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ABSTRACT: Ulcerative colitis is an inflammatory bowel disease (IBD) characterized by recurrent episodes of colonic inflammation and tissue degeneration in human or animal models. The contractile force generated by the smooth muscle is significantly attenuated, resulting in altered motility leading to diarrhea or constipation in IBD. The aim of this study is to clarify the altered contractility of circular and longitudinal smooth muscle layers in proximal colon of trinitrobenzen sulfonic acid (TNBS)-induced colitis mouse. Colitis was induced by direct injection of TNBS (120 mg/kg, 50% ethanol) in proximal colon of ICR mouse using a 30 G needle anesthetized with ketamin (50 mg/kg), whereas animals in the control group were injected of 50% ethanol alone. In TNBS-induced colitis, the wall of the proximal colon is diffusely thickened with loss of haustration, and showed mucosal and mucular edema with inflammatory infiltration. The colonic inflammation is significantly induced the reduction of colonic contractile activity including spontaneous contractile activity, depolarization-induced contractility, and muscarinic acetylcholine receptor-mediated contractile response in circular muscle layer compared to the longitudinal muscle layer. The inward rectification of currents, especially, important to Ca(2+) and Na(+) influx-induced depolarization and contraction, was markedly reduced in the TNBS-induced colitis compared to the control. The muscarinic acetylcholine-mediated contractile responses were significantly attenuated in the circular and longitudinal smooth muscle strips induced by the reduction of membrane expression of canonical transient receptor potential (TRPC) channel isoforms from the proximal colon of the TNBS-induced colitis mouse than the control.
Korean Journal of Physiology and Pharmacology 12/2012; 16(6):437-46. · 0.96 Impact Factor
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ABSTRACT: Levobupivacaine is a long-acting amide local anesthetic that intrinsically produces vasoconstriction both in vivo and in vitro. Levobupivacaine increases intracellular calcium concentrations ([Ca(2+)](i)) in vascular smooth muscle cells. The goals of this in vitro study were to investigate whether levobupivacaine-induced contraction is associated with increased Ca(2+) sensitivity and to identify the protein kinases involved in mediating contraction in response to levobupivacaine in isolated rat aortic smooth muscle. The effect of levobupivacaine and potassium chloride (KCl) on the [Ca(2+)](i) and tension was measured simultaneously with acetoxymethyl ester of fura-2-loaded aortic strips. Cumulative levobupivacaine concentration-response curves were generated in the presence or absence of the following antagonists: GF 109203X; Y-27632; genistein; SP600125; PD 98059; and SB 203580. Levobupivacaine-induced protein kinase C (PKC), extracellular signal-regulated kinase (ERK), and c-Jun NH(2)-terminal kinase (JNK) phosphorylation and Rho-kinase (ROCK-2) membrane translocation were detected in rat aortic vascular smooth muscle cells using Western blotting. The slope of the [Ca(2+)](i)-tension curve for levobupivacaine was higher than that for KCl. Y-27632, GF 109203X, and SP600125 attenuated levobupivacaine-induced contraction in a concentration-dependent manner. Genistein, PD 98059, and SB 203580 attenuated levobupivacaine-induced contraction. Pretreatment with GF 109203X and Y-27632 inhibited levobupivacaine-induced PKC phosphorylation and Rho-kinase (ROCK-2) membrane translocation, respectively. Pretreatment with SP600125 or PD 98059 attenuated the levobupivacaine-induced phosphorylation of JNK and ERK, respectively. These results indicate that levobupivacaine-induced contraction involving an increase in myofilament Ca(2+) sensitivity involves the primary activation of Rho-kinase-, PKC-, and JNK-mediated pathways of rat aortic smooth muscle.
