Browse > Article

BMS-191095, a Cardioselective Mitochondrial $K_{ATP}$ Opener, Inhibits Human Platelet Aggregation by Opening Mitochondrial $K_{ATP}$ Channels  

Cho Mi-Ra (College of Pharmacy, Chungbuk National University)
Park Jung-Wook (Division of Life Science, College of Natural Sciences, Konkuk University)
Jung In-Sang (Division of Life Science, College of Natural Sciences, Konkuk University)
Yi Kyu-Yang (Medical Science Division, Korea Research Institute of Chemical Technology)
Yoo Sung-Eun (Medical Science Division, Korea Research Institute of Chemical Technology)
Chung Hun-Jong (Pediatric Department, Chungju Hospital, Konkuk Medical School, Konkuk University)
Yun Yeo-Pyo (College of Pharmacy, Chungbuk National University)
Kwon Suk-Hyung (Rexgene Biotech Co. Ltd.,)
Shin Hwa-Sup (Division of Life Science, College of Natural Sciences, Konkuk University)
Publication Information
Archives of Pharmacal Research / v.28, no.1, 2005 , pp. 61-67 More about this Journal
Abstract
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$K_{ATP}$.
Keywords
Platelet; BMS-180448; BMS-191095; Cardioprotection;
Citations & Related Records

Times Cited By Web Of Science : 4  (Related Records In Web of Science)
Times Cited By SCOPUS : 3
연도 인용수 순위
1 Andersson, T. L. and Vinge, E., The efflux of $^{86}Rb$ and [^{3}H$]5-HT from human platelets during continuous perfusion: effects of potassium-induced membrane depolarization and thrombin stimulation. Acta. Physiol. Scand., 141, 421-428 (1991)   DOI   ScienceOn
2 de Silva, H. A., Carver, J. G., and Aronson, J. K., Pharmacological evidence of calcium-activated and voltage-gated potassium channels in human platelets. Clin. Sci. (Lond), 93, 249-255 (1997)
3 Kaeffer, N., Richard, V., Francois, A, Lallemand, F., Henry, J. P., and Thuillez, C., Preconditioning prevents chronic reperfusioninduced coronary endothelial dysfunction in rats. Am. J. Physiol., 271, H842-849 (1996)
4 Maruyama, Y., A patch-clamp study of mammalian platelets and their voltage-gated potassium current. J. Physiol., 391, 467- 485 (1987)
5 Nakai, Y., Horimoto, H., Mieno, S., and Sasaki, S., Mitochondrial ATP-sensitive potassium channel plays a dominant role in ischemic preconditioning of the rabbit heart. Eur. Surg. Res., 33, 57-63 (2001)   DOI   ScienceOn
6 Park, Y. S., Yoo, S. E., Shin, H. S., Jin, Y. R., and Yun, Y. P., Pharmacological characterization of vasorelaxant effects of BMS-180448, a novel cardioselective ATP-sensitive potassium channel opener, in rat aorta. J. Pharmacol. Sci., 92, 218-227 (2003)   DOI   ScienceOn
7 Shin, H. S., Seo, H. W., Oh, J. H., and Lee, B. H., Antihypertensive effects of the novel potassium channel activator SKP- 450 and its major metabolites in rats. Arzneimittelforschung, 48, 969-978 (1998a)
8 Yellon, D. M., Alkhulaifi, A. M., Browne, E. E., and Pugsley, W.B., Ischaemic preconditioning limits infarct size in the rat heart. Cardiovasc. Res., 26, 983-987 (1992)   DOI   ScienceOn
9 Pearson, P. J., Schaff, H. V., and Vanhoutte, P. M., Long-term impairment of endothelium-dependent relaxations to aggregating platelets after reperfusion injury in canine coronary arteries. Circulation, 81, 1921-1927(1990)   DOI   ScienceOn
10 Yellon, D. M., Alkhulaifi, A. M., and Pugsley, W. B., Preconditioning the human myocardium. Lancet, 342, 276-277 (1993)   DOI   ScienceOn
