UMLS:C0344329 - FACTA Search

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Query: UMLS:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thrombin generation is the culminating event of the coagulation cascade. It is initiated after the expression of tissue factor by endothelial cells and monocytes exposed to thrombogenic stimuli. Anionic phospholipids, chiefly phosphatidylserine, are necessary for the optimal activity of tissue factor and completion of the clotting process. They display a catalytic potential by allowing the formation of the characteristic enzyme complexes at the membrane surface. Platelets are viewed as the main source of procoagulant phospholipid referred to as platelet factor 3. The plasma membrane of resting cells presents an asymmetrical distribution of phospholipids, aminophospholipids being sequestered in the inner leaflet. Procoagulant phospholipids become available at the outer surface after cell stimulation. The collapse of the membrane asymmetry is thought to promote a phospholipid scrambling accompanied by the shedding of microparticles. The plasma membranes of such vesicles bear irreversibly externalized procoagulant phosphatidylserine and contain glycoproteins that testify to their tissue origin. Hence, microparticles could disseminate a dual procoagulant and adhesive potential. Thrombin autoamplification is exerted through feedback activation loops involving either coagulation factors or platelets. This article details the mechanisms by which procoagulant phospholipids promote the generation of an excess of thrombin. A new pharmacological approach of thrombosis is presented, based on the control of the exposure of procoagulant phospholipids and membrane microparticle shedding.
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PMID:Physiopathological significance of catalytic phospholipids in the generation of thrombin. 880 13

The effects of parathyroid hormone (PTH) on 1,4,5-inositol triphosphate (1,4,5-IP3) and intracellular free calcium (Cai2+) in osteoblasts are variable, whereas adenylate cyclase activity is consistently stimulated. Cyclic AMP is considered a mediator in the contractile effects of PTH on osteoblasts, but the regulation and role of Cai2+ remains unclear. Recent studies indicate that protein kinase C (PKC) inhibits PTH-stimulated Cai2+ increases in osteoblastic cells. Therefore, the objectives of this study were to determine the effects of PKC modulators and PTH on UMR 106-H5 rat osteoblastic cell morphology, and the relationship between cell shape and PTH-induced Cai2+ changes. In suspended cells loaded with the calcium indicator dye fura-2, pretreatment with PKC inhibitors calphostin C (100 nM x 1 h) and H-7 (30 microM x 18 h) potentiated the effects of 1 microgram/ml bPTH (1-84) on Cai2+ (83% increase over basal) by 1.4- and 1.65-fold, respectively. In comparison, PTH (10 ng-1 micrograms/ml) was without significant effect on adherent cell Cai2+ as measured by single-cell image analysis, although another in vitro bone resorbing agent, thrombin (10 U/ml), produced an acute 3-fold increase in the ratio (R) of emission (approximately lambda 510 nm) detected and optimized at lambda 348/374 nm (i.e., Ca-bound dye/free dye) in control cells. Phase-contrast microscopy revealed PKC inhibitor-treated cells changed from a spread configuration to a stellate form with retracting processes or cell rounding and a collapse of actin stress fibers. Within 1 h of PTH addition, PKC inhibitor-treated cells continually became extended/respread up to 3 h with an associated increase in actin stress fibers that was preceded by an acute 1.6-fold Cai2+ increase. In contrast, control or PKC activator-treated cells (phorbol 12,13-dibutyrate or 12-O-tetradecanoylphorbol-13-acetate; TPA) contracted/retracted within 5 min in response to PTH. A role for Cai2+ in PTH-induced cell spreading was further indicated by a contractile response to PTH when PKC-inhibitor-treated cells were loaded with the intracellular calcium chelator dimethyl BAPTA (3 microM x 30 min). PTH-induced Cai2+ increases in adherent PKC inhibitor-treated cells were also associated with a 1.8-fold 1,4,5-IP3 increase as measured by mass assay. The data suggest PKC contributes to UMR 106-H5 cell morphology and selectively regulates signal pathways activated by PTH to promote either cell contraction (cAMP) or extension (1,4,5-IP3/Cai2+).
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PMID:Protein kinase C modulator effects on parathyroid hormone-induced intracellular calcium and morphologic changes in UMR 106-H5 osteoblastic cells. 913 85