European journal of pharmacology 02/2012; 677(1-3):131-7. · 2.59 Impact Factor
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Jae-Gak Kim,
Hui-Jin Sung,
Seong-Ho Ok, Seong-Chun Kwon,
Kwang Seong Cheon,
Hye Jung Kim,
Ki Churl Chang,
Il-Woo Shin,
Heon-Keun Lee,
Young-Kyun Chung,
Ju-Tae Sohn
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ABSTRACT: Dexmedetomidine, a full agonist of the α(2B)-adrenoceptor that is mainly involved in vascular smooth muscle contraction, is primarily used for analgesia and sedation in intensive care units. High-dose dexmedetomidine produces hypertension in children and adults. The goal of this in vitro study was to investigate the role of the calcium (Ca(2+)) sensitization mechanism involving Rho-kinase, protein kinase C (PKC), and phosphoinositide 3-kinase (PI3-K) in mediating contraction of isolated rat aortic smooth muscle in response to dexmedetomidine. The effect of dexmedetomidine on the intracellular Ca(2+) level ([Ca(2+)](i)) and tension was measured simultaneously. Dexmedetomidine concentration-response curves were generated in the presence or absence of the following antagonists: rauwolscine, Y 27632, LY 294002, GF 109203X, and verapamil. Dexmedetomidine-induced phosphorylation of PKC and membrane translocation of Rho-kinase were detected with Western blotting. Rauwolscine, Y 27632, GF 109203X, LY 294002, and verapamil attenuated dexmedetomidine-induced contraction. The slope of the [Ca(2+)](i)-tension curve for dexmedetomidine was higher than that for KCl. Dexmedetomidine induced phosphorylation of PKC and membrane translocation of Rho-kinase. These results suggest that dexmedetomidine-induced contraction involves a Ca(2+) sensitization mechanism mediated by Rho-kinase, PKC, and PI3-K that is secondary to α(2)-adrenoceptor stimulation in rat aortic smooth muscle.
Canadian Journal of Physiology and Pharmacology 08/2011; · 1.95 Impact Factor
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ABSTRACT: TONIC SMOOTH MUSCLE EXHIBIT THE LATCH PHENOMENON: high force at low myosin regulatory light chains (MRLC) phosphorylation, shortening velocity (Vo), and energy consumption. However, the kinetics of MRLC phosphorylation and cellular activation in phasic smooth muscle are unknown. The present study was to determine whether Ca(2+)-stimulated MRLC phosphorylation could suffice to explain the agonist- or high K(+)-induced contraction in a fast, phasic smooth muscle. We measured myoplasmic [Ca(2+)], MRLC phosphorylation, half-time after step-shortening (a measure of Vo) and contractile stress in rabbit urinary bladder strips. High K(+)-induced contractions were phasic at both 22℃ and 37℃: myoplasmic [Ca(2+)], MRLC phosphorylation, 1/half-time, and contractile stress increased transiently and then all decreased to intermediate values. Carbachol (CCh)-induced contractions exhibited latch at 37℃: stress was maintained at high levels despite decreasing myoplasmic [Ca(2+)], MRLC phosphorylation, and 1/half-time. At 22℃ CCh induced sustained elevations in all parameters. 1/half-time depended on both myoplasmic [Ca(2+)] and MRLC phosphorylation. The steady-state dependence of stress on MRLC phosphorylation was very steep at 37℃ in the CCh- or K(+)-depolarized tissue and reduced temperature flattend the dependence of stress on MRLC phosphorylation compared to 37℃. These data suggest that phasic smooth muscle also exhibits latch behavior and latch is less prominent at lower temperature.
Korean Journal of Physiology and Pharmacology 06/2011; 15(3):171-7. · 0.96 Impact Factor
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ABSTRACT: Dexmedetomidine, a full agonist of α2B-adrenoceptors, is used for analgesia and sedation in the intensive care units. Dexmedetomidine produces an initial transient hypertension due to the activation of post-junctional α2B-adrenoceptors on vascular smooth muscle cells (SMCs). The aims of this in vitro study were to identify mitogen-activated protein kinase (MAPK) isoforms that are primarily involved in full, α2B-adrenoceptor agonist, dexmedetomidine-induced contraction of isolated rat aortic SMCs.