11 Rovnyak, G. C., Ahmed, S. Z., Ding, C. Z., Dzwonczyk, S., Ferrara, F. N., Humphreys, W. G., Grover, G. J., Santafianos, D., Atwal, K. S., Baird, A. J., McLaughlin, L. G., Normandin, D. E., Sleph, P. G., and Traeger, S. C., Cardioselective antiischemic ATP-sensitive potassium channel (KATP) openers. 5. Identification of 4-(N-aryl)-substituted benzopyran derivatives with high selectivity. J. Med. Chem., 40, 24-34 (1997)   DOI   ScienceOn
12 D'Alonzo, A. J., Grover, G. J., Darbenzio, R. B., Sewter, J. C., Hess, T. A., Dzwonczyk, S., and Sleph, P. G., Hemodynamic and cardiac effects of BMS-180448, a novel $K^{+}$ ATP opener, in anesthetized dogs and isolated rat hearts. Pharmacol., 52, 101-112 (1996)   DOI   ScienceOn
13 Edwards, G. and Weston, A. H., Recent advances in potassium channel modulation. Prog. Drug Res., 49, 93-121 (1997)
14 Laude, K., Beauchamp, P., Thuillez, C., and Richard, V., Endothelial protective effects of preconditioning. Cardiovasc. Res., 55, 466-473 (2002)   DOI   ScienceOn
15 Grover, G. J. and Atwal, K. S., Pharmacologic profile of the selective mitochondrial-$K_{ATP}$ opener BMS-191095 for treatment of acute myocardial ischemia. Cardiovasc. Drug Rev., 20, 121-136 (2002)   DOI   ScienceOn
16 Grover, G. J., D'Alonzo, A. J., Hess, T., Sleph, P. G., and Darbenzio, R. B., Glyburide-reversible cardioprotective effect of BMS-180448 is independent of action potential shortening. Cardiovasc. Res., 30, 731-738 (1995)
17 Kinoshita, H., Iwahashi, S., Kakutani, T., Mizumoto, K., Iranami, H., and Hatano, Y., The role of endothelium-derived nitric oxide in relaxations to levcromakalim in the rat aorta. Jpn. J. Pharmacol., 81, 362-366 (1999)   DOI   ScienceOn
18 Kleiman, N. S., GP IIb/IIIa antagonists. Clinical experience and potential uses in cardiology. Drugs R. D., 1, 361-370 (1999)   DOI   PUBMED   ScienceOn
19 Seligmann, C., Schimmer, M., Leitsch, T., Bock, A., Simsek, Y., Tschope, C., and Schultheiss, H. P., A thrombocyte-induced myocardial dysfunction in the ischemic and reperfused guinea pig heart is mediated by reactive oxygen species. Free Radic. Biol. Med., 29, 1244-1251 (2000)   DOI   ScienceOn
20 Kawa, K., Voltage-gated calcium and potassium currents in megakaryocytes dissociated from guinea-pig bone marrow. J. Physiol., 431, 187-206 (1990)
21 Shin, H. S., Seo, H. W., Yoo, S. E., and Lee, B. H., Cardiovascular pharmacology of SKP-450, a new potassium channel activator, and its major metabolites SKP-818 and SKP-310. Pharmacology, 56, 111-124 (1998b)   DOI   ScienceOn
22 Kapural, L. and Fein, A., Suppression of the voltage-gated $K^+$ current of human megakaryocytes by thrombin and prostacyclin. Biochim. Biophys. Acta., 1355, 331-342 (1997)   DOI   ScienceOn
23 Garlid, K. D., Paucek, P., Yarov-Yarovoy, V., Sun, X., and Schindler, P. A., The mitochondrial $K_{ATP}$ channel as a receptor for potassium channel openers. J. Biol. Chem., 271, 8796-8799 (1996)   DOI   ScienceOn
24 Jung, Y. S., Moon, C. H., Cho, T. S., Yoo, S. E., and Shin, H. S., Cardioprotective effects of KR-30450, a novel $K^+_(ATP)$ opener, and its major metabolite KR-30818 on isolated rat hearts. Jpn. J. Pharmacol., 76, 65-73 (1998)   DOI