The effects of recombinant soluble P-selectin glycoprotein ligand-1 (rsPSGL.Ig) were studied after 120 min of splanchnic artery occlusion and 120 min of reperfusion (SAO/R). SAO/R rats administered a low-affinity mutant form of rsPSGL.Ig exhibited signs of severe circulatory collapse with marked hypotension, a survival time of only 37+/-16 min, and significant increases in intestinal myeloperoxidase (MPO) activity (P<0.01). In addition, SAO/R rats given rsPSGL.Ig low-affinity mutant showed severe endothelial dysfunction characterized by a blunted vasorelaxation to the endothelium-dependent vasodilator acetylcholine in comparison to sham-operated controls (30+/-9% vs. 97+/-3%). Administration of rsPSGL.Ig (0.5 mg/kg) significantly improved mean arterial blood pressure and increased survival time to 107+/-13 min (P <0.01). rsPSGL.Ig treatment also resulted in a significant attenuation in both intestinal MPO activity as well as the SAO/R-induced decline in endothelium-dependent vasorelaxation of superior mesenteric artery rings (P<0.01). In addition, rsPSGL.Ig attenuated in vitro neutrophil adherence to thrombin-stimulated superior mesenteric artery endothelium to a comparable degree as a P-selectin monoclonal antibody. These data suggest that rsPSGL.Ig provides beneficial effects by preserving endothelial function and attenuating neutrophil-endothelial cell interactions in the splanchnic circulation following ischemia-reperfusion.
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PMID:Acute mesenteric ischemia and reperfusion: protective effects of recombinant soluble P-selectin glycoprotein ligand-1. 1048 98

Growth cones are known as the site of action of many factors that influence neurite growth behavior. To assess how different collapsing agents influence the growth cone cytoskeleton, we used recombinant human Semaphorin III (hSema III) and the serine protease thrombin. Embryonic chick dorsal root ganglion neurons showed a dramatic depolymerization of actin filaments within 5 min upon hSema III exposure and virtually no influence on microtubules (MT). Only at later time points (20-30 min) was the polymerization/depolymerization rate of MT significantly affected. Thrombin induced a morphologically and kinetically similar growth cone collapse. Moreover, thrombin induced an early and selective depolymerization of dynamic MT, accompanied by the formation of loops of stable MT bundles. Selective changes in the phosphorylation pattern of tau were associated with microtubule assembly in thrombin-induced responses. Our data provide evidence that different signal transduction pathways lead to distinct changes of the growth cone cytoskeleton.
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PMID:Differential cytoskeletal changes during growth cone collapse in response to hSema III and thrombin. 1058 93

The studies presented here explore intracellular signals resulting from the action of repellents on growth cones. Growth cone challenge with thrombin or thrombin receptor-activating peptide (TRAP) triggers collapse via a receptor-mediated process. The results indicate that this involves activation of cytosolic phospholipase A(2) (PLA(2)) and eicosanoid synthesis. The collapse response to repellents targets at least two functional units of the growth cone, the actin cytoskeleton and substratum adhesion sites. We show in a cell-free assay that thrombin and TRAP cause the detachment of isolated growth cones from laminin. Biochemical analyses of isolated growth cones reveal that thrombin and TRAP stimulate cytosolic PLA(2) but not phospholipase C. In addition, thrombin stimulates synthesis of 12- and 15-hydroxyeicosatetraenoic acid (HETE) from the released arachidonic acid via a lipoxygenase (LO) pathway. A selective LO inhibitor blocks 12/15-HETE synthesis in growth cones and inhibits thrombin-induced growth cone collapse. Exogenously applied 12(S)-HETE mimics the thrombin effect and induces growth cone collapse in culture. These observations indicate that thrombin-induced growth cone collapse occurs by a mechanism that involves the activation of cytosolic PLA(2) and the generation of 12/15-HETE.
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PMID:Thrombin-induced growth cone collapse: involvement of phospholipase A(2) and eicosanoid generation. 1059 66

To examine the possible role of the cytoskeleton in exocytosis of Weibel-Palade bodies (WPBs), we used double immunofluorescence and electron microscopy to study the spatial relationships between WPBs and main cytoskeletal elements in endothelial cells treated with secretagogue, such as thrombin, or cytoskeleton-damaging agents. Unexpectedly, we have found that WPBs undergo rapid translocation towards the centrosome both in cells treated with thrombin and in those treated with cytochalasin B or calyculin A. Typically, 3 or 5 min after agent addition compact cluster of WPBs became visible near the microtubule-organizing center (MTOC) in most endothelial cells in which a fivefold increase in WPBs localized in close proximity to the mother centriole had been detected. In both thrombin- and cytochalasin-treated cells that exhibit a noticeable depletion in WPBs compared to control cells, WPBs located at the cell periphery were found to colocalize with vimentin intermediate filaments, but not with microtubules. In contrast, there was precise colocalization observed between WPBs and microtubules in calyculin-treated cells in which all WPBs undergo centrosome-directed translocation within 15 min after the agent addition. When vimentin filaments were induced to collapse to a perinuclear location by the microtubule-disrupting agent demecolcine, WPBs also translocated to the perinuclear region, where numerous WPBs were found to be localized within the bundles of intermediate-sized filaments. The data provide the first direct evidence that secretory granules utilize microtubule-based transport system to move in retrograde direction, i.e., away from the plasma membrane, towards the centrosome. We suggest that anterograde movement of WPBs is primarily dependent on their interaction with vimentin intermediate filaments.
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PMID:Centrosome-directed translocation of Weibel-Palade bodies is rapidly induced by thrombin, calyculin A, or cytochalasin B in human aortic endothelial cells. 1101 94

