• The Korean Journal of Physiology and Pharmacology
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• 제8권6호
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• pp.335-338
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• 2004

There are numerous studies on transepithelial transports in duct cells including $Cl^-$ and/or $HCO_3^-$. However, studies on transepithelial $K^+$ transport of normal duct cells in exocrine glands are scarce. In the present study, we examined the characteristics of $K^+$ currents in single duct cells isolated from guinea pig pancreas, using a whole-cell patch clamp technique. Both $Cl^-$ and $K^+$ conductance were found with KCI rich pipette solutions. When the bath solution was changed to low $Cl^-$, reversal potentials shifted to the negative side, $-75{\pm}4\;mV$, suggesting that this current is dominantly selective to $K^+$. We then characterized this outward rectifying $K^+$ current and examined its $Ca^{2+}$ dependency. The $K^+$ currents were activated by intracellular $Ca^{2+}$. 100 nM or 500 nM $Ca^{2+}$ in pipette significantly (P<0.05) increased outward currents (currents were normalized, $76.8{\pm}7.9\;pA$, n=4 or $107.9{\pm}35.5\;pA$, n=6) at +100 mV membrane potential, compared to those with 0 nM $Ca^{2+}$ in pipette $(27.8{\pm}3.7\;pA,\;n=6)$. We next examined whether this $K^+$ current, recorded with 100 nM $Ca^{2+}$ in pipette, was inhibited by various inhibitors, including $Ba^{2+}$, TEA and iberiotoxin. The currents were inhibited by $40.4{\pm}%$ (n=3), $87.0{\pm}%$ (n=5) and $82.5{\pm}%$ (n=9) by 1 mM $Ba^{2+}$, 5 mM TEA and 100 nM iberiotoxin, respectively. Particularly, an almost complete inhibition of the current by 100 nM iberiotoxin further confirmed that this current was activated by intracellular $Ca^{2+}$. The $K^+$ current may play a role in secretory process, slnce recycling of $K^+$ is critical for the initiation and sustaining of $CI^-$ or $HCO_3^-$ secretion in these cells.

• International Journal of Oral Biology
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• 제38권1호
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• pp.13-19
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• 2013

Various voltage-gated $K^+$ currents were recently described in dorsal root ganglion (DRG) neurons. However, the characterization and diversity of voltage-gated $K^+$ currents have not been well studied in trigeminal root ganglion (TRG) neurons, which are similar to the DRG neurons in terms of physiological roles and anatomy. This study was aimed to investigate the characteristics and diversity of voltage-gated $K^+$ currents in acutely isolated TRG neurons of rat using whole cell patch clamp techniques. The first type (type I) had a rapid, transient outward current ($I_A$) with the largest current size having a slow inactivation rate and a sustained delayed rectifier outward current ($I_K$) that was small in size having a fast inactivation rate. The $I_A$ currents of this type were mostly blocked by TEA and 4-AP, K channel blockers whereas the $I_K$ current was inhibited by TEA but not by 4-AP. The second type had a large $I_A$ current with a slow inactivation rate and a medium size-sustained delayed $I_K$ current with a slow inactivation rate. In this second type (type II), the sensitivities of the $I_A$ or $I_K$ current by TEA and 4-AP were similar to those of the type I. The third type (type III) had a medium sized $I_A$ current with a fast inactivation rate and a large sustained $I_K$ current with the slow inactivation rate. In type III current, TEA decreased both $I_A$ and $I_K$ but 4-AP only blocked $I_A$ current. The fourth type (type IV) had a smallest $I_A$ with a fast inactivation rate and a large $I_K$ current with a slow inactivation rate. TEA or 4-AP similarly decreased the $I_A$ but the $I_K$ was only blocked by 4-AP. These findings suggest that at least four different voltage-gated $K^+$ currents in biophysical and pharmacological properties exist in the TRG neurons of rats.

• 대한의생명과학회지
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• 제15권3호
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• pp.199-205
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• 2009

This study was designed to investigate direct effects of [D-$Pen^2$, D-$Pen^5$]-enkephalin, a $\delta$-opioid receptor agonist on the neuronal activity of medial vestibular nuclear (MVN) neurons by whole-cell configuration patch clamp experiments. The spike frequency of MVN neuron was increased to $9.50{\pm}0.55$ (P<0.05) and $10.56{\pm}0.66$ (P<0.05) by 5 and $10{\mu}M$ [D-$Pen^2$, D-$Pen^5$]-enkephalin from the control level of $8.05{\pm}0.55$ spikes/sec, respectively (n=18). The resting membrane potential of the neurons was increased to $-37.86{\pm}0.92$ and $-36.97{\pm}0.97$ (P<0.05) from $-38.74{\pm}1.13\;mV$ by 5 and $10{\mu}M$ [D-$Pen^2$, D-$Pen^5$]-enkephalin, respectively. The amplitude of afterhyperpolarization was decreased to $23.78{\pm}0.65$ and $21.67{\pm}0.89$ (P<0.05) from $23.73{\pm}0.53\;mV$ by 5 and $10{\mu}M$ [D-$Pen^2$, D-$Pen^5$]-enkephalin, respectively. The spike width was changed to $2.22{\pm}0.08$ and $2.24{\pm}0.07$ from $2.20{\pm}0.08\;mV$ by 5 and $10{\mu}M$ [D-$Pen^2$, D-$Pen^5$]-enkephalin, respectively. After pretreatment of naltrindole, a highly selective 8-opioid receptor antagonist, [D-$Pen^2$, D-$Pen^5$]-enkephalin did not change firing rate, resting membrane potential, afterhyperpolarization amplitude, and spike width of MVN neurons. The above experimental results suggest that [D-$Pen^2$, D-$Pen^5$]-enkephalin increases the neuronal activity of MVN neurons via inhibition of calcium-dependent potassium currents underlying the afterhyperpolarization.