Rat thoracic aortic rings without endothelium were isolated and suspended for isometric tension recording. Cumulative dexmedetomidine (10⁻⁹ to 10⁻⁶ M) dose-response curves were generated in the presence or absence of extracellular signal-regulated kinase (ERK) inhibitor PD 98059, p38 MAPK inhibitor SB 203580, c-Jun NH₂-terminal kinase (JNK) inhibitor SP 600125, L-type calcium channel blocker (verapamil and nifedipine), and α₂-adrenoceptor inhibitor atipamezole. Dexmedetomidine-induced phosphorylation of ERK, JNK, and p38 MAPK in rat aortic SMCs was detected using Western blotting.
SP 600125 (10⁻⁶ to 10⁻⁵ M) attenuated dexmedetomidine-evoked contraction in a concentration- dependent manner, whereas PD 98059 had no effect on dexmedetomidine- induced contraction. SB 203580 (10⁻⁵ M) attenuated dexmedetomidine-induced contraction. Dexmedetomidine-evoked contractions were both abolished by atipamezole and attenuated by verapamil and nifedipine. Dexmedetomidine induced phosphorylation of JNK and p38 MAPK in rat aortic SMCs, but did not induce phosphorylation of ERK.
Dexmedetomidine-induced contraction involves a JNK- and p38 MAPK-mediated pathway downstream of α₂-adrenoceptor stimulation in rat aortic SMCs. In addition, dexmedetomidine-induced contractions are primarily dependent on calcium influx via L-type calcium channels.
Yonsei medical journal 05/2011; 52(3):420-8. · 0.77 Impact Factor
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ABSTRACT: This study was designed to clarify the mechanism of the inhibitory effect of forskolin on contraction, cytosolic Ca(2+) level ([Ca(2+)](i)), and Ca(2+) sensitivity in guinea pig ileum. Forskolin (0.1 nM~10 microM) inhibited high K(+) (25 mM and 40 mM)- or histamine (3 microM)-evoked contractions in a concentration-dependent manner. Histamine-evoked contractions were more sensitive to forskolin than high K(+)-evoked contractions. Spontaneous changes in [Ca(2+)](i) and contractions were inhibited by forskolin (1 microM) without changing the resting [Ca(2+)](i). Forskoln (10 microM) inhibited muscle tension more strongly than [Ca(2+)](i) stimulated by high K(+), and thus shifted the [Ca(2+)](i)-tension relationship to the lower-right. In histamine-stimulated contractions, forskolin (1 microM) inhibited both [Ca(2+)](i) and muscle tension without changing the [Ca(2+)](i)-tension relationship. In alpha-toxin-permeabilized tissues, forskolin (10 microM) inhibited the 0.3 microM Ca(2+)-evoked contractions in the presence of 0.1 mM GTP, but showed no effect on the Ca(2+)-tension relationship. We conclude that forskolin inhibits smooth muscle contractions by the following two mechanisms: a decrease in Ca(2+) sensitivity of contractile elements in high K(+)-stimulated muscle and a decrease in [Ca(2+)](i) in histamine-stimulated muscle.
Korean Journal of Physiology and Pharmacology 06/2009; 13(3):189-94. · 0.96 Impact Factor
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ABSTRACT: Two farnesylacetones, 311 and 312, major active constituents of Sargassum siliquastrum collected from the coast of the East Sea in Korea, showed a moderate vasodilatation effect on the basilar arteries of rabbits. Therefore, treatment with farnesylacetones 311 and 312 may selectively accelerate cerebral blood flow through dilatation of the basilar artery.
