| First Author | Jesmin S | Year | 2010 |
| Journal | Eur J Pharmacol | Volume | 641 |
| Issue | 2-3 | Pages | 168-78 |
| PubMed ID | 20639141 | Mgi Jnum | J:163279 |
| Mgi Id | MGI:4821527 | Doi | 10.1016/j.ejphar.2010.05.020 |
| Citation | Jesmin S, et al. (2010) VEGF signaling is disrupted in the hearts of mice lacking estrogen receptor alpha. Eur J Pharmacol 641(2-3):168-78 |
| abstractText | Estrogen has widely been credited for cardioprotection in women. However, the exact mechanisms that underlie these beneficial estrogenic effects are not completely understood. Here, we sought to: 1) elucidate estrogen's influence on levels of vascular endothelial growth factor (VEGF), a key regulator of cardiovascular processes, and components of its basic signaling machinery (VEGF receptors, Akt, and eNOS) in the heart, and 2) delineate the specific estrogen receptor signaling pathway that mediates its beneficial effects using mice lacking either estrogen receptor alpha or estrogen receptor beta. We analyzed pattern of VEGF signaling and the associated coronary capillary density in the hearts of wild-type (WT), estrogen receptor alpha knockout (ERalpha-KO), and estrogen receptor beta knockout (ERbeta-KO) female mice. Deletion of estrogen receptor alpha causes a marked decrease in coronary capillary density compared to wild-type (WT) mice, while that of estrogen receptor beta had a minimal effect. Consistent with reduced coronary capillary density, cardiac expression levels of VEGF and its signaling molecules (two receptors, phosphorylated Akt, and eNOS) in ERalpha-KO mice were reduced to half of WT, in contrast to ERbeta-KO mice that only showed a slight decrease. Moreover, activity of eNOS was greatly lowered in ERalpha-KO mice. These data suggest that estrogen acts largely via estrogen receptor alpha to regulate VEGF transcription and possibly components of its basic signaling and ultimately, the development of coronary microvasculature in the heart. This molecular and histological data, in part, sheds some insights into potential mechanisms that may likely underlie estrogen's cardioprotective effects. |
