| Am. J. Biomed. Sci. 2009, 1(1), 27-37; doi: 10.5099/aj090100027 |
| Estrogen and Morphine Modulate Their Own and the Other’s Human Endothelial Receptor Expression via Nitric Oxide |
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Patrick Cadet1, Vincent Prevot2, Jean Claude Beauvillain2,
Thomas V. Bilfinger3 and George B. Stefano1 |
1Neuroscience Research Institute, State University
of New York - College at Old Westbury, Old Westbury, NY 11568, USA |
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2INSERM, U422, IFR 22, Unité de Neuroendocrinologie et Physiopathologie Neuronale, Place
de Verdun, 59045 Lille Cedex, |
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France |
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3 Division of Cardiothoracic Surgery, Department of
Surgery, State University of New York at Stony Brook, Stony Brook, NY |
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*Corresponding
author: |
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Dr. Patrick Cadet |
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Neuroscience
Research Institute, State University of New York - College at Old Westbury |
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Old
Westbury, NY 11568, USA |
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Tel:
516-876-2739; Fax: 516-876-2727 |
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Email:
patcad@sunynri.org,
Web: www.SUNYNRI.org |
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Abstract In previous
studies we have demonstrated that m3 and estrogen b receptor subtypes are present
in human vascular endothelial cells and coupled to constitutive nitric oxide
synthase (cNOS) stimulation. In the
present report we demonstrate that internal thoracic artery (ITA) endothelia
express a m opioid receptor mRNA transcript and exposure of these
transcripts to increasing concentrations of 17 b-estradiol significantly
diminishes ITA m opioid receptor expression. Exposure of ITA endothelia to
SNAP, a NO donor, also diminishes m opioid receptor gene expression, suggesting that NO
mediates, in an L-NAME (NG-nitro-L-arginine methyl ester) and
tamoxifen sensitive manner, 17 b-estradiol's down regulating
action. ITA endothelia also express an
estrogen b receptor subtype and, when treated with morphine, in an
L-NAME and naloxone sensitive manner diminishes the b
estrogen receptor's expression. This
demonstrates an interactive receptor mediated process via NO for both signaling
agents. Additionally, morphine and
estrogen actions were examined for their ability to alter adhesion to ITA
segments. This treatment resulted in a concentration dependent decrease in
monocyte adherence to the vessels at 30 min. Exposure to both agents did not decrease monocyte adherence further.
Exposure to L-NAME or either naloxone or tamoxifen, opiate and estrogen cell
surface receptor inhibitors, respectively, blocked the decrease in monocyte
adherence, demonstrating NO involvement and a specific receptor mediated
process. In conclusion, this study demonstrates that an interactive receptor
mediated process via NO for both signaling agents is present. Keywords: 17-b-estradiol;
tamoxifen; morphine; estrogen receptor; mu opiate receptor Download the full article (PDF)
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