• 제목/요약/키워드: vascular channel

검색결과 112건 처리시간 0.026초

Shear Stress and Atherosclerosis

  • Heo, Kyung-Sun;Fujiwara, Keigi;Abe, Jun-Ichi
    • Molecules and Cells
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    • 제37권6호
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    • pp.435-440
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    • 2014
  • Hemodynamic shear stress, the frictional force acting on vascular endothelial cells, is crucial for endothelial homeostasis under normal physiological conditions. When discussing blood flow effects on various forms of endothelial (dys)function, one considers two flow patterns: steady laminar flow and disturbed flow because endothelial cells respond differently to these flow types both in vivo and in vitro. Laminar flow which exerts steady laminar shear stress is atheroprotective while disturbed flow creates an atheroprone environment. Emerging evidence has provided new insights into the cellular mechanisms of flowdependent regulation of vascular function that leads to cardiovascular events such as atherosclerosis, atherothrombosis, and myocardial infarction. In order to study effects of shear stress and different types of flow, various models have been used. In this review, we will summarize our current views on how disturbed flow-mediated signaling pathways are involved in the development of atherosclerosis.

Effect of pH on the ATP-sensitive $K^+$ Channel in Aortic Smooth Muscle Cells from Rats

  • Kim, Se-Hoon;Kim, Il-Su;Kim, Hoe-Suk;Jeon, Byeong-Hwa;Chang, Seok-Jong
    • The Korean Journal of Physiology and Pharmacology
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    • 제1권5호
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    • pp.555-563
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    • 1997
  • The effects of pH on $K^+$ currents were investigated in single smooth muscle cells isolated from the thoracic aorta of Wistar-Kyoto rats. Whole-cell $K^+$ currents were recorded in the conventional configuration of the voltage-clamp technique. Pinacidil (10uM) activated the whole-cell current and the pinacidil-activated current was completely inhibited by glibenclamide (10uM) , an inhibitor of ATP-sensitive $K^+$ channel ($K_{ATP}$ channel). Pinacidil-activated current was reversed at near the $K^+$ equilibrium potential. This current was time- and voltage-independent and reduced by elevating intracellular ATP. Pinacidil-activated current was reduced by lowering the external pH. However, alteration of internal pH has controversial effects on pinacidil-activated current. When the single cell was dialyzed with 0.1 mM ATP, alteration of internal pH had no effect on pinacidil-activated $K^+$ current. In the contrast, when the single cell was dialyzed with 3 mM ATP, pinacidil-activated current was increased by lowering internal pH. Our results suggest that $K^+$ channel activated by pinacidil may be $K_{ATP}$ channel and internal $H^+$ may reduce the inhibitory effect of ATP on $K_{ATP}$ channel.

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전압의존성 $Ca^{2+}$ 통로 억제를 통한 계지(桂枝) 에탄올 추출물의 혈관이완 효능 (Vasodilation of Ethanol Extract of Cinnamomi Ramulus via Voltage Dependent $Ca^{2+}$ Channel Blockage)

  • 김종봉;신흥묵
    • 동의생리병리학회지
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    • 제24권4호
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    • pp.592-597
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    • 2010
  • Cinnamomi Ramulus is one of the medicinal plants that have been used to improve various diseases caused by insufficient blood circulation. This study was performed for the investigation of vasodilation efficacy ethanol extract of Cinnamomi Ramulus (CR). CR exhibited vascular relaxation against phenylephrine (PE, $10^{-6}M$)-, KCl- and NaF-induced contraction in rat thoracic aorta. In addition, its relaxation was endothelium-independent. Treatment of potassium channel blockers such as gilbenclamide (Gli, $10^{-5}M$), tetraethylammonium (TEA, 1 mM) and 4-aminopyridine (4-AP, 0.2 mM) did not effect on the relaxation of CR. The relaxant effects were also not inhibited by pre-treatment of rat aorta with L-NAME ($10^{-4}M$), methylene blue ($10^{-5}M$), indomethacin ($10^{-5}M$), and atropine ($10^{-6}M$). However, nifedipine ($10^{-5}M$), L-type $Ca^{2+}$ channel blocker, in part attenuated the relaxation of CR ($0.2\;mg/m{\ell}$), but SK&F96365 ($3{\times}10^{-5}M$), receptor activated $Ca^{2+}$ channel blocker and 2-APB ($10^{-4}M$), store operated $Ca^{2+}$ channel blocker did not affact dilation of CR. These findings suggest that the endothelium-independent relaxation effect of CR is partly related with inhibition of $Ca^{2+}$ influx via voltage dependent $Ca^{2+}$ channel.