Bioorganic & medicinal chemistry letters 01/2009; 18(24):6324-6. · 2.65 Impact Factor
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ABSTRACT: G2A is a stress-inducible G protein-coupled receptor that is expressed on several cell types within atherosclerotic lesions. We demonstrated previously that G2A deficiency in mice increased aortic monocyte recruitment and increased monocyte:endothelial interactions. To investigate the impact of G2A deficiency in macrophages, we isolated peritoneal macrophages from G2A(+/+)ApoE(-/-) and G2A(-/-)ApoE(-/-) mice. G2A(-/-)ApoE(-/-) macrophages had significantly lower apoptosis than control macrophages. The prosurvival genes BCL-2, BCL-xL, and cFLIP were increased in G2A(-/-)ApoE(-/-) macrophages. Macrophages from G2A(-/-)ApoE(-/-) mice also had increased proinflammatory status that was indicative of a M1 macrophage phenotype. This was indicated by significantly increased nuclear translocation of nuclear factor kappaB, as well as production of interleukin-12p40, tumor necrosis factor alpha, and interleukin-6, and reduced expression of arginase-I. Moreover, G2A(-/-)ApoE(-/-) macrophages had reduced ability to engulf apoptotic cells in vitro. We examined atherosclerosis in mice fed a Western diet for 10 weeks and found that G2A deficiency increased lesion size in the aortic root by 50%. Plasma lipid levels were not changed in G2A(-/-)ApoE(-/-) mice. However, we found that absence of G2A increased the number of aortic macrophages and attenuated apoptosis in this cell type. Moreover, bone marrow transplantation studies indicated that deficiency of G2A in marrow-derived cells significantly contributed to atherosclerosis development. In the absence of G2A, increased macrophage activation and decreased apoptosis is associated with accumulation of macrophages in the aorta and increased atherosclerosis.
Circulation Research 01/2009; 104(3):318-27. · 9.49 Impact Factor
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Ok-Nam Bae,
Eun-Kyung Lim,
Kyung-Min Lim,
Ji-Yoon Noh,
Seung-Min Chung,
Moo-Yeol Lee,
Yeo-Pyo Yun, Seong-Chun Kwon,
Jun-Ho Lee,
Seung-Yeol Nah,
Jin-Ho Chung
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ABSTRACT: While arsenic in drinking water is known to cause various cardiovascular diseases in human, exact mechanism still remains elusive. Recently, trivalent-methylated arsenicals, the metabolites of inorganic arsenic, were shown to have higher cytotoxic potential than inorganic arsenic. To study the role of these metabolites in arsenic-induced cardiovascular diseases, we investigated the effect of monomethylarsonous acid (MMA III), a major trivalent-methylated arsenical, on vasomotor tone of blood vessels. In isolated rat thoracic aorta and small mesenteric arteries, MMA III irreversibly suppressed normal vasoconstriction induced by three distinct agonists of phenylephrine (PE), serotonin and endothelin-1. Inhibition of vasoconstriction was retained in aortic rings without endothelium, suggesting that MMA III directly impaired the contractile function of vascular smooth muscle. The effect of MMA III was mediated by inhibition of PE-induced Ca2+ increase as found in confocal microscopy and fluorimeter in-lined organ chamber technique. The attenuation of Ca2+ increase was from concomitant inhibition of release from intracellular store and extracellular Ca2+ influx via L-type Ca2+ channel, which was blocked by MMA III as shown in voltage-clamp assay in Xenopus oocytes. MMA III did not affect downstream process of Ca2+, as shown in permeabilized arterial strips. In in vivo rat model, MMA III attenuated PE-induced blood pressure increase indeed, supporting the clinical relevance of these in vitro findings. In conclusion, MMA III-induced smooth muscle dysfunction through disturbance of Ca2+ regulation, which results in impaired vasoconstriction and aberrant blood pressure change. This study will provide a new insight into the role of trivalent-methylated arsenicals in arsenic-associated cardiovascular diseases.
Environmental Research 09/2008; 108(3):300-8. · 3.40 Impact Factor
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ABSTRACT: Sargahydroquinoic acid (2), a major active constituent of Sargassum micracanthum collected from the coast of the East Sea in Korea, showed a selective vasodilatation effect on the basilar arteries of rabbits. Therefore, treatment with sargahydroquinoic acid may selectively accelerate cerebral blood flow through dilatation of the basilar artery without lowering systemic blood pressure.
