E Coëzy scite author profile

E Coëzy

4Publications

63Citation Statements Received

0Citation Statements Given

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143

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Affiliations

Inserm, Institut du Fer à Moulin, University of Paris-Saclay

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Characterization of Precursor and Secreted Forms of Rat Angiotensinogen*

et al. 1984

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Angiotensinogen precursors synthesized by rabbit reticulocyte lysate primed with rat liver RNA were compared with angiotensinogen secreted by rat hepatoma cells and rat hepatocytes using immunoprecipitation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Inhibition of glycosylation with tunicamycin permitted identification of the nonglycosylated form of secreted angiotensinogen. Whereas angiotensinogen secreted by hepatoma cells and hepatocytes showed electrophoretic heterogeneity (mol wt, 52-62 X 10(3], tunicamycin-treated cells secreted only a single angiotensinogen species [mol wt, 48.3 +/- 0.7 X 10(3) (mean +/- SD)], which could be cleaved by renin. Two putative angiotensinogen precursors were synthesized in the reticulocyte lysate: a major protein of 52.5 +/- 1.0 X 10(3) mol wt and a minor protein of 55.7 +/- 1.3 X 10(3) mol wt. Evidence that these proteins represent separate angiotensinogen precursors includes the following. 1) Both proteins were recognized by five different polyclonal antibodies and two monoclonal antibodies. 2) Both proteins increased in parallel in reticulocyte lysates primed with liver RNA from rats nephrectomized and given hormones that increase liver angiotensinogen production. 3) Both proteins were cleaved by renin to produce a single protein of 47.6 +/- 0.8 X 10(3) mol wt. 4) The des-angiotensin I-angiotensinogen generated by renin treatment of the lysate had an electrophoretic mobility identical to that of des-AI-angiotensinogen produced by renin treatment of nonglycosylated angiotensinogen secreted by tunicamycin-treated hepatoma cells and hepatocytes. These studies suggest that rat liver synthesizes two separate angiotensinogen precursors which may differ only in the size of their prepro sequence. The heterogeneity of secreted angiotensinogen can be fully accounted for by differences in N-glycosylation of asparagine residues of the molecule. Glycosylation of angiotensinogen is not essential for its synthesis, processing, and secretion or its hydrolysis by renin.

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Antithrombin III synthesis in rat liver parenchymal cells

Léon¹,

Aiach²,

Coëzy³

et al. 1983

Thrombosis Research

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Synthesis and Release of Immunoreactive Angiotensinogen by Rat Liver Slices*

et al. 1983

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Hepatic storage and secretion of angiotensinogen was studied using rat liver slices and a new direct angiotensinogen RIA. This assay permitted the demonstration of a significant hepatic storage of angiotensinogen, largely underestimated until now by the enzymatic method of angiotensinogen measurement. Angiotensinogen release by rat liver slices was linear with time and was associated with a significant increase in hepatic content of angiotensinogen. The measurement of both release and changes in hepatic content permitted the measurement of de novo synthesis of angiotensinogen by rat liver slices in vitro. Both hepatic content and release of angiotensinogen were decreased by thyroidectomy and increased by ethinyl estradiol, dexamethasone, thyroid hormones, and binephrectomy.

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Inhibition of deoxygenation-induced membrane protein dephosphorylation and cell dehydration by phorbol esters and okadaic acid in sickle cells

Fathallah

Coëzy

Neef

et al. 1995

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Deoxygenation (DO) of sickle cell anemia red blood cells (SS cells) induces membrane permeabilization to Ca2+, Na+, and K+ and cell dehydration mostly through the activation of the Ca(2+)-dependent K+ channels. We show that DO of both SS cells and normal red blood cells was accompanied by a nonspecific dephosphorylation of membrane proteins. After treatment with a protein kinase C activator (phorbol myristate acetate) or a phosphoprotein phosphatase inhibitor (okadaic acid), the level of membrane protein phosphorylation in deoxygenated cells was maintained higher or equal, respectively, to that of the oxygenated controls. We found that these drugs in SS cells (1) inhibited by 40% the DO-stimulated net Ca2+ uptake, without affecting the DO-stimulated Ca2+ influx, suggesting that they activated the Ca2+ efflux; (2) slightly increased the DO-induced Na+ uptake and decreased the DO-induced K+ loss; and (3) prevented the DO-induced cell dehydration. Both drugs are known to stimulate both phosphorylation and activity of the Ca pump and of the Na/H antiport. Inhibition of SS cell dehydration might be due to an activation of the Ca pump preventing [Ca2+]i elevation responsible for the stimulation of the K+ channels and/or to an activation of the Na/H exchange resulting in cell water gain.

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E Coëzy

Characterization of Precursor and Secreted Forms of Rat Angiotensinogen*

Antithrombin III synthesis in rat liver parenchymal cells

Synthesis and Release of Immunoreactive Angiotensinogen by Rat Liver Slices*

Inhibition of deoxygenation-induced membrane protein dephosphorylation and cell dehydration by phorbol esters and okadaic acid in sickle cells

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