Angiotensin II에 의해 유도되는 활성산소발생 기전에 대한 연구 (Angiotensin II-Induced Generation of Reactive Oxygen Species Is Regulated by a Phosphatidylinositol 3-Kinase/L-Type Calcium Channel Signaling Pathway)

  • 진서연;하정민;김영환;이혜선;배순식
    • 생명과학회지
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    • 제25권2호
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    • pp.231-236
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    • 2015
  • Angiotensin II (AngII)는 혈관평활근세포의 수축을 통해 혈관을 수축시키는 강력한 작용을 나타낼 뿐만 아니라 혈관세포의 성장 등에 중요한 역할을 한다. 본 연구에서는 AngII에 의해 형성되는 활성산소가 phosphatidylinositol 3-kinase (PI3K)에 유리되는 칼슘에 의해 조절된다는 것을 검증하였다. 쥐의 대동맥으로부터 분리된 혈관평활근세포에서 AngII에 의해 활성산소가 농도 의존적, 그리고 시간 의존적으로 형성됨을 관찰하였다. AngII에 의해 형성되는 활성산소는 PI3K의 억제제에 의해 봉쇄되었으나 EKR의 억제제에 의해서는 봉쇄되지 않음을 알 수 있었다. AngII에 의해 유리되는 칼슘은 L-type 칼슘이온통로 봉쇄제인 Nifedipine 또는 배양액에 칼슘이 제거된 환경에서 억제됨을 확인할 수 있었다. 마지막으로 AngII에 의해 형성되는 활성산소는 배양액에 칼슘이 없는 조건이나 L-type 칼슘이온통로 억제제를 전처리 하였을 경우 억제되는 것을 확인하였다. 이러한 결과들을 바탕으로 쥐의 대동맥으로부터 분리된 혈관평활근세포에서 AngII에 의한 활성산소의 형성은 PI3K/L-type 칼슘이온통로를 통한 기전을 통해 조절됨을 제안한다.

Ginseng Saponins Enhance Maxi $Ca^{2+}-activated\;K^+$ Currents of the Rabbit Coronary Artery Smooth Muscle Cells

  • Chunl Induk;Kim Nak-Doo
    • Journal of Ginseng Research
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    • 제23권4호
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    • pp.230-234
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    • 1999
  • 혈관의 평활근 세포막에 존재하는 포타슘채널은 근세포의 막전압을 조절하여 근수축 및 이완을 조절한다. 네가지 유형의 포타슘채널이 근세포막에 존재하며 이중 전도도가 큰 칼슘의존성-포타슘채널$(BK_{Ca})$은 평활근 막전압 조절에 중요한 기능을 담당하는 채널로 알려져 있다. 현재 홍삼 복합사포닌이 혈관 평활근의 이완을 증진시켜 혈압강하를 촉진시킨다고는 알려져 있으나 어떤 분자적 기전이나 전기생리학 기전으로 작용하는지 정확히 알려져 있지 않다. 본 연구는 홍삼 복합사포닌 및 사포닌 $Rg_3$ 성분이 토끼 관상동맥 평활근 세포의 $BK_{Ca}$채널의 활성을 증진시켜 막전압을 과분극시키고 곧 평활근 이완을 촉진한다는 가설을 테스트하였다. 관상동맥 평활근세포의 $BK_{Ca}$채널은 막전압 의존성, 외향정류(outward rectification) 특성을 보였고 단일채널의 전도도는 200pS으로 측정되었으며 charybdotoxin 및 tetraethylammonium에 억제되는 약리학적 특성을 보였다 Whole-cell $BK_{Ca}$활성은 홍삼 복합사포닌에 의해서 농도 의존적으로 증가되었으나 막전압 의존성은 변화되지 않았으며, 단일채널이 열리는 시간은 증가되었다. 홍삼 사포닌 $Rg_3$성분도 막전압 의존성에는 영향을 주지 않으면서$BK_{Ca}$의 활성을 증가시켰으며 단일채널이 열리는 시간도 증가시켰다. 따라서 홍삼 복합사포닌 및 사포닌 $Rg_3$성분은 $BK_{Ca}$의 활성을 증가시켜 막전압을 과분극시켜 평활관의 이완을 촉진한다고 여겨진다.

