Your search keyword '"Moo Yeol Lee"' showing total 5 results

1. Myometrial relaxation of mice via expression of two pore domain acid sensitive K+ (TASK-2) channels.

Author

Kyu-Sang Kyeong, Seung Hwa Hong, Young Chul Kim, Woong Choi, Sun Chul Myung, Moo Yeol Lee, Ra Young You, Chan Hyung Kim, So Yeon Kwon, Hikaru Suzuki, Yeon Jin Park, Eun-Hwan Jeong, Hak Soon Kim, Heon Kim, Seung Woon Lim, Wen-Xie Xu, Sang Jin Lee, and Il Woon Ji

Subjects

MYOMETRIUM, SMOOTH muscle contraction, POTASSIUM channels, IMMUNOHISTOCHEMISTRY, CONFOCAL microscopy

Abstract

Myometrial relaxation of mouse via expression of two-pore domain acid sensitive (TASK) channels was studied. In our previous report, we suggested that two-pore domain acid-sensing K+ channels (TASK-2) might be one of the candidates for the regulation of uterine circular smooth muscles in mice. In this study, we tried to show the mechanisms of relaxation via TASK-2 channels in marine myometrium. Isometric contraction measurements and patch clamp technique were used to verify TASK conductance in murine myometrium. Western blot and immunehistochemical study under confocal microscopy were used to investigate molecular identity of TASK channel. In this study, we showed that TEA and 4-AP insensitive non-inactivating outward K+ current (NIOK) may be responsible for the quiescence of murine pregnant longitudinal myometrium. The characteristics of NIOK coincided with twopore domain acid-sensing K+ channels (TASK-2). NIOK in the presence of K+ channel blockers was inhibited further by TASK inhibitors such as quinidine, bupivacaine, lidocaine, and extracellular acidosis. Furthermore, oxytocin and estrogen inhibited NIOK in pregnant myometrium. When compared to non-pregnant myometrium, pregnant myometrium showed stronger inhibition of NIOK by quinidine and increased immunohistochemical expression of TASK-2. Finally, TASK-2 inhibitors induced strong myometrial contraction even in the presence of L-methionine, a known inhibitor of stretch-activated channels in the longitudinal myometrium of mouse. Activation of TASK-2 channels seems to play an essential role for relaxing uterus during pregnancy and it might be one of the alternatives for preventing preterm delivery. [ABSTRACT FROM AUTHOR]

Published

2016

2. Nicotine in High Concentration Causes Contraction of Isolated Strips of Rabbit Corpus Cavernosum.

Author

Hoai Bac Nguyen, Shin Young Lee, Soo Hyun Park, Jun Hyun Han, Moo Yeol Lee, and Soon Chul Myung

Subjects

PHYSIOLOGICAL effects of nicotine, IMPOTENCE, CYCLOOXYGENASE inhibitors, NICOTINIC receptors, RHO-associated kinases

Abstract

It is well known that cigarette smoke can cause erectile dysfunction by affecting the penile vascular system. However, the exact effects of nicotine on the corpus cavernosum remains poorly understood. Nicotine has been reported to cause relaxation of the corpus cavernosum; it has also been reported to cause both contraction and relaxation. Therefore, high concentrations of nicotine were studied in strips from the rabbit corpus cavernosum to better understand its effects. The proximal penile corpus cavernosal strips from male rabbits weighing approximately 4 kg were used in organ bath studies. Nicotine in high concentrations (10-5~10-4 M) produced dose-dependent contractions of the corpus cavernosal strips. The incubation with 10-5 M hexamethonium (nicotinic receptor antagonist) significantly inhibited the magnitude of the nicotine associated contractions. The nicotine-induced contractions were not only significantly inhibited by pretreatment with 10-5 M indomethacin (nonspecific cyclooxygenase inhibitor) and with 10-6 M NS-398 (selective cyclooxygenase inhibitor), but also with 10-6 M Y-27632 (Rho kinase inhibitor). Ozagrel (thromboxane A2 synthase inhibitor) and SQ-29548 (highly selective TP receptor antagonist) pretreatments significantly reduced the nicotine-induced contractile amplitude of the strips. High concentrations of nicotine caused contraction of isolated rabbit corpus cavernosal strips. This contraction appeared to be mediated by activation of nicotinic receptors. Rho-kinase and cyclooxygenase pathways, especially cyclooxygenase-2 and thromboxane A2, might play a pivotal role in the mechanism associated with nicotine-induced contraction of the rabbit corpus cavernosum. [ABSTRACT FROM AUTHOR]

Published

2015

3. Mechanism of Relaxation Via TASK-2 Channels in Uterine Circular Muscle of Mouse.

Author

Seung Hwa Hong, Rohyun Sung, Young Chul Kim, Hikaru Suzuki, Woong Choi, Yeon Jin Park, Ill Woon Ji, Chan Hyung Kim, Sun Chul Myung, Moo Yeol Lee, Tong Mook Kang, Ra Young You, Kwang Ju Lee, Seung Woon Lim, Hyo-Yung Yun, Young-Jin Song, Wen-Xie Xu, Hak Soon Kim, and Sang Jin Lee

