C J Wiedermann scite author profile

1 Stimulation of chemotaxis of human polymorphonuclear leucocytes (PMNs) with the chemoattractive peptide fMLP (N-formyl-Met-Leu-Phe) is paralleled by profound morphological and metabolic alterations like changes of intracellular pH (pH i ) and cell shape. The present study was performed to investigate the interrelation of cell volume (CV) regulatory ion transport, pH i and migration of fMLP stimulated PMNs. 2 Addition of fMLP to PMNs stimulated directed migration in Boyden chamber assays and was accompanied by rapid initial intracellular acidi®cation and cell swelling. 3 Inhibition of the Na + /H + exchanger suppressed fMLP stimulated cell migration, accelerated the intracellular acidi®cation and inhibited the fMLP-induced cell swelling. 4Step omission of extracellular Na + caused intracellular acidi®cation, which was accelerated by subsequent addition of gastric H + /K + ATPase inhibitor SCH 28080, or by omission of extracellular K + ions. In addition Na + removal caused cell swelling, which was further enhanced by fMLP. 5 H + /K + ATPase inhibitors omeprazole and SCH 28080 inhibited stimulated migration and blunted the fMLP-induced increase in CV. 6 Increasing extracellular osmolarity by addition of mannitol to the extracellular solution caused cell shrinkage followed by regulatory volume increase, partially due to activation of the Na + /H + exchanger. In fMLP-stimulated cells the CV increase was counteracted by simultaneous addition of mannitol. Under these conditions the fMLP stimulated migration was inhibited. 7 The antibacterial activity of PMNs was not modi®ed by Hoe 694 or omeprazole. 8 Western analysis with a monoclonal anti gastric H + /K + ATPase b-subunit antibody detected a glycosylated 35 kD core protein in lysates of mouse and human gastric mucosa as well as in human PMNs. 9 The results indicate that fMLP leads to cell swelling of PMNs due to activation of the Na + /H + exchanger and a K + -dependent H + -extruding mechanism, presumably an H + /K + ATPase. Inhibition of these ion transporters suppresses the increase in CV and precludes PMNs from stimulated migration.

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Antithrombin

Roemisch

Gray

Hoffmann

et al. 2002

Blood Coagulation& Fibrinolysis

195

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Antithrombin (AT) is a plasma-derived, single-chain glycoprotein with a molecular weight of 58 kDa. It is a serine protease inhibitor (serpin), sharing about 30% homology in amino acid sequence with other serpins. AT is a complex molecule with multiple biologically important properties. It is a potent anticoagulant that has been demonstrated to provide benefit in animal models and small cohorts of patients with coagulation disorders. AT also has remarkable anti-inflammatory properties, several of which result from its actions in the coagulation cascade. Activated coagulation proteases like activated factor X and thrombin contribute to inflammation; for instance, by the release of pro-inflammatory mediators. Inhibition of these proteases by AT prevents their specific interaction with cells and subsequent reactions. Anti-inflammatory properties of AT independent of coagulation involve direct interactions with cells leading to the release of, for instance, prostacyclin. Binding of AT to a recently identified cellular receptor, syndecan-4, leads to the interference with the intracellular signal induced by mediators like lipopolysaccharides and, thereby, to a down-modulation of the inflammatory response. AT has been shown to be effective in prospective and well-controlled small-scale studies of patients with inflammatory conditions, including sepsis. Although AT did not decrease overall patient mortality in a double-blind, placebo-controlled, phase III trial of patients with sepsis, it is important to note that AT improved the survival of individuals in this study not receiving heparin as a prophylactic regimen, which can be explained by the impaired interaction of AT with its cellular receptor in the presence of heparin, resulting in the reduction of the anti-inflammatory properties. Accordingly, the supplementation of AT without concomitant heparin may be beneficial in disorders with inflammatory characteristics, which has to be demonstrated in further clinical studies. Finally, recent results suggest that latent AT can induce apoptosis of endothelial cells by disrupting cell-matrix interactions. Further investigations will have to demonstrate whether latent and/or cleaved AT are physiological means to control angiogenesis. A potential prophylactic or therapeutic use as an anti-angiogenic and antitumor agent merits further exploration, including whether the growth of vessels in tumor tissues or close to tumors can be controlled by latent AT without affecting the formation of blood vessels during wound healing processes.

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C J Wiedermann

Effect of inhibitors of Na⁺/H⁺‐exchange and gastric H⁺/K⁺ ATPase on cell volume, intracellular pH and migration of human polymorphonuclear leucocytes

Antithrombin

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C J Wiedermann

Effect of inhibitors of Na+/H+‐exchange and gastric H+/K+ ATPase on cell volume, intracellular pH and migration of human polymorphonuclear leucocytes

Antithrombin

Contact Info

Product

Resources

About

Effect of inhibitors of Na⁺/H⁺‐exchange and gastric H⁺/K⁺ ATPase on cell volume, intracellular pH and migration of human polymorphonuclear leucocytes