25 Lee, B. H., Seo, H. W., Yoo, S. E., Kim, S. O., Lim, H., and Shin, H. S., Differential action of KR-31378, a novel potassium channel activator, on cardioprotective and hemodynamic effects. Drug Dev. Res., 54, 182-190 (2001)   DOI   ScienceOn
26 Ku, D. D., Coronary vascular reactivity after acute myocardial ischemia. Science, 218, 576-578 (1982)   DOI   PUBMED
27 Seligmann, C., Simsek, Y., Schimmer, M., Leitsch, T., Bock, A., and Schultheiss, H. P., Human thrombocytes are able to induce a myocardial dysfunction in the ischemic and reperfused guinea pig heart mediated by free radicals-role of the GPIIb/IIIa-blocker tirofiban. Life Sci., 71, 2319-2329 (2002)   DOI   ScienceOn
28 Atwal, K. S., Grover, G. J., Ahmed, S., Ferrara, F. N., Harper, T. W., Kim, K. S., Sleph, P. G., Dzwonczyk, S., Russell, A. D., Moreland, S., et al., Cardioselective anti-ischemic ATPsensitive potassium channel openers. J. Med. Chem., 36, 3971-3974 (1993)   DOI   ScienceOn
29 Teshima, Y., Akao, M., Li, R. A., Chong, T. H., Baumgartner, W. A., Johnston, M. V., and Marban, E., Mitochondrial ATPsensitive potassium channel activation protects cerebellar granule neurons from apoptosis induced by oxidative stress. Stroke, 34, 1796-1802 (2003)   DOI   ScienceOn
30 Grover, G. J., D'Alonzo, A. J., Darbenzio, R. B., Parham, C. S., Hess, T. A., and Bathala, M. S., In vivo characterization of the mitochondrial selective K(ATP) opener (3R)-trans-4-((4- chlorophenyl)-N-(1H-imidazol-2-ylmethyl)dimethyl-2H-1- benzopyran-6-carbonitril monohydrochloride (BMS-191095): cardioprotective, hemodynamic, and electrophysiological effects. J. Pharmacol. Exp. Ther., 303, 132-140 (2002)   DOI   ScienceOn
31 Li, Y. and Kloner, R. A., Cardioprotective effects of ischaemic preconditioning are not mediated by prostanoids. Cardiovasc. Res., 26, 226-231 (1992)   DOI   ScienceOn
32 de Silva, H. A., Aronson, J. K., Grahame-Smith, D. G., Jobst, K. A., and Smith, A. D., Abnormal function of potassium channels in platelets of patients with Alzheimer's disease. Lancet, 352, 1590-1593 (1998)   DOI   ScienceOn
33 Van Benthuysen, K. M., McMurtry, I. F., and Horwitz, L. D., Reperfusion after acute coronary occlusion in dogs impairs endothelium-dependent relaxation to acetylcholine and augments contractile reactivity in vitro. J. Clin. Invest., 79, 265-274 (1987)   DOI
34 Grover, G. J., D'Alonzo, A. J., Garlid, K. D., Bajgar, R., Lodge, N. J., Sleph, P. G., Darbenzio, R. B., Hess, T. A., Smith, M. A., Paucek, P., and Atwal, K. S., Pharmacologic characterization of BMS-191095, a mitochondrial $K_{ATP}$ opener with no peripheral vasodilator or cardiac action potential shortening activity. J. Pharmacol. Exp. Ther., 297, 1184-1192 (2001)
35 Kapural, L., Feinstein, M. B., O'Rourke, F., and Fein, A., Suppression of the delayed rectifier type of voltage gated $K^+$ outward current in megakaryocytes from patients with myelogenous leukemias. Blood, 86, 1043-1055 (1995)
36 Armstrong, S. C., Liu, G. S., Downey, J. M., and Ganote, C. E., Potassium channels and preconditioning of isolated rabbitcardiomyocytes: Effects of glyburide and pinacidil. J. Mol. Cell Cardiol., 27, 1765-1774 (1995)   DOI   ScienceOn
37 Habazettl, H., Hanusch, P., and Kupatt, C., Effects of endothelium/ leukocytes/platelet interaction on myocardial ischemia-- reperfusion injury. Z. Kardiol., 89(Suppl 9), IX/92-95 (2000)   DOI   ScienceOn