapid metabolism/uptake and subsequent cellular responses, and indicate a critical role for extracellular thiols in RSNO metabolism by platelets and megakaryocytes.
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PMID:Rapid S-nitrosothiol metabolism by platelets and megakaryocytes. 1464 Oct 87

Peroxisome proliferator-activated receptor gamma (PPARgamma) is a ligand-activated transcription factor important in lipid metabolism, diabetes, and inflammation. We evaluated whether human platelets and megakaryocytes express PPARgamma and whether PPARgamma agonists influence platelet release of bioactive mediators. Although PPARgamma is mainly considered a nuclear receptor, we show that enucleate platelets highly express PPARgamma protein as shown by Western blotting, flow cytometry, and immunocytochemistry. Meg-01 megakaryocyte cells and human bone marrow megakaryocytes also express PPARgamma. Platelet and Meg-01 PPARgamma bound the PPARgamma DNA consensus sequence, and this was enhanced by PPARgamma agonists. Platelets are essential not only for clotting, but have an emerging role in inflammation in part due to their release or production of the proinflammatory and proatherogenic mediators CD40 ligand (CD40L) and thromboxanes (TXs). Platelet incubation with a natural PPARgamma agonist, 15d-PGJ(2), or with a potent synthetic PPARgamma ligand, rosiglitazone, prevented thrombin-induced CD40L surface expression and release of CD40L and thromboxane B(2) (TXB(2)). 15d-PGJ(2) also inhibited platelet aggregation and adenosine triphosphate (ATP) release. Our results show that human platelets express PPARgamma and that PPARgamma agonists such as the thiazolidinedione class of antidiabetic drugs have a new target cell, the platelet. This may represent a novel mechanism for treatment of inflammation, thrombosis, and vascular disease in high-risk patients.
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PMID:Human bone marrow megakaryocytes and platelets express PPARgamma, and PPARgamma agonists blunt platelet release of CD40 ligand and thromboxanes. 1513 Sep 39

Haemophilia A is an attractive target for gene therapy. We designed a haemophilia A gene therapy strategy involving the genetic modification of haematopoietic stem cells to achieve tissue-specific expression of a factor VIII (FVIII) transgene in the megakaryocytic lineage. Platelets would then serve as vehicles to store the expressed FVIII and deliver the coagulation factor at the site of vascular injury. A local correction of the haemostasis defect could, therefore, be expected following platelet activation and secretion. In this study, we demonstrated that a model of haematopoietic cell lines (Dami cells) could produce a correctly processed FVIII. FVIII transgenes were placed under the control of the human platelet glycoprotein IIb (GPIIb) promoter and used for stable transfection of the Dami megakaryocytic cell line. The highest FVIII production was obtained when the FVIII transgene contained a factor IX intron 1 gene sequence inserted in the FVIII intron 1 and 13 sites. Reverse transcription polymerase chain reaction demonstrated that the splicing of these introns was complete. Recombinant FVIII (rFVIII) produced in Dami cells was a biologically active molecule (specific activity: 5664 IU/mg) that was correctly glycosylated and sulphated. This recombinant FVIII protein exhibited biochemical characteristics after deglycosylation or thrombin activation that were comparable to a commercially available B-domainless rFVIII. These results demonstrate the advantages of a modified FVIII transgene and represent the first biochemical characterization of megakaryocyte-produced FVIII.
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PMID:Biosynthesis of FVIII in megakaryocytic cells: improved production and biochemical characterization. 1556 60

Factor Va (FVa), derived from plasma or released from stimulated platelets, is the essential cofactor in thrombin production catalyzed by the prothrombinase complex. Plasma-derived factor V (FV) is synthesized in the liver. The source(s) of the platelet-derived cofactor remains in question. We identified a patient homozygous for the FV(Leiden) mutation, who received a liver transplant from a homozygous wild-type FV donor. Eighteen days post-transplant, phenotypic analysis of the patient's platelet-derived FV indicated that the platelets were acquiring wild-type FV, consistent with the temporal differentiation of megakaryocytes and subsequent platelet production. Nine months post-transplant, the platelet-derived FV pool consisted entirely of wild-type FV. Consequently, megakaryocyte endocytosis of plasma-derived FV must account for the entire platelet-derived pool, because blood-borne platelets cannot bind or endocytose FV. Subsequent to this endocytic process, the patient's platelet-derived FV was cleaved to a partially active cofactor, and rendered resistant to phosphorylation catalyzed by a platelet-associated kinase, and hence less susceptible to activated protein C-catalyzed inactivation. These data provide the first in vivo demonstration of an endocytosed plasma protein undergoing intracellular modifications that alter its function. This process results in the sequestration of active FVa within the platelet compartment, poised for immediate action subsequent to release from platelets at a site of injury.
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PMID:Megakaryocytes endocytose and subsequently modify human factor V in vivo to form the entire pool of a unique platelet-derived cofactor. 1574 31

Human mononuclear phagocytes have recently been shown to express constitutively and even more so, upon stimulation with bacteria, fungi, lipopolysaccharide (LPS), zymosan, or thrombin platelet basic protein (PBP). This CXC chemokine as well as platelet factor 4 (PF4), which is located genomically at a short distance from the PBP, were previously considered to be specific markers for the megakaryocyte cell lineage. Both chemokines have signaling and antimicrobial activity. In the present studies, transcriptional and expressional regulation of PF4 and related chemokines was studied in human monocytes. As shown by quantitative mRNA analysis, Western blots, radioimmunoprecipitation of cell extracts, and immunofluorescence and quantitatively with enzyme-linked immunosorbent assay, human monocytes express PF4 in the same order of magnitude as the known, regulated CXC chemokine interleukin (IL)-8. Expression of PF4 is up-regulated at the mRNA and protein level by thrombin and mediated by proteinase-activated receptors (PARs), resulting in a 32- to 128-fold higher mRNA level and leading to an up-to-sixfold increase of the peptide concentration in monocyte culture supernatants. Thrombin and the synthetic ligand of PAR-1 and PAR-2, SFLLRN, also induced comparable increases in the levels of mRNA for PBP, IL-8, regulated on activation, normal T expressed and secreted (RANTES), monocyte chemoattractant protein-1, and macrophage-inflammatory protein-1alpha and increased synthesis of these chemokines as shown by immunofluorescence or a quantitative immunobead-based method. The induction of increased mRNA levels for all chemokines by SFLLRN was unsurpassed by LPS, zymosan, interferon-gamma (IFN-gamma), tumor necrosis factor alpha (TNF-alpha), and IL-1. Activation of monocytes through PARs represents an alternate activation mechanism, independent from IFN-gamma, TNF-alpha, or other signaling pathways.
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PMID:Regulated expression of platelet factor 4 in human monocytes--role of PARs as a quantitatively important monocyte activation pathway. 1578 41


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