© 1999 American Heart Association, Inc.
Vascular Biology |
Aortic Connexin43 Is Decreased During Hypertension Induced by Inhibition of Nitric Oxide Synthase
From the Department of Internal Medicine B (J.-A.H., A.F., P.N.) and the Division of Hypertension and Vascular Medicine (P.W., A.Z., H.R.B., D.H.), University Hospital, Lausanne, and the Department of Morphology (P.M.), University of Geneva, Geneva, Switzerland.
Correspondence to J.-A. Haefliger, PhD, Department of Internal Medicine B, Laboratory of Molecular Biology 19–135S, Centre Hospitalier Universitaire Vaudois, CHUV-1011, Lausanne, Switzerland. E-mail jhaeflig{at}chuv.hospvd.ch
Abstract—Connexin43 (Cx43), the
predominant gap junction protein in vessels and heart, is involved in
the control of cell-to-cell communication and is thought to modulate
the contractility of the vascular wall and the
electrical coupling of cardiac myocytes. We have investigated the
effects of arterial hypertension induced by inhibition of
nitric oxide synthase on the expression of Cx43 in aorta and heart as
well as on the distensibility of the carotid artery. Administration of
0.4 g/L NG-nitro-L-arginine
methyl ester (L-NAME) to rats in their drinking water for 4 weeks
increased intra-arterial mean blood pressure, wall
thickness of aorta and carotid artery (25%), and heart weight (17%).
Analysis of heart mRNA demonstrated increased expression of the
fetal skeletal 
-actin and of atrial natriuretic peptide
but not of Cx43. In contrast, Cx43 mRNA and protein were decreased by
50% in the aortas of L-NAME–treated rats that did not show increased
carotid distensibility. Because these data contrasted with those
obtained in the 2-kidney, 1 clip model of rat hypertension, which is
characterized by increased arterial distensibility and Cx43
expression in aorta, we investigated by Western blot analysis
the posttranslational modifications of Cx43. We found that Cx43 was
more phosphorylated in the aorta of 2-kidney, 1 clip
rats than in that of L-NAME or control rats, which indicated a
differential regulation of Cx43 in different models of hypertension.
The data suggest that the cell-to-cell communication mediated by Cx43
channels may help regulate the elasticity of the vascular wall.
Key Words: connexin • aorta • heart • elasticity • hypertension • nitric oxide
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