The antithrombotic effect of the aminoestrogen prolame (N-(3-hydroxy-1,3,5(10)-estratrien-17B-YL)-3-hydroxypropylamine) is linked to an increase in nitric oxide production by platelets and endothelial cells

The antithrombotic effect of the aminoestrogen prolame (N-(3-hydroxy-1,3,5(10)-estratrien-17B-YL)-3-hydroxypropylamine) is linked to an increase in nitric oxide production by platelets and endothelial cells

Abstract Objective Women under hormone replacement therapy carry an increased risk of venous thromboembolism (VTE), mostly during the first year. Despite great efforts devoted to hormone therapy research, VTE remains a major drawback of estrogenic therapy, and the search for new compounds continues....

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Published in:Atherosclerosis Vol. 208; no. 1; pp. 62 - 68
Main Authors: González, Georgina, Alvarado-Vasquez, Noé, Fernández-G, Juan Manuel, Cruz-Robles, David, del Valle, Leonardo, Pinzón, Enrique, Torres, Ismael, Rodriguez, Emma, Zapata, Estrella, Gómez-Vidales, Virginia, Montaño, Luis Felipe, de la Peña, Aurora
Format: Journal Article
Language:English
Published: Ireland Elsevier Ireland Ltd 01-01-2010
Subjects:
Aminoestrogen
Animals
Blood Platelets - metabolism
Cardiovascular
Cells, Cultured
Endothelial cells
Endothelial Cells - metabolism
Estrenes - pharmacology
Fibrinolysis - drug effects
Humans
Male
Mice
Nitric oxide
Nitric Oxide - biosynthesis
Prolame
Thrombosis
Prolame
Aminoestrogen
Thrombosis
Nitric oxide
Endothelial cells
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Summary:Abstract Objective Women under hormone replacement therapy carry an increased risk of venous thromboembolism (VTE), mostly during the first year. Despite great efforts devoted to hormone therapy research, VTE remains a major drawback of estrogenic therapy, and the search for new compounds continues. We have synthesized and evaluated prolame, an aminoestrogen with anticoagulant properties. The aim of our work was to elucidate the anticoagulant mechanism of prolame. Methods We studied the effects of prolame on nitric oxide (NO) synthesis in cultured endothelial cells and platelets using flow cytometry, on NO metabolites using a modified Griess method, on NO formation in vivo using electron paramagnetic resonance spectroscopy, on participation of nuclear estrogen receptors using flow cytometry, and on endothelial NO synthase (eNOS) mRNA expression using RT-PCR. We also studied the impact of prolame-treated endothelial cells (EC) on ADP-induced platelet aggregation, as well as the ability to prevent occlusive thrombi in an in vivo mice thrombosis model. Results (a) Prolame induces NO production in ECs, platelets, and in a mouse model in vivo. (b) The NO-elevating effect of prolame can only be partially attributed to the nuclear estrogen receptors (ERs) since endothelial nitric oxide synthase (e-NOS) is slightly induced (37%) in ECs treated with prolame. (c) Platelets become 60% less responsive to aggregation induced by 10 μM ADP when in suspension with prolame-treated ECs. (d) Prolame reduces the formation of thrombi in an in vivo thrombosis model. Conclusions Prolame could be a preferred alternative to other estrogens because of its reduced thromboembolic risk.
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ISSN:0021-9150
1879-1484
DOI:10.1016/j.atherosclerosis.2009.06.017