BACKGROUND: We have previously shown that angiotensin II type 2 receptor (AT(2)R) stimulation causes endothelium-dependent vasodilation that does not desensitize after chronic angiotensin II type 1 receptor (AT1R) blockade, suggesting a role for AT2R in antihypertensive treatment. METHODS AND RESULTS: We recorded mean arterial pressure (MAP) and investigated AT2R by Western blot analysis, immunohistochemistry, and function in isolated mesenteric resistance arteries (205 microm in diameter) from Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHR) receiving the following for 4 weeks in drinking water: placebo, AT1R blockade (candesartan; 2 mg/kg per day), ACE inhibitor (perindopril; 3 mg/kg per day), nonselective vasodilator (hydralazine; 16 or 24 mg/kg per day), or candesartan plus hydralazine (16 mg/kg per day). In precontracted isolated arteries, AT2R stimulation (angiotensin II in the presence of candesartan) caused vasodilation in WKY rats (MAP=118 mm Hg) and vasoconstriction in SHR (MAP=183 mm Hg). In SHR treated with candesartan (MAP=146 mm Hg) or hydralazine (16 mg/kg per day; MAP=145 mm Hg), AT2R-induced contraction was reduced by 50%. In SHR treated with perindopril (MAP=125 mm Hg), AT2R stimulation induced vasodilation. In SHR treated with hydralazine (24 mg/kg per day; MAP=105 mm Hg) and in SHR treated with hydralazine (16 mg/kg per day) plus candesartan (MAP=102 mm Hg), an AT2R-mediated vasodilation was restored. Immunochemistry and Western blot analysis showed that AT2R expression, lower in SHR than in WKY rats, was restored to normal levels by treatments reducing arterial pressure in SHR. CONCLUSIONS: Our results suggest that in resistance arteries of SHR, (1) AT2R is downregulated by hypertension, and (2) specific and nonspecific antihypertensive treatments restore AT(2)R expression and vasodilator functions.
BACKGROUND: We have previously shown that angiotensin II type 2 receptor (AT(2)R) stimulation causes endothelium-dependent vasodilation that does not desensitize after chronic angiotensin II type 1 receptor (AT1R) blockade, suggesting a role for AT2R in antihypertensive treatment. METHODS AND RESULTS: We recorded mean arterial pressure (MAP) and investigated AT2R by Western blot analysis, immunohistochemistry, and function in isolated mesenteric resistance arteries (205 microm in diameter) from Wistar-Kyoto (WKY) rats and spontaneously hypertensiverats (SHR) receiving the following for 4 weeks in drinking water: placebo, AT1R blockade (candesartan; 2 mg/kg per day), ACE inhibitor (perindopril; 3 mg/kg per day), nonselective vasodilator (hydralazine; 16 or 24 mg/kg per day), or candesartan plus hydralazine (16 mg/kg per day). In precontracted isolated arteries, AT2R stimulation (angiotensin II in the presence of candesartan) caused vasodilation in WKY rats (MAP=118 mm Hg) and vasoconstriction in SHR (MAP=183 mm Hg). In SHR treated with candesartan (MAP=146 mm Hg) or hydralazine (16 mg/kg per day; MAP=145 mm Hg), AT2R-induced contraction was reduced by 50%. In SHR treated with perindopril (MAP=125 mm Hg), AT2R stimulation induced vasodilation. In SHR treated with hydralazine (24 mg/kg per day; MAP=105 mm Hg) and in SHR treated with hydralazine (16 mg/kg per day) plus candesartan (MAP=102 mm Hg), an AT2R-mediated vasodilation was restored. Immunochemistry and Western blot analysis showed that AT2R expression, lower in SHR than in WKY rats, was restored to normal levels by treatments reducing arterial pressure in SHR. CONCLUSIONS: Our results suggest that in resistance arteries of SHR, (1) AT2R is downregulated by hypertension, and (2) specific and nonspecific antihypertensive treatments restore AT(2)R expression and vasodilator functions.
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