Bioorganic & medicinal chemistry letters 05/2008; 18(8):2624-7. · 2.65 Impact Factor
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ABSTRACT: This study was designed to identify and characterize Na+-activated K+ current (I(K(Na))) in guinea pig gastric myocytes under whole-cell patch clamp. After whole-cell configuration was established under 110 mM intracellular Na+ concentration ([Na+]i) at holding potential of -60 mV, a large inward current was produced by external 60 mM K+([K+]degrees). This inward current was not affected by removal of external Ca2+. K+ channel blockers had little effects on the current (p>0.05). Only TEA (5 mM) inhibited steady-state current to 68+/-2.7% of the control (p<0.05). In the presence of K+ channel blocker cocktail (mixture of Ba2+, glibenclamide, 4-AP, apamin, quinidine and TEA), a large inward current was activated. However, the amplitude of the steady-state current produced under [K+]degrees (140 mM) was significantly smaller when Na+ in pipette solution was replaced with K+- and Li+ in the presence of K+ channel blocker cocktail than under 110 mM [Na+]i. In the presence of K+ channel blocker cocktail under low Cl- pipette solution, this current was still activated and seemed K+-selective, since reversal potentials (E(rev)) of various concentrations of [K+]degrees-induced current in current/voltage (I/V) relationship were nearly identical to expected values. R-56865 (10-20 microM), a blocker of I(K(Na)), completely and reversibly inhibited this current. The characteristics of the current coincide with those of I(K(Na)) of other cells. Our results indicate the presence of I(K(Na)) in guinea pig gastric myocytes.
Journal of Korean Medical Science 03/2007; 22(1):57-62. · 0.99 Impact Factor
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Young Chul Kim,
Jae Hoon Sim,
Young Ho Kim, Seong-Chun Kwon,
Sang Jin Lee,
Seung Ryul Kim,
Dong Woon Kim,
Seon-Mee Park,
Sei Jin Youn,
Sang-Jeon Lee,
De-Gang Xing,
Wen-Xie Xu,
Ki Whan Kim
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ABSTRACT: This study was designed to investigate the effects of polyamines on mechanical contraction and voltage-dependent calcium current (VDCC) of guinea-pig gastric smooth muscle. Mechanical contraction and calcium channel current I(Ba) were recorded by isometric tension recording and whole-cell patch clamp technique. Spermine, spermidine and putrescine inhibited spontaneous contraction of the gastric smooth muscle in a concentration-dependent manner. Spermine (2 mM) reduced high K+ (50 mM)-induced contraction to 16+/-6.4% of the control (n=9), and significantly inhibited I(Ba) in a reversible manner (p<0.05; IC50=0.8 mM). Pre- and post-treatment of tissue with spermine (2-5 mM, n=10) also inhibited acetylcholine (10 microM)-induced phasic contraction to 5+/-6.4% of the control. Inhibitory effect of spermine on I(Ba) was observed at a wide range of test potentials of current/voltage (I/V) relationship (p<0.05), and steady-state activation of I(Ba) was shifted to the right by spermine (p<0.05). Spermidine and putrescine (1 mM each) also inhibited I(Ba) to 51+/-5.7% and 81+/-5.3% of the control, respectively. And putrescine (1 mM) inhibited I(Ba) at whole tested potentials (p<0.05) without significant change of kinetics (p<0.05). Finally, 5 mM putrescine also inhibited high K+-induced contraction to 53+/-7.1% of the control (n=4). These findings suggest that polyamines inhibit contractions of guinea-pig gastric smooth muscle via inhibition of VDCC.
Journal of Korean Medical Science 03/2007; 22(1):48-56. · 0.99 Impact Factor
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ABSTRACT: The classic type of transient receptor potential channel (TRPC) is a molecular candidate for Ca(2+)-permeable cation channels in mammalian cells. Because TRPC channels have calmodulin (CaM) binding sites at their COOH termini, we investigated the effect of CaM on mTRPC5. TRPC5 was initially activated by muscarinic stimulation with 50 microM carbachol and then decayed rapidly even in the presence of carbachol. Intracellular CaM (150 microg/ml) increased the amplitude of mTRPC5 current activated by muscarinic stimulation. CaM antagonists (W-7 and calmidazolium) inhibited mTRPC5 currents when they were applied during the activation of mTRPC5. Pretreatment of W-7 and calmidazolium also inhibited the activation of mTRPC5 current. Inhibitors of myosin light chain kinase (MLCK) inhibited the activation of mTRPC5 currents, whereas inhibitors of CaM-dependent protein kinase II did not. Small interfering RNA against cardiac type MLCK also inhibited the activation of mTRPC5 currents. However, inhibitors of CaM or MLCK did not show any effect on GTPgammaS-induced currents. Application of both Rho kinase inhibitor and MLCK inhibitor inhibited GTPgammaS-induced currents. We conclude that CaM and MLCK modulates the activation process of mTRPC5.