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The Increase of Calcium Current in Smooth Myocytes of Mesenteric Arteriole of Rat with Diabetes Mellitus Induced Hypertension

  • Park Gyeong-Seon;Jang Yeon-Jin;Park Chun-Sik;Im Chae-Heon
    • 한국생물물리학회:학술대회논문집
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    • 한국생물물리학회 1999년도 학술발표회 진행표 및 논문초록
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    • pp.61-62
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    • 1999
  • ;The mechanisms inducing hypertension are actively investigated and are still challenging topics. Basically hypertension must be caused by the disorder of $Ca^{2+}$ metabolism in vascular smooth muscle, such as the increase of $Ca^{2+}$ influx, the decrease of ci+ efflux, or the change of sensitivity of contractile protein etc. The one of cause of the increase of ci+ influx may be the change of ci+ channel activity. Even though the relationships of ci+ channel activity and hypertension were studied using various hypertension models, still it is not clear how much change of $Ca^{2+}$ channel activity in diabetes mellitus (DM) induced hypertension is occurred. We induced DM hypertension in SD rat and compared the $Ca^{2+}$ channel activity with age-matched normotensive SD rat. For inducing DM hypertension, left kidney was removed with 200 gm rat and, after 1 month, 60 mg/kg of streptozotocin was injected into peritoneal space to induce diabetes mellitus. Usually after 4-6 weeks, hypertension was fully induced. For isolating vascular smooth muscle cells (VSMC), we used mesenteric arteriole (3rd - 4th branch of mesenteric artery) of which diameter is below 150 urn. VSMCs were isolated enzymatically. $Ca^{2+}$ current was measured using whole cell patch clamp technique. All experiments were performed at $37^{\circ}C$. The cell membrane area of VSMC of DM hypertensive rat is larger than that of control VSMC($36.6{\pm}3.64{\;}pF{\;}vs{\;}22.4{\pm}1.29{\;}pF, {\;}mean{\pm}S.E.$) When we compared the current amplitude, the $Ca^{2+}$ current amplitude in VSMC of DM hypertensive rat is much larger than that in VSMC of normotensive age-matched rat. After $Ca^{2+}$ current amplitude was normalized by cell membrane area, the current amplitude in DM hypertension is increased to $249.1{\pm}15.9{\;}%{\;}(mean{\pm}S.E.M)$, which means the ;absolute current amplitude is about 4 times larger in DM hypertension. When we compared the steady state activation and inactivation. there were no noticeable differences. From these results. one of cause of the DM hypertension is due to the increase of $Ca^{2+}$ current amplitude. But it need further study why the $Ca^{2+}$ current is so large in VSMC of DM hypertension and how much $Ca^{2+}$ influx through $Ca^{2+}$ channel contribute to the increase of intracellular $Ca^{2+}$ and eventually contribute to development of hypertension.ypertension.

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Escitalopram, a selective serotonin reuptake inhibitor, inhibits voltage-dependent K+ channels in coronary arterial smooth muscle cells

  • Kim, Han Sol;Li, Hongliang;Kim, Hye Won;Shin, Sung Eun;Seo, Mi Seon;An, Jin Ryeol;Ha, Kwon-Soo;Han, Eun-Taek;Hong, Seok-Ho;Choi, Il-Whan;Choi, Grace;Lee, Dae-sung;Park, Won Sun
    • The Korean Journal of Physiology and Pharmacology
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    • 제21권4호
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    • pp.415-421
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    • 2017
  • We investigated the inhibitory effect of escitalopram, a selective serotonin reuptake inhibitor (SSRI), on voltage-dependent $K^+$ (Kv) channels in freshly separated from rabbit coronary arterial smooth muscle cells. The application of escitalopram rapidly inhibited vascular Kv channels. Kv currents were progressively inhibited by an increase in the concentrations of escitalopram, suggesting that escitalopram inhibited vascular Kv currents in a concentration-dependent manner. The $IC_{50}$ value and Hill coefficient for escitalopram-induced inhibition of Kv channels were $9.54{\pm}1.33{\mu}M$ and $0.75{\pm}0.10$, respectively. Addition of escitalopram did not alter the steady-state activation and inactivation curves, suggesting that the voltage sensors of the channels were not affected. Pretreatment with inhibitors of Kv1.5 and/or Kv2.1 did not affect the inhibitory action of escitalopram on vascular Kv channels. From these results, we concluded that escitalopram decreased the vascular Kv current in a concentration-dependent manner, independent of serotonin reuptake inhibition.