Exposure of growing neurons to thrombin or semaphorin 3A stimulates a receptor-mediated signaling cascade that results in collapse of their growth cones. This collapse response necessitates eicosanoid production, as we have shown earlier. The present report investigates whether and which protein kinase C (PKC) isoforms may be activated by such eicosanoids. To examine these questions, we isolated growth cones from fetal rat brain and tested whether thrombin or the eicosanoid, 12(S)-hydroxyeicosatetraenoic acid (12(S)-HETE), could activate endogenous growth cone PKC. We show that both thrombin and 12(S)-HETE stimulate the phosphorylation of the myristoylated alanine-rich protein kinase C substrate, an 87-kDa adhesion site protein. Furthermore, we show both with immunoprecipitated and with recombinant PKC that 12(S)-HETE activation is selective for the epsilon isoform and does not require accessory proteins. Last, we demonstrate that PKC activation is necessary for thrombin-induced growth cone collapse. These data indicate that eicosanoid-mediated repellent effects result from the direct and selective activation of PKCepsilon and suggest the involvement of myristoylated alanine-rich protein kinase C substrate phosphorylation in growth cone collapse.
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PMID:Eicosanoid activation of protein kinase C epsilon: involvement in growth cone repellent signaling. 1266 7

The thrombin mutant W215A/E217A features a drastically impaired catalytic activity toward chromogenic and natural substrates but efficiently activates the anticoagulant protein C in the presence of thrombomodulin. As the remarkable anticoagulant properties of this mutant continue to be unraveled in preclinical studies, we solved the x-ray crystal structures of its free form and its complex with the active site inhibitor H-d-Phe-Pro-Arg-CH(2)Cl (PPACK). The PPACK-bound structure of W215A/E217A is identical to the structure of the PPACK-bound slow form of thrombin. On the other hand, the structure of the free form reveals a collapse of the 215-217 strand that crushes the primary specificity pocket. The collapse results from abrogation of the stacking interaction between Phe-227 and Trp-215 and the polar interactions of Glu-217 with Thr-172 and Lys-224. Other notable changes are a rotation of the carboxylate group of Asp-189, breakage of the H-bond between the catalytic residues Ser-195 and His-57, breakage of the ion pair between Asp-222 and Arg-187, and significant disorder in the 186- and 220-loops that define the Na(+) site. These findings explain the impaired catalytic activity of W215A/E217A and demonstrate that the analysis of the molecular basis of substrate recognition by thrombin and other proteases requires crystallization of both the free and bound forms of the enzyme.
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PMID:The anticoagulant thrombin mutant W215A/E217A has a collapsed primary specificity pocket. 1525 33

We used double immunofluorescence and electron microscopy to study the spatial relationships between Weibel--Palade bodies (WPBs) and cytoskeletal elements in endothelial cells treated with thrombin or cytoskeleton-damaging agents. We have found that some WPBs undergo translocation towards the centrosome in 5 min in the cells treated with thrombin, cytochalasin B or calyculin A. The cells treated with thrombin or cytochalasin exhibit depletion of WPBs, whereas WPBs found at the cell periphery were colocalized with intermediate filaments. There was a precise colocalization observed between the WPBs and microtubules in the calyculin-treated cells in which all WPBs undergo centrosome-directed translocation within 15 min after the agent addition. When vimentin filaments were induced to collapse by demecolcine, intermediate filaments and WPBs both translocated to the perinuclear region. The data provide the first direct evidence that secretory granules utilize microtubules to move in retrograde direction, i.e., away from the plasma membrane, towards the centrosome. We suggest that anterograde movement of WPBs is dependent on their interaction with vimentin filaments.
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PMID:[Endothelial microtubules as integral part of the mechanism controlling the level of stimulated secretion of van Willebrand factor]. 1534 Oct 79

The thrombin mutant D221A/D222K (ARK) does not bind Na+ and has interesting functional properties intermediate between those of the slow and fast forms of wild type. We solved the X-ray crystal structure of ARK bound at exosite I with a fragment of hirudin at 2.4-A resolution. The structure shows a slight collapse of the 186 and 220 loops into the Na+ binding site due to disruption of the Asp222:Arg187 ion-pair. The backbone O atoms of Arg221a and Lys224 are shifted into conformations that eliminate optimal interaction with Na+. A paucity of solvent molecules in the Na+ binding site is also noted, by analogy to what is seen in the structure of the slow form. These findings reinforce the crucial role of the Asp222:Arg187 ion-pair in stabilizing the fast form of thrombin.
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PMID:Crystal structure of the thrombin mutant D221A/D222K: the Asp222:Arg187 ion-pair stabilizes the fast form. 1557 56

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