EC:3.4.21.5 - FACTA Search

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Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to determine whether or not proteins circulating in plasma can be incorporated into megakaryocytes and platelets, horseradish peroxidase (HRP) was injected intravenously into guinea pigs and these cells were examined for uptake by cytochemistry and electron microscopy. Enriched samples of megakaryocytes enabled ultrastructural analysis of large numbers of these rare bone marrow cells. In megakaryocytes, more than 50% of alpha granules contained HRP between 75 minutes and 7 hours after injection. At 24 hours, 25% of the megakaryocyte granules were peroxidase positive; less were so by 48 hours and none at 4 days. Thus, the findings demonstrate that a circulating protein can be endocytosed by megakaryocytes and rapidly packaged into alpha granules. A precipitous drop in circulating platelet numbers was observed 45 minutes after injection. At this time, circulating platelets showed the tracer only on the platelet plasma membrane, and none in platelet granules. Platelet numbers increased to 35% by 7 hours and only the platelet granules contained HRP. These platelets secreted the HRP stored in granules in response to thrombin. Unfortunately, our present studies do not allow us to distinguish between direct endocytosis by the platelet and/or shedding of new platelets from recently labeled megakaryocytes. Our studies are the first to demonstrate an endocytic pathway by which megakaryocytes can incorporate a circulating protein into alpha granules. An important physiologic implication of this endocytic pathway is the possible origin of certain alpha granule proteins from plasma.
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PMID:Incorporation of a circulating protein into alpha granules of megakaryocytes. 293 Aug 54

Purified human platelets were found to contain a collagenase inhibitor that is immunologically, functionally, and chromatographically identical to that produced by human skin fibroblasts. None of the other formed elements of the blood (erythrocytes, granulocytes, mononuclear cells) possessed detectable quantities of this protein. Virtually all the collagenase inhibitor contained within platelets was released following platelet activation with thrombin. Similarly, platelet activation accompanying blood clotting also resulted in the release of this protein, the ratio of plasma to serum inhibitor levels being approximately equal to 0.5. When platelets were subjected to subcellular fractionation, essentially all of the platelet-associated collagenase inhibitor was found to be located in the alpha-granule. Studies with radiolabeled inhibitor failed to detect uptake of inhibitor by platelets. Furthermore, immunologically reactive protein of similar quantity to that found in platelets was identified in human megakaryocyte lysates. Thus, the data suggest that the collagenase inhibitor is endogenously produced and stored within platelet alpha-granules. The platelet-derived collagenase inhibitor was antigenically identical to the collagenase inhibitor from human skin fibroblasts in double immunodiffusion and, like its fibroblast counterpart, inhibited collagenase on a 1:1 stoichiometric basis. When subjected to several of the chromatographic procedures utilized to purify the fibroblast protein, the platelet inhibitor behaved in an indistinguishable manner. Platelet factor 4, previously reported to be a collagenase inhibitor, was found to be immunologically unrelated to the platelet-derived collagenase inhibitor. Furthermore, platelet factor 4 displayed no collagenase inhibitory activity. Although the function of platelet-derived collagenase inhibitor is unknown, such a protein released by activated platelets may serve to regulate collagen turnover during the early stages of the inflammatory process.
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PMID:Platelet-derived collagenase inhibitor: characterization and subcellular localization. 298 37

Monoclonal antibodies were prepared to guinea pig platelets and selected for their ability to inhibit ADP-induced platelet aggregation and ristocetin induced, Ca++-independent platelet agglutination. One antibody, PG-2, produced strong inhibition of aggregation induced by ADP, thrombin, collagen and arachidonic acid, while not inhibiting ristocetin-induced agglutination. A second antibody, PG-1, blocked ristocetin-induced agglutination, but did not inhibit aggregation induced by the previous agents. PG-2 blocked ADP-induced 125I-fibrinogen binding to washed guinea pig platelets by approximately 50%, but did not inhibit ristocetin-induced binding of 125I-vWF. Conversely, PG-1 selectively inhibited ristocetin-induced 125I-vWF binding, with the degree of inhibition inversely related to the ristocetin concentration. These studies suggest that in guinea pig platelets, fibrinogen and von Willebrand factor binding to different membrane sites are responsible for the aggregation response of stimulated platelets and the ristocetin-induced agglutination response respectively. These antibodies offer significant promise for the further development of a guinea pig animal model for studying platelet and megakaryocyte function.
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PMID:Identification of receptors for fibrinogen and von Willebrand factor mediating aggregation in guinea pig platelets. 301 44

