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Liu SQ, Zang WJ, Li ZL, Sun Q, Yu XJ, Luo HL, Zhu SM: [Voltage-activated potassium channel blockers inhibit anisodamine-induced relaxation of rabbit aortic smooth muscles precontracted with noradrenaline]. Sheng Li Xue Bao. 2005 Feb 25;57(1):21-6. Anisodamine, which is originally extracted from scopolia tangutica and is currently produced in China, is a tropane alkaloid and a muscarinic cholinoceptor blocker. Our previous study found that anisodamine did not alter high K (+)-evoked contraction of rabbit aortic rings using isometric tension recording methods, but could attenuate noradrenaline (NA)-, histamine- or 5-hydroxytryptamine-induced contraction in an endothelium-independent manner. Since the high K (+)-elicited depolarization non-selectively inhibits potassium channels in vascular smooth muscle cell (VSMC) membrane, the vasodilation effect of some potassium channel activators may be inhibited or abolished in high K (+) solution. We hypothesized that some potassium channels in VSMC membrane might play a role in the anisodamine-induced relaxation of blood vessels. The present experiment was designed to investigate whether potassium channel blockers inhibit anisodamine-induced relaxation of the rabbit isolated aortic rings. In a 8-min period, 1, 3 and 10 micromol/L of anisodamine, significantly relaxed the 0.01 micromol/L NA precontracted aortic ring by (19.1+/-3.1)%, (30.1+/-3.8)% and (38.3+/-4.2)%, respectively, compared with the controls [by (4.8+/-2.4)%, (5.1+/-1.8)% and (5.6+/-2.5)%, respectively] (P <0.01). 10 mmol/L of CsCl (a non-selective potassium channel blocker), 1 mmol/L of 4-aminopyridine [a selective voltage-activated potassium channel (K (V)) blocker], 10 mumol/L BaCl2 (a selective inwardly-rectifying potassium channel blocker), 10 micromol/L of glibenclamide (a selective ATP-sensitive potassium channel blocker), 3 micromol/L of charybdotoxin (a large- and intermediate-conductance Ca (2+)-activated potassium channels blocker) and 3 micromol/L of apamin (a selective small conductance Ca (2+)-activated potassium channel blocker) significantly increased the NA-induced contraction by (14.4+/-3.2)%, (16.3+/-5.8)%, (12.7+/-4.2)%, (13.6+/-2.0)%, (11.1+/-5.5)% and (13.4+/-4.3)%, respectively, compared with the control [by (5.6 +/-1.2)%] (P <0.01). In the presence of 10 and 30 mmol/L CsCl or 1 and 3 mmol/L 4-aminopyridine, anisodamine-induced relaxation of the 0.01 micromol/L NA contracted rabbit aortic rings [(28.8+/-3.0)% and (15.9+/-3.7)% or (29.7+/-3.9)% and (19.0+/-5.0)%] significantly deceased, compared with that in the absence of any potassium channel blocker [(38.3+/-4.2)% (P <0.01)] in a 8-min period. However, in the presence of 10, 30 micromol/L of BaCl2, 10, 30 micromol/L of glibenclamide, 3 micromol/L of charybdotoxin, or 3 micromol/L apamin, 10 micromol/L anisodamine-induced relaxation [(37.1+/-3.8)%, (36.2+/-4.7)%, (36.1+/-2.7)%, (35.6+/-3.3)%, (37.8+/-2.0)% and (39.3 +/-4.7) %, respectively] did not decrease, compared with the control [(38.3+/-4.2)%] (P> 0.05). This study suggests that K (V) blockers inhibit anisodamine-induced relaxation of the rabbit aortic smooth muscle precontracted with NA and implies that the K (V) in VSMC membrane plays a role in anisodamine-induced relaxation of blood vessels. |
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