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• W1964512148 endingPage "2761" @default.
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• W1964512148 abstract "Type 1 plasminogen activator inhibitor (PAI-1) is known to be synthesized in an active conformation but it is rapidly converted into an inactive conformation (t1/2 1 h) upon incubation at 37°C. This study was initiated to investigate the mechanism that account for the presence of active PAI-1 in anucleated platelets that have a mean life span of 9-12 days in the circulation. Stabilization experiments with a functional immunoassay indicated that the activity of PAI-1 in both platelets and in isolated α-granules was prolonged in comparison to the rapid inactivation of this molecule in their lysates (t1/2 1 h). Although combined ligand blot/immunoblot analysis revealed that vitronectin was the major PAI-1 binding protein in platelets, vitronectin/PAI-1 complexes were not detected in α-granules using a two-site immunoassay. Co-incubation of α-granules with a number of agents that disrupt pH gradients (e.g. ionophores) had no effect on the stability of PAI-1 activity, whereas incubation of α-granules with the calcium ionophore A23187 reduced the half-life of PAI-1 to the levels observed for PAI-1 in solution. Addition of calcium ions to intact α-granules was an effective means of neutralizing the ionophore's effect on PAI-1 activity. Fractionation of α-granule proteins on molecular sieving columns using conditions known to be present within storage granules (e.g. a high calcium concentration) revealed the presence of PAI-1 in fractions with a molecular mass of >106 daltons. Immunoabsorption of PAI-1 from these column fractions followed by negative staining revealed 25-nm diameter complexes of α-granule proteins under the electron microscope. PAI-1 activity associated with these complexes was prolonged in the presence of calcium ions and these high Mr complexes were shown to be composed of a defined set of proteins that can be dissociated from PAI-1 by chelation of calcium ions. These data indicate that PAI-1 is stabilized by its packaging with other α-granule proteins in a calcium-dependent manner. Type 1 plasminogen activator inhibitor (PAI-1) is known to be synthesized in an active conformation but it is rapidly converted into an inactive conformation (t1/2 1 h) upon incubation at 37°C. This study was initiated to investigate the mechanism that account for the presence of active PAI-1 in anucleated platelets that have a mean life span of 9-12 days in the circulation. Stabilization experiments with a functional immunoassay indicated that the activity of PAI-1 in both platelets and in isolated α-granules was prolonged in comparison to the rapid inactivation of this molecule in their lysates (t1/2 1 h). Although combined ligand blot/immunoblot analysis revealed that vitronectin was the major PAI-1 binding protein in platelets, vitronectin/PAI-1 complexes were not detected in α-granules using a two-site immunoassay. Co-incubation of α-granules with a number of agents that disrupt pH gradients (e.g. ionophores) had no effect on the stability of PAI-1 activity, whereas incubation of α-granules with the calcium ionophore A23187 reduced the half-life of PAI-1 to the levels observed for PAI-1 in solution. Addition of calcium ions to intact α-granules was an effective means of neutralizing the ionophore's effect on PAI-1 activity. Fractionation of α-granule proteins on molecular sieving columns using conditions known to be present within storage granules (e.g. a high calcium concentration) revealed the presence of PAI-1 in fractions with a molecular mass of >106 daltons. Immunoabsorption of PAI-1 from these column fractions followed by negative staining revealed 25-nm diameter complexes of α-granule proteins under the electron microscope. PAI-1 activity associated with these complexes was prolonged in the presence of calcium ions and these high Mr complexes were shown to be composed of a defined set of proteins that can be dissociated from PAI-1 by chelation of calcium ions. These data indicate that PAI-1 is stabilized by its packaging with other α-granule proteins in a calcium-dependent manner." @default.
• W1964512148 created "2016-06-24" @default.
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• W1964512148 date "1996-02-01" @default.
• W1964512148 modified "2023-10-16" @default.
• W1964512148 title "Calcium-dependent Stabilization of Type I Plasminogen Activator Inhibitor within Plateletα-Granules" @default.
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• W1964512148 doi "https://doi.org/10.1074/jbc.271.5.2754" @default.
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