A fibrin clot culture system was applied to the cloning of mouse megakaryocyte colony-forming cells (CFU-Meg). The culture medium in this new method consists of Iscove's minimal essential medium containing fetal bovine serum, bovine fibrinogen, bovine thrombin, and pokeweed mitogen-stimulated mouse spleen cell-conditioned medium (PWM-SCM). CFU-Meg colony frequency with 10% PWM-SCM was maximal on days 5-6 of culture. Plating efficiencies averaged 36.1 +/- 3.9 and 51.9 +/- 6.0 per 1.5 X 10(5) BDF1 bone marrow cells and 1.0 X 10(6) spleen cells, respectively. The addition of bovine serum albumin to the culture medium had no effect on the efficiency of megakaryocyte colony growth in this culture system. This simplified and reproducible culture system supported not only the growth of colonies composed of megakaryocytes in "synchronous maturation," but also so-called "heterogenous" megakaryocyte colonies composed of cells in all stages of maturation.
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PMID:Cloning of murine megakaryocyte progenitor cells in a fibrin clot culture system. 330 56

This study has examined changes in proteoglycan synthesis during megakaryocyte maturation in vivo. Guinea pigs were injected with Na235SO4, and megakaryocytes and platelets were isolated from 3 h to 5 days later. The proteoglycans and other sulfated molecules in both cells were characterized at each time point by gel filtration, ion-exchange chromatography, gel electrophoresis, and chemical and enzymatic digestions. Two populations of chondroitin 6-sulfate proteoglycans were found by DEAE-Sephacel chromatography. The major fraction was eluted with 4 M guanidine hydrochloride and the minor fraction with 4 M guanidine HCl, 2% Triton X-100. The Kav of the major proteoglycan peak in the platelets at 1 day after injection was 0.18-0.20 on Sepharose CL-6B and decreased gradually to 0.12 by 3 days, when proteoglycan radioactivity per cell was maximal. The peak for megakaryocyte proteoglycans at 3 h was broad, with Kav = 0.1-0.2. The appearance of different portions of the proteoglycan peak in platelets coincided with their disappearance from megakaryocytes. Proteoglycan size was a function of glycosaminoglycan chain length. The proteoglycans eluted with Triton X-100 from DEAE-Sephacel (Kav = 0.04-0.07 on Sepharose CL-6B) were not labeled in platelets until 2 days after injection. Our data suggest that megakaryocytes synthesize different-sized chondroitin sulfate proteoglycans at different stages of development. The proteoglycans of the major fraction were released from platelets in response to thrombin, and a small amount was released by ADP. The proteoglycans of the Triton X-100 eluate were not released by thrombin or ADP. About 20% of the sulfate radioactivity was incorporated into molecules that appear to be sulfated proteins and were not released by thrombin or ADP.
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PMID:Sulfated proteoglycans and sulfated proteins in guinea pig megakaryocytes and platelets in vivo. Relevance to megakaryocyte maturation and platelet activation. 333 14

