Abstract
Calcium channel plays an important role in smooth muscle contraction and relaxation and L-type calcium channel (Cav1.2) antagonist is widely used for treating hypertension. However, whether increasing Ca2+ influx into smooth muscle cells results in hypertension (through increasing smooth muscle cell contractility) or hypotension (through activating BKCa channels) is unclear. Aiming to answer this question, we established a transgenic (TG) mouse model with smooth muscle cell specific (SM22-α promoter driven) overexpression of a splicing variant of Cavβ2 subunit, Cavβ2a, tagged with GFP. Methods and Results: Immunostaining showed that Cavβ2a-GFP expressed in smooth muscle cells specifically and L-type Ca2+ current in smooth muscle cells from the 4 th branch of mesenteric arteries of transgenic mice was significantly increased (5.1±0.7pA/pF in TG, n=12 vs. 2.2±0.5pA/pF in control, n=10). Telemetric blood pressure measurement showed that 24h-averaged systolic pressure was significantly increased (135.2±9.8mmHg, n=25) compared to that of that of control c57bl/6 mice (110.2±7.8mmHg, n=16). The diastolic pressure was also significantly elevated in TG mice than in control mice. Maximum contractility of the 4 th branch mesenteric arteries measured with 40mM KCl was not different between control and TG groups. Sodium nitroprusside relaxed the phenylephrine-precontracted mesenteric artery in the same dose-dependent manner However, acetylcholine induced mesenteric artery relaxation was signficantly impaired in TG mesenteric arteries. Conclusions: Increasing Ca2+ influx through the L-type Ca2+ channel in smooth muscle cells causing hypertension via impairment of acetylcholine-dependent relaxation.
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