Marked heterogeneity of endothelin-mediated contractility and contraction dynamics in mouse renal and femoral arteries.

Abstract

Although endothelin (ET)-1 is one of the strongest known vasoconstrictors in most species, we and others have previously found that it is only weakly effective in the mouse aorta. The aim of this study was to further investigate vasoactive effects of ET-1 in vascular beds generally known to be particularly sensitive to ET-1, such as the renal artery. Experiments were performed to determine the vasoconstrictor responses in the thoracic aorta, and in the carotid, femoral, and renal arteries. Isolated vascular rings of C57BL/6 adult male mice (35-40 weeks of age) were exposed to ET-1 (0.01-300 nM) in the presence of the nitric oxide synthase inhibitor l-NAME (0.3 mM) to exclude effects of nitric oxide. Vessels from different vascular beds demonstrated distinct patterns in potency of the contractions to ET-1 and the dynamics of the responses. The maximal contraction to ET-1 was strong and significantly greater in the femoral (105 +/- 7% KCl) and renal artery (62 +/- 7% KCl) than in the carotid artery or the aorta (P < 0.05). The dynamics of the contractile response to ET-1 varied between the different vessels: the renal artery showed a rapid vasoconstriction, followed by a near complete loss of tension, whereas in the aorta, carotid, and femoral artery, vasoconstriction was more sustained. In conclusion, the data demonstrate that mouse femoral and renal arteries exhibit strong contractions in response to ET-1 compared with aorta and carotid artery, and that contractile dynamics differ markedly between arterial vascular beds. These findings may be important for studying the effects of endothelin in mouse models of human disease.