AJP Cell Physiology 05/2006; 290(4):C1031-40. · 3.54 Impact Factor
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ABSTRACT: The role of rhoA/rho-associated kinase (ROK) signaling pathways in agonist-induced contraction of the rat myometrium was investigated. We measured the [Ca(2+)](i)-force relationship, phosphorylation of myosin regulatory light chains (MLC(20)) in intact tissue and the Ca(2+)-sensitization of force in permeabilized myometrial cells of rat. In measurements of the relationship between [Ca(2+)](i) and tension in intact tissue, Y-27632, a ROK inhibitor, significantly attenuated the carbachol-induced contraction without changing [Ca (2+)](i). Phosphorylation of MLC(20) was increased by carbachol and this increased phosphorylation was blocked by treatment of tissue with Y-27632. In tension measurements of single hyperpermeable cells, carbachol evoked sustained contraction at constant pCa 6.7 and these agonist-induced contractions were decreased by treatment with Y-27632. These results suggest that activation of a ROK-mediated signaling pathway(s) plays an important role in agonist-induced alterations in MLC(20) phosphorylation and force of rat myometrium.
Journal of Veterinary Medical Science 02/2003; 65(1):43-50. · 0.85 Impact Factor
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ABSTRACT: 1. Xestospongin-C isolated from a marine sponge, Xestospongia sp., has recently been shown to be a membrane-permeable IP(3) receptor inhibitor. In this study we examined the effects of this compound on smooth muscle from guinea-pig ileum. 2. In guinea-pig ileum permeabilized with alpha-toxin, xestospongin-C (3 microM) inhibited contractions induced by Ca(2+) mobilized from sarcoplasmic reticulum (SR) with IP(3) or carbachol with GTP, but not with caffeine. 3. In intact smooth muscle tissue, xestospongin-C (3-10 microM) inhibited carbachol- and high-K+-induced increases in [Ca(2+)](i) and contractions at sustained phase. 4. It also inhibited voltage-dependent inward Ba(2+) currents in a concentration-dependent manner with an IC(50) of 0.63 microM. Xestospongin-C (3-10 microM) had no effect on carbachol-induced inward Ca(2+) currents via non-selective cation channels; but it did reduce voltage-dependent K+ currents in a concentration-dependent manner with an IC(50) of 0.13 microM. 5. These results suggest that xestospongin-C inhibits the IP(3) receptor but not the ryanodine receptor in smooth muscle SR membrane. In intact smooth muscle cells, however, xestospongin-C appears to inhibit voltage-dependent Ca(2+) and K+ currents at a concentration range similar to that at which it inhibits the IP(3) receptor. Xestospongin-C is a selective blocker of the IP(3) receptor in permeabilised cells but not in cells with intact plasma membrane.
British Journal of Pharmacology 01/2003; 137(8):1207-12. · 4.41 Impact Factor
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ABSTRACT: This study was undertaken to determine the role of tyrosine kinase on intracellular Ca(2+) ([Ca(2+)](i)), myosin light chain (MLC) phosphorylation, and contraction caused by norepinephrine (NE) in rat aorta. NE induced a sustained contraction with an increase of [Ca(2+)](i). On the other hand, NE increased the phosphorylation of the 20 kDa MLC transiently. Pretreatment with genistein and tyrophostin 25, tyrosine kinase inhibitors, significantly inhibited NE-induced contraction, but did not affect the increase of [Ca(2+)](i) and MLC phosphorylation. These results suggest that tyrosine kinase may regulate the NE-mediated contraction without altering [Ca(2+)](i) and MLC phosphorylation in rat aorta.