Subjects

RELAXATION for health, PREGNANCY, SMOOTH muscle, ACIDOSIS, AMINOPYRIDINES

Abstract

Plasma pH can be altered during pregnancy and at labor. Membrane excitability of smooth muscle including uterine muscle is suppressed by the activation of K+ channels. Because contractility of uterine muscle is regulated by extracellular pH and humoral factors, K+ conductance could be connected to factors regulating uterine contractility during pregnancy. Here, we showed that TASK-2 inhibitors such as quinidine, lidocaine, and extracellular acidosis produced contraction in uterine circular muscle of mouse. Furthermore, contractility was significantly increased in pregnant uterine circular muscle than that of non-pregnant muscle. These patterns were not changed even in the presence of tetraetylammonium (TEA) and 4-aminopyridine (4-AP). Finally, TASK-2 inhibitors induced strong myometrial contraction even in the presence of L-methionine, a known inhibitor of stretch-activated channels in myometrium. When compared to non-pregnant myometrium, pregnant myometrium showed increased immunohistochemical expression of TASK-2. Therefore, TASK-2, seems to play a key role during regulation of myometrial contractility in the pregnancy and provides new insight into preventing preterm delivery. [ABSTRACT FROM AUTHOR]

Published

2013

4. A Novel Pathway Underlying the Inhibitory Effects of Melatonin on Isolated Rat Urinary Bladder Contraction.

Author

June Hyun Han, In Ho Chang, Soon Chul Myung, Moo Yeol Lee, Won Yong Kim, Seo Yeon Lee, Shin Young Lee, Seung Wook Lee, and Kyung Do Kim

Subjects

MELATONIN, BLADDER, PHENYLEPHRINE, ACETYLCHOLINE, SPRAGUE Dawley rats, SMOOTH muscle contraction

Abstract

The aim of the present study was to elucidate the direct effects of melatonin on bladder activity and to determine the mechanisms responsible for the detrusor activity of melatonin in the isolated rat bladder. We evaluated the effects of melatonin on the contractions induced by phenylephrine (PE), acetylcholine (ACh), bethanechol (BCh), KCl, and electrical field stimulation (EFS) in 20 detrusor smooth muscle samples from Sprague-Dawley rats. To determine the mechanisms underlying the inhibitory responses to melatonin, melatonin-pretreated muscle strips were exposed to a calcium channel antagonist (verapamil), three potassium channel blockers [tetraethyl ammonium (TEA), 4-aminopyridine (4-AP), and glibenclamide], a direct voltage-dependent calcium channel opener (Bay K 8644), and a specific calcium/calmodulin-dependent kinase II (CaMKII) inhibitor (KN-93). Melatonin pretreatment (10-8~10-6 M) decreased the contractile responses induced by PE (10-9∼10-4 M) and Ach (10-9∼10-4 M) in a dose-dependent manner. Melatonin (10-7 M) also blocked contraction induced by high KCl ([KCl]ECF; 35 mM, 70 mM, 105 mM, and 140 mM) and EFS. Melatonin (10-7 M) potentiated the relaxation response of the strips by verapamil, but other potassium channel blockers did not change melatonin activity. Melatonin pretreatment significantly decreased contractile responses induced by Bay K 8644 (10-11∼10-7 M). KN-93 enhanced melatonin-induced relaxation. The present results suggest that melatonin can inhibit bladder smooth muscle contraction through a voltage-dependent, calcium-antagonistic mechanism and through the inhibition of the calmodulin/CaMKII system. [ABSTRACT FROM AUTHOR]

Published

2012

5. The Relaxing Effect of α-Defensin 1 on the Adrenergic Responses of Rat Bladder.

Author

Shin Young Lee, Don Kyu Kim, Kyung Do Kim, Soon Chul Myung, and Moo Yeol Lee

Subjects

DEFENSINS, ADRENERGIC mechanisms, ADRENERGIC uptake inhibitors, SYMPATHOLYTIC agents, CYSTEINE proteinase inhibitors, POLYPEPTIDES, NEUTROPHILS

Abstract

Defensins, cysteine-rich cationic polypeptides released from neutrophils, are known to have powerful antimicrobial properties. In this study, we sacrificed 30 rats to investigate the effects of α-defensin 1 on detrusor muscle contractions in isolated rat bladder. From the experiments we found relaxing effects of α-defensin 1 on the contractions induced by phenylephrine (PE) but not by bethanechol (BCh) in the detrusor smooth muscles. To determine the mechanisms of the effects of α-defensin 1, the changes of effects on PE-induced contraction by α-defensin 1 pretreatment were observed after pretreatment of Rho kinase inhibitor (Y-27632), protein kinase C (PKC) inhibitor (Calphostin C), potent activator of PKC (PDBu; phorbol 12,13-dibutyrate), and NF-κB inhibitors (PDTC; pyrrolidinedithiocarbamate and sulfasalazine). The contractile responses of PE (10-9∼10-4 M) were significantly decreased in some concentrations of α-defensin 1 (5×10-9 and 5×10-8 M). When strips were pretreated with NF-κ?B inhibitors (PDTC and sulfasalazine; 10-7∼10-6 M), the relaxing responses by α-defensin 1 pretreatment were disappeared. The present study demonstrated that α-defensin 1 has relaxing effects on the contractions of rat detrusor muscles, through NF-κ?B pathway. Further studies in vivo are required to clarify whether α-defensin 1 might be clinically related with bladder dysfunction by inflammation process. [ABSTRACT FROM AUTHOR]

Published

2011