Abstract
The use of steroid hormones in postmenopausal replacement therapy has been associated with prevention of cardiovascular disease. Although the contribution of estradiol to endothelial cell function has been addressed, little information is available on the effect of progestins on this cell type. Here, we provide direct evidence for the presence of functional nuclear progesterone receptor in endothelial cells and demonstrate that physiological levels of progesterone inhibit proliferation through a nuclear receptor-mediated mechanism. The effects of progesterone were blocked by pretreatment with a progesterone receptor antagonist, and progesterone receptor-deficient endothelial cells failed to respond to the hormone. We evaluated the effect of progesterone by analysis of aorta re-endothelialization experiments in wild-type and progesterone receptor knockout mice. The rate of re-endothelialization was significantly decreased in wild-type mice when in the presence of progesterone, whereas there was no difference between control and progesterone-treated progesterone receptor knockout mice. FACS analysis showed that progestins arrest endothelial cell cycle in G1. The lag in cell cycle progression involved reduction in cyclin-dependent kinase activity, as shown by down-regulation in retinoblastoma protein phosphorylation. In addition, treatment of endothelial cells with progestins altered the expression of cyclin E and A in accordance with G1 arrest. These results have important implications to our current knowledge of the effect of steroids on endothelial cell function and to the overall contribution of progesterone to vascular repair.
Highlights
The use of steroid hormones in postmenopausal replacement therapy has been associated with prevention of cardiovascular disease
The effects of progesterone were blocked by pretreatment with a progesterone receptor antagonist, and progesterone receptor-deficient endothelial cells failed to respond to the hormone
Progesterone Receptor Is Expressed by Several Types of Endothelial Cells—Presence of progesterone receptor was evaluated by three independent assays: (a) immunocytochemistry on tissue sections, (b) Northern blots of purified endothelial cell cultures, and (c) immunoprecipitation of cell culture extracts
Summary
(Received for publication, August 28, 1998, and in revised form, October 10, 1998). Francisca Vazquez‡§, Juan Carlos Rodrıguez-Manzaneque‡§, John P. The contribution of estradiol to endothelial cell function has been addressed, little information is available on the effect of progestins on this cell type. Treatment of endothelial cells with progestins altered the expression of cyclin E and A in accordance with G1 arrest These results have important implications to our current knowledge of the effect of steroids on endothelial cell function and to the overall contribution of progesterone to vascular repair. HRT aids in the prevention of osteoporosis and in the reduction of cardiovascular disease (9 –11) Most of these effects have been attributed to estradiol, as demonstrated by several experimental and epidemiological studies. Neither the presence of functional PR nor the effect of progesterone have been addressed on endothelial cells. Because progesterone mediates signals through its receptor [2,3,4], we investigated the presence of PR in endothelial cells from several organs and addressed the effect of the ligand on several aspects of endothelial function
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