Whole blood serum (WBS) and platelet-poor plasma-derived serum (PDS) from the same normal subject were compared for their abilities to support human megakaryocyte (MK) colony formation. In all cases, PDS promoted the growth of a higher number (20-50%) of MK colonies than did WBS. Increasing amounts of WBS decreased the number of colonies, whereas increasing concentration of PDS had no marked effects. Crude platelet extracts or platelet secretory products from thrombin-activated platelets also elicited an inhibition of MK colony formation in a dose-dependent manner. A complete inhibition was found for a dose equivalent to 1.10(9) platelets/ml and a 50% inhibition in a range of 1.10(7)-1.10(8) platelets/ml. These platelet products were also inhibitory for erythroid progenitor growth. Platelets from two patients with gray platelet syndrome elicited only a minor inhibition of MK growth, suggesting that the platelet alpha granule is the origin of this inhibition. When platelet extracts were acid-treated, the biological activity of the inhibitor on CFU-MK and CFU-E growth was 20-50-fold higher. In addition, a potent stimulatory activity on the growth of day 7 CFU-GM was observed. The enhancement of biological activities by acid treatment suggests that type beta transforming growth factor (TGF-beta) could be involved in this platelet inhibitory activity. The homogeneous native TGF-beta (from 1 pg to 1 ng/ml) produced the same effects previously induced by platelet products. It totally inhibited CFU-MK growth (at a 500 pg/ml), it inhibited CFU-E growth, and it stimulated growth of day 7 CFU-GM in the presence of a colony-stimulating factor. The inhibition of CFU-MK growth was also observed on purified progenitors. In conclusion, these results suggest that TGF-beta may be implicated in negative autocrine regulation of megakaryopoiesis. However, since this molecule has ubiquitous biological activities, its physiologic relevance as a normal regulator of megakaryopoiesis requires further investigation.
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PMID:Human platelet alpha granules contain a nonspecific inhibitor of megakaryocyte colony formation: its relationship to type beta transforming growth factor (TGF-beta). 342 78

To determine whether or not proteins circulating in plasma can be incorporated into megakaryocytes and platelets, horseradish peroxidase (HRP) was injected intravenously into guinea pigs and these cells were examined for its uptake by electron microscopy and cytochemistry. Enriched samples of megakaryocytes enabled ultrastructural analysis of large numbers of these rare cells. In megakaryocytes, 50% of alpha granules contained HRP between 75 min and 7 hr after injection. At 24 hr, 25% of the megakaryocyte granules were peroxidase-positive, less were positive by 48 hr, and there were none at 4 days. Thus, the findings demonstrate that a circulating protein can be endocytosed by megakaryocytes and rapidly packaged into alpha granules. Platelet granules also contain HRP by 7 hr after injection, and they can secrete it in response to thrombin. Unfortunately, our present studies do not allow us to distinguish between direct endocytosis by the platelet and/or shedding of new platelets from recently labeled megakaryocytes. It is concluded that while some alpha granule proteins are synthesized by megakaryocytes, others may be acquired from plasma by endocytosis. In addition to providing evidence that some of the proteins of alpha granules may be of exogenous origin, this study has allowed the definition of a pathway whereby plasma proteins may be temporarily sequestered in megakaryocytes before reentering the circulation in platelets.
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PMID:Incorporation of a circulating protein into megakaryocyte and platelet granules. 346 13

Counterflow centrifugal elutriation and Percoll density gradient centrifugation were employed to prepare cell populations from rat bone marrow that were selectively enriched in the cytoplasmically immature megakaryocytes and depleted of the most mature megakaryocytes. The incorporation of [14C]leucine into the platelet-specific alpha-granule protein, platelet factor 4, as well as the incorporation of [35S]sulfate into platelet proteoglycans synthesized by the maturing megakaryocytes were monitored as markers of cytoplasmic maturation. Rat platelet factor 4 was specifically isolated and characterized by its high affinity for heparin-Sepharose and its amino-terminal sequence homology to human and rabbit platelet factor 4. The [35S]sulfate-labeled proteoglycans were primarily composed of chondroitin 4-sulfate glycosaminoglycans and were identified as platelet granule components by their ability to be secreted by megakaryocytes in response to thrombin or A23187. The production of both components was increased as much as 3-fold in a dose-dependent manner by the addition of picomolar concentrations of purified megakaryocyte stimulatory factor, without a concomitant increase in general protein synthesis. The above results suggest that the megakaryocyte stimulatory factor may regulate the synthesis of platelet granule components by megakaryocytes and hence control the rate and/or extent of cytoplasmic maturation during megakaryocyte development.
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PMID:In vitro stimulation of megakaryocyte maturation by megakaryocyte stimulatory factor. 354 4