FEBS Letters 03/2002; 512(1-3):282-6. · 3.54 Impact Factor
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ABSTRACT: It has been suggested that Ca(2+) sensitization mechanisms might contribute to myogenic tone. However, specific mechanisms have yet to be fully identified. Therefore, we investigated the role of protein kinase C (PKC)- or RhoA-induced Ca(2+) sensitization in myogenic tone of the rabbit basilar vessel.
Myogenic tone was developed by stretch of rabbit basilar artery. Fura-2 Ca(2+) signals, contractile responses, PKC immunoblots, translocation of PKC and RhoA, and phosphorylation of myosin light chains were measured.
Stretch of the resting vessel evoked a myogenic contraction and an increase in the intracellular Ca(2+) concentration ([Ca(2+)](i)) only in the presence of extracellular Ca(2+). Stretch evoked greater contraction than high K(+) at a given [Ca(2+)](i). The stretch-induced increase in [Ca(2+)](i) and contractile force were inhibited by treatment of the tissue with nifedipine, a blocker of voltage-dependent Ca(2+) channel, but not with gadolinium, a blocker of stretch-activated cation channels. The PKC inhibitors, H-7 and calphostin C, and a RhoA-activated protein kinase (ROK) inhibitor, Y-27632, inhibited the stretch-induced myogenic tone without changing [Ca(2+)](i). Immunoblotting using isoform-specific antibodies showed the presence of PKCalpha and PKCepsilon in the rabbit basilar artery. PKCalpha, but not PKCepsilon, and RhoA were translocated from the cytosol to the cell membrane by stretch. Phosphorylation of the myosin light chains was increased by stretch and the increased phosphorylation was blocked by treatment of the tissue with H-7 and Y-27632, respectively.
Our results are consistent with important roles for PKC and RhoA in the generation of myogenic tone. Furthermore, enhanced phosphorylation of the myosin light chains by activation of PKCalpha and/or RhoA may be key mechanisms for the Ca(2+) sensitization associated myogenic tone in basilar vessels.
Cardiovascular Research 03/2002; 53(2):431-8. · 6.06 Impact Factor
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Ok-Nam Bae,
Eun-Kyung Lim,
Kyung-Min Lim,
Ji-Yoon Noh,
Seung-Min Chung,
Moo-Yeol Lee,
Yeo-Pyo Yun, Seong-Chun Kwon,
Jun-Ho Lee,
Seung-Yeol Nah,
Jin-Ho Chung
[show abstract]
[hide abstract]
ABSTRACT: While arsenic in drinking water is known to cause various cardiovascular diseases in human, exact mechanism still remains elusive. Recently, trivalent-methylated arsenicals, the metabolites of inorganic arsenic, were shown to have higher cytotoxic potential than inorganic arsenic. To study the role of these metabolites in arsenic-induced cardiovascular diseases, we investigated the effect of monomethylarsonous acid (MMAIII), a major trivalent-methylated arsenical, on vasomotor tone of blood vessels. In isolated rat thoracic aorta and small mesenteric arteries, MMAIII irreversibly suppressed normal vasoconstriction induced by three distinct agonists of phenylephrine (PE), serotonin and endothelin-1. Inhibition of vasoconstriction was retained in aortic rings without endothelium, suggesting that MMAIII directly impaired the contractile function of vascular smooth muscle. The effect of MMAIII was mediated by inhibition of PE-induced Ca2+ increase as found in confocal microscopy and fluorimeter in-lined organ chamber technique. The attenuation of Ca2+ increase was from concomitant inhibition of release from intracellular store and extracellular Ca2+ influx via L-type Ca2+ channel, which was blocked by MMAIII as shown in voltage-clamp assay in Xenopus oocytes. MMAIII did not affect downstream process of Ca2+, as shown in permeabilized arterial strips. In in vivo rat model, MMAIII attenuated PE-induced blood pressure increase indeed, supporting the clinical relevance of these in vitro findings. In conclusion, MMAIII-induced smooth muscle dysfunction through disturbance of Ca2+ regulation, which results in impaired vasoconstriction and aberrant blood pressure change. This study will provide a new insight into the role of trivalent-methylated arsenicals in arsenic-associated cardiovascular diseases.
Environmental Research.
