• YAKHAK HOEJI
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• v.41 no.2
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• pp.241-246
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• 1997

The effect of potassium channel openers, SKP-450, SKP-818 and lemakalim have been compared in rat heart and aorta. In rat isolated heart, SKP-450 had a greater negative inotrop ic effect than lemakalim and KR-30818 against left ventricular developed pressure (LVDP) and double product of heart rate and LVDP (DP). In addition, SKP-450 had a greater effect than lemakalim and KR-30818 in increasing coronary flow, indicating a more potent vasodilating effect in coronary artery. Negative inotropic effect and coronary vasodilating effect of SKP-450 and SEP-818 were significantly reduced by 10 min-perfusion with $10^{-6}M$ glyburide, a selective blocker of ATP-sensitive potassium channel. In rat aorta, SKP-30450 and SKP-30818 as well as lemakalim induced powerful concentration-dependent relaxations against norepinephrinc-induced tone ($EC_{50},\;{\mu}M$ : SKP-30450, $0.107{\pm}0.009$; SKP-30818, $0.476{\pm}0.022$ ; lemakalim, $0.565{\pm}0.039$ ). These relaxant effects were significantly reduced by pretreatment with glyburide. In sununary, SKP-30450 and SKP-30818 showed greater negative inotropic and vasorelaxant effect than lemakalim in rat aorta with order of potency of SKP-30450 > SKP-30818 > lemakalim. These actions are suggested to be mediated at least in part by a mechanism which involves the opening of ATP-sensitive potassium channel.

• Archives of Pharmacal Research
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• v.28 no.1
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• pp.61-67
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• 2005

We evaluated the antiplatelet effects of two classes of ATP-sensitive potassium channel openers $(K_{ATP}\;openers)$ on washed human platelets, and the study's emphasis was on the role of mitochondrial $K_{ATP}$ in platelet aggregation. Collagen-induced platelet aggregation was inhibited in a dose dependent manner by lemakalim and SKP-450, which are potent cardio-nonselective $K_{ATP}$ openers, and also by cardioselective BMS-180448 and BMS-191095 $(IC_{50}\;:\;1,130,\;>\;1,500,\;305.3\;and\;63.9\;{\mu}M,\;respectively)$, but a significantly greater potency was noted for the cardioselective $K_{ATP}$ openers. The latter two $K_{ATP}$ openers also inhibited platelet aggregation induced by thrombin, another important blood-borne platelet activator, with similar rank order of potency $(IC_{50}\;:\;498.0\;and\;104.8{\mu}M\; for\;BMS-180448\;and\;BMS-191095,\;respectively)$. The inhibitory effects of BMS-191095 on collagen-induced platelet aggregation were significantly blocked by a 30-min pretreatment of platelets with glyburide $(1{\mu}M)$ or sodium 5-hydroxyde­canoate$(5-HD,\;100{\mu}M)$, a nonselective and selective mitochondrial $K_{ATP}$ antagonist, respectively, at similar magnitudes; this indicates the role of mitochondrial $K_{ATP}$ in the antiplatelet activity of BMS-191095. However, glyburide and 5-HD had no effect when they were added to the platelet cuvette immediately prior to the addition of BMS-191095. These findings indicate that cardioselective mitochondrial $K_{ATP}$ openers like BMS-191095 are able to exert cardioprotective effects in cardiac ischemia/reperfusion injury via dual mechanisms directed at the inhibition of platelet aggregation and the protection of cardiomyocytes, and both these mechanisms are mediated by mitochondrial$K_{ATP}$.

• The Korean Journal of Physiology and Pharmacology
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• v.19 no.3
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• pp.197-202
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• 2015

Sulfonylureas are widely used as an antidiabetic drug. In the present study, the effects of sulfonylurea administered supraspinally on immobilization stress-induced blood glucose level were studied in ICR mice. Mice were once enforced into immobilization stress for 30 min and returned to the cage. The blood glucose level was measured 30, 60, and 120 min after immobilization stress initiation. We found that intracerebroventricular (i.c.v.) injection with $30{\mu}g$ of glyburide, glipizide, glimepiride or tolazamide attenuated the increased blood glucose level induced by immobilization stress. Immobilization stress causes an elevation of the blood corticosterone and insulin levels. Sulfonylureas pretreated i.c.v. caused a further elevation of the blood corticosterone level when mice were forced into the stress. In addition, sulfonylureas pretreated i.c.v. alone caused an elevation of the plasma insulin level. Furthermore, immobilization stress-induced insulin level was reduced by i.c.v. pretreated sulfonylureas. Our results suggest that lowering effect of sulfonylureas administered supraspinally against immobilization stress-induced increase of the blood glucose level appears to be primarily mediated via elevation of the plasma insulin level.

• The Korean Journal of Pain
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• v.32 no.2
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• pp.79-86
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• 2019

Background: The use of aroma oils dates back to at least 3000 B.C., where it was applied to mummify corpses and treat the wounds of soldiers. Since the 1920s, the term "aromatherapy" has been used for fragrance therapy with essential oils. The purpose of this study was to determine whether the essential oil of Eucalyptus (EOE) affects pain pathways in various pain conditions and motor coordination. Methods: Mice were subjected to inhalation or intraperitoneal injection of EOE, and its analgesic effects were assessed by conducting formalin, thermal plantar, and acetic acid tests; the effects of EOE on motor coordination were evaluated using a rotarod test. To determine the analgesic mechanism, 5'-guanidinonaltrindole (${\kappa}$-opioid antagonist, 0.3 mg/kg), naltrindole (${\delta}$-opioid antagonist, 5 mg/kg), glibenclamide (${\delta}$-opioid antagonist, 2 mg/kg), and naloxone (${\mu}$-opioid antagonist, 4, 8, 12 mg/kg) were injected intraperitoneally. Results: EOE showed an analgesic effect against visceral pain caused by acetic acid (EOE, 45 mg/kg); however, no analgesic effect was observed against thermal nociceptive pain. Moreover, it was demonstrated that EOE did not have an effect on motor coordination. In addition, an anti-inflammatory effect was observed during the formalin test. Conclusions: EOE, which is associated with the ${\mu}$-opioid pain pathway, showed potential effects against somatic, inflammatory, and visceral pain and could be a potential therapeutic agent for pain.

• Journal of Ginseng Research
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• v.23 no.4
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• pp.235-238
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• 1999

ATP-sensitive $K^+$ channels $(K_{ATP})$ are expressed in vascular smooth muscle cells, skeletal muscle cells, pancreatic ${\beta}$ cells, neurons and epithelial cells. $K_{ATP}$ contributes to regulate membrane potential to control vascular tone, to protect myocardial ischemia, and to regulate insulin secretion in pancreatic ${\beta}$ cells. We previously demonstrated that ginseng saponins and ginsenoside $Rg_3$ activated maxi $Ca^{2+}-activated\;K^+$ channel, and this might cause vasodilation. Because $K_{ATP}$ plays an important roles to regulate the resting membrane potential in vascular smooth muscle cells, we investigated whether ginsenoside $Rg_3$ produces vasodilation by activating $K_{ATP}$ We showed in this study that $K_{ATP}$ is expressed in rabbit coronary artery smooth muscle cells. $K_{ATP}$ was inwardly rectifying and was inhibited by intemal application of ATP. Micromolar minoxidil activated, but glyburide inhibited the activity of $K_{ATP}$ Ginsenoside $Rg_3$ relieved inactivaiton of whole-cell $K_{ATP}$ current without affecting the peak amplitude of $K_{ATP}$ currents presumably due to more opening of the channels.