Endothelial Ca2+ signaling-dependent vasodilation through transient receptor potential channels

  • Hong, Kwang-Seok;Lee, Man-Gyoon
    • The Korean Journal of Physiology and Pharmacology
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    • 제24권4호
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    • pp.287-298
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    • 2020
  • Ca2+ signaling of endothelial cells plays a critical role in controlling blood flow and pressure in small arteries and arterioles. As the impairment of endothelial function is closely associated with cardiovascular diseases (e.g., atherosclerosis, stroke, and hypertension), endothelial Ca2+ signaling mechanisms have received substantial attention. Increases in endothelial intracellular Ca2+ concentrations promote the synthesis and release of endothelial-derived hyperpolarizing factors (EDHFs, e.g., nitric oxide, prostacyclin, or K+ efflux) or directly result in endothelial-dependent hyperpolarization (EDH). These physiological alterations modulate vascular contractility and cause marked vasodilation in resistance arteries. Transient receptor potential (TRP) channels are nonselective cation channels that are present in the endothelium, vascular smooth muscle cells, or perivascular/sensory nerves. TRP channels are activated by diverse stimuli and are considered key biological apparatuses for the Ca2+ influx-dependent regulation of vasomotor reactivity in resistance arteries. Ca2+-permeable TRP channels, which are primarily found at spatially restricted microdomains in endothelial cells (e.g., myoendothelial projections), have a large unitary or binary conductance and contribute to EDHFs or EDH-induced vasodilation in concert with the activation of intermediate/small conductance Ca2+-sensitive K+ channels. It is likely that endothelial TRP channel dysfunction is related to the dysregulation of endothelial Ca2+ signaling and in turn gives rise to vascular-related diseases such as hypertension. Thus, investigations on the role of Ca2+ dynamics via TRP channels in endothelial cells are required to further comprehend how vascular tone or perfusion pressure are regulated in normal and pathophysiological conditions.

Pinacidil causes depresor action, catecholamine release and vasorelaxation in the normotensive rat

  • Lim, Dong-Yoon;Lee, Eun-Sook
    • 대한약학회:학술대회논문집
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    • 대한약학회 2003년도 Proceedings of the Convention of the Pharmaceutical Society of Korea Vol.2-2
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    • pp.87.2-88
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    • 2003
  • The present study was conducted to investigate the effects of pinacidil, a potassium channel opener, on arterial blood pressure, catecholamine release and vascular contractile responses in the normotensve rats and to establish the mechanism of action. Phenylephrine (an adrenergi $_1$-receptor agonist) and high potassium (a membrane- depolarizing agent) caused greatly contractile responses in the isolated aortic strips, respectively. These phenylephrine (10$\^$-5/ M)-induced contractile responses were dose-dependently depressed in the presence of pinacidil (25 ∼ 100 ${\mu}$M). (omitted)

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A Case of Pial Arteriovenous Fistula with Giant Venous Aneurysm and Multiple Varices Treated with Coil Embolization

  • Oh, Hyuk-Jin;Yoon, Seok-Mann;Kim, Sung-Ho;Shim, Jai-Joon
    • Journal of Korean Neurosurgical Society
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    • 제50권3호
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    • pp.248-251
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    • 2011
  • Intracranial pial arteriovenous fistulas (AVFs) are rare vascular lesions of the brain. These lesions consist of one or more arterial connection to a single venous channel without true intervening nidus. A 24-year-old woman visited to our hospital because of headache, vomiting, dizziness and memory disturbance that persisted for three days. She complained several times of drop attack because of sudden weakness on both leg. Cerebral angiograms demonstrated a giant venous aneurysm on right frontal lobe beyond the genu of corpus callosum, multiple varices on both frontal lobes fed by azygos anterior cerebral artery, and markedly dilated draining vein into superior sagittal sinus, suggesting single channel pial AVF with multiple varices. Transarterial coil embolization of giant aneurysm and fistulous portion resulted in complete disappearance of pial AVF without complication.