The suppressive role of platelets on the growth of human marrow megakaryocyte colony forming units (CFU-M) in vitro was investigated by the use of a plasma clot assay. An inverse correlation was established between the number of megakaryocytic colonies grown and the platelet concentration of the plasma or the resultant serum used in the culture system. The suppressive effect of platelets on megakaryocyte colony formation reached a plateau at normal human blood platelet concentration and was specific for CFU-M growth, since marrow cell erythroid burst formation (BFU-E) and granulocytic-monocytic colony formation (CFU-GM) remained unaffected. The inhibitory activity was detectable in the supernatants of platelet suspensions aggregated by thrombin or ADP, and the inhibitory activity released from ADP-stimulated platelets was blocked by pretreatment of platelets with monoclonal antibody HuPl-m1. Partial purification of this activity was achieved by diethylaminoethyl (DEAE)-ion exchange and phytohemagglutinin (PHA)-E agarose affinity chromatography. This inhibitor is a glycoprotein with a molecular weight of 12-17K daltons. This platelet released glycoprotein does not affect the early proliferative phase of CFU-M in vitro but acts on a day 6-8 CFU-M-derived cell by adversely affecting its maturation into recognizable megakaryocytes. These findings demonstrate that a glycoprotein released from platelets suppresses the maturation of CFU-M into megakaryocytes.
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PMID:Suppression of maturation of megakaryocyte colony forming unit in vitro by a platelet-released glycoprotein. 355 91

Although platelets contain Factor V, localized primarily in the alpha-granules, the origin of this coagulation cofactor in these cells is not known. We therefore explored whether isolated megakaryocytes could biosynthesize Factor V. Guinea pig plasma Factor V coagulant activity was demonstrated to be neutralized by human monoclonal and rabbit polyclonal antibodies directed monospecifically against human Factor V. These antibodies had been used earlier to purify human Factor V. These antibodies had been used earlier to purify human Factor V and to quantify Factor V antigen concentration, respectively (1983. Chiu, H. C., E. Whitaker, and R. W. Colman. J. Clin. Invest. 72:493-503). As determined by a competitive enzyme-linked immunosorbent assay with guinea pig plasma as a standard, Factor V solubilized from guinea pig megakaryocytes was present at 0.098 +/- 0.018 micrograms/10(5) cells. Each megakaryocyte contained about 500 times as much Factor V as is in a platelet (0.234 +/- 0.180 micrograms/10(8) platelets). The content of Factor V antigen in guinea pig plasma was greater (27.0 +/- 3.0 micrograms/ml) than that of Factor V antigen in human plasma (11.1 +/- 0.4 micrograms/ml). In contrast, human platelets contain ninefold more Factor V antigen (2.01 +/- 1.09 micrograms/10(8) platelets) than do guinea pig were 2.85 +/- 0.30 U/ml plasma, 0.022 +/- 0.012 U/10(8) platelets, and 0.032 +/- 0.03 U/10(5) megakaryocytes, compared with human values of 0.98 +/- 0.02 U/ml plasma and 0.124 +/- 0.064 U/10(8) platelets. Isolated megakaryocytes were found to contain Factor V by cytoimmunofluorescence. The megakaryocytes were incubated with [35S]methionine, and radiolabeled intracellular proteins purified were on a human anti-Factor V immunoaffinity column. The purified protein exhibited Factor V coagulant activity and neutralized the inhibitory activity of a rabbit antihuman Factor V antibody, which suggests that megakaryocyte Factor V is functionally and antigenically intact. These results indicate that Factor V is synthesized by guinea pig megakaryocytes. Nonetheless, megakaryocyte Factor V was more slowly activated by thrombin and in the absence of calcium was more stable after activation than was plasma Factor Va. Electrophoresis in sodium dodecyl sulfate and autoradiography of the purified molecule showed a major band of Mr 380,000 and a minor band of Mr 350,000, as compared with guinea pig and human plasma Factor V, where the protein had an Mr of 350,000. Both forms of Factor V were substrates for thrombin. Possible explanations for the higher molecular weight and different thrombin sensitivity and stability observed are that a precursor of Factor V was isolated or that the megakaryocyte Factor V had not been fully processed before isolation.
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PMID:Biosynthesis of factor V in isolated guinea pig megakaryocytes. 397 8

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