• The Korean Journal of Physiology and Pharmacology
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• 제1권4호
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• pp.435-443
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• 1997

We employed the whole-cell patch clamp technique to investigate the effects of arachidonic acid (AA) on barium inward current through the L-type calcium channels ($I_{Ba}$) and on osmotic stretch-induced increase of $I_{Ba}$ in guinea-pig antral gastric myocytes. Under isosmotic condition, AA inhibited $I_{Ba}$ in a dose-dependent manner to $91.1{\pm}1.4,\;72.0{\pm}3.2,\;46.0{\pm}1.8,\;and\;20.3{\pm}2.3%$ at 1, 5, 10, 30 mM, respectively. The inhibitory effect of AA was not affected by 10 ${\mu}M$ indomethacin, a cyclooxygenase inhibitor. Other unsaturated fatty acids, linoleic acid (LA) and oleic acid (OA) were also found to suppress $I_{Ba}$ but stearic acid (SA), a saturated fatty acid, had no inhibitory effect on $I_{Ba}$. The potency sequence of these inhibitory effects was AA ($79.7{\pm}2.3%$) ＞ LA ($43.1{\pm}2.7%$) ＞ OA ($14.2{\pm}1.1%$) at 30 ${\mu}M$. On superfusing the myocyte with hyposmotic solution (214 mOsm) the amplitude of $I_{Ba}$ at 0 mV increased ($38.0{\pm}5.5%$); this increase was completely blocked by pretreatment with 30 mM AA, but not significantly inhibited by lower concentrations of AA (1, 5 and 10 ${\mu}M$) (P＞0.05). Unsaturated fatty acids shifted the steady-state inactivation curves of $I_{Ba}$ to the left; the extent of shift caused by AA was greater than that caused by LA. The activation curve was not affected by AA or LA. The results suggest that AA and other unsaturated fatty acids directly modulate L-type calcium channels and AA might modulate the hyposmotic stretch- induced increase of L-type calcium channel current in guinea-pig gastric smooth muscle.

• 한국의학물리학회지:의학물리
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• 제15권4호
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• pp.220-227
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• 2004

N형 칼슘통로의 비활성화기전에 관하여는 아직까지도 막전압의존성 기전과 칼슘의존성 기전간에 논란이 계속되고 있다. 2003년에 의학물리에 발표한 논문1)에서 본 연구자는 N형 칼슘통로의 비활성화 기전은 2가지 성분 -빠른 성분과 느린 성분을 가지고 있고 빠른 성분은 칼슘의존적이 아니며 오직 느린 성분만이 칼슘의존적일 가능성을 제시하였다. 본 논문에서는 막전압의존성 기전이 옳건 칼슘의존성 기전이 옳건 간에 세포 신호전달 체계로서 비활성화와 연계된 기전이 필요하므로 이러한 맥락에서 인산화 기전을 연구하였다. 흰쥐 경동맥 결절뉴론을 단일 세포로 얻은 후 whole cell patch clamp technique를 사용하여 N형 칼슘전류를 기록하고 대조 세포내액을 사용하였을 때와 phosphatase inhibitor인 okadaic acid를 포함한 세포내액을 사용하였을 때의 차이를 비교하였다. Okadaic acid에 의하여 비활성화정도가 증가되었고 이러한 okadaic acid 효과는 주로 N형 통로를 통하여 영향을 미침을 N형 칼슘통로 억제제인 $\omega$-conotoxin GVIA를 사용함으로써 확인하였다. Okadaic acid에 의한 비활성화 증가 효과는 protein kinase를 비특이적으로 억제하는 staurosporine에 의하여 억제되었고 또한 calmodulin dependent protein kinase의 특이적 억제제인 lavendustin C에 의하여 억제되었으므로 인산화과정이 N형 칼슘통로 비활성화와 관련되어 있고 특히 calmodulin을 통한 인산화과정이 주로 관여함을 확인하였다. 본 연구자가 발표한 선행논문1)에 의해 외부의 2가 양이온에 의해 빠른 비활성화가 진행되며, 본 논문에 의하여 인산화과정에 의해 빠른 비활성화가 촉진된다는 사실이 확인되었다. 그러나 본 연구결과만으로는 인산화과정이 비활성화 자체라고는 볼 수 없으며 단지 인산화과정에 의해 비활성화가 가속되었다고 해석할 수 밖에 없다. 인산화과정이 비활성화자 체인지 여부는 2가 양이온이 칼슘통로에 작용하는 결합부위에 관한 연구 및 인산화 부위가 칼슘통로인지 아니면 다른 조절 부위인지 여부를 확인할 수 있는 연구가 진행되어야 확실히 알 수 있을 것이다.

• 대한한의학방제학회지
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• 제30권2호
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• pp.37-44
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• 2022

Objectives : The purpose of this study was to examine the effects of Alisma canaliculatum Extract (ACE) on pacemaker potentials of small and large intestinal interstitial Cells of Cajal (ICC) in mice. Methods : We used enzymatic digestions to dissociate the ICC in the small and large intestine in mice. The whole-cell patch-clamp method was used to record pacemaker potentials in ICC. Results : 1. The ICC generated the pacemaker potentials in small intestine in mice. ACE (0.1-1mg/ml) induced membrane depolarization and decreased frequency with concentration-dependent manners. 2. Pretreatment with a Ca²⁺ free solution, Na⁺ 5 mM solution or 2-APB, a nonselective cation channel blocker, stopped the small intestinal ICC pacemaker potentials. In the case of Ca²⁺-free solution, Na⁺ 5 mM solution or 2-APB, ACE had no effects on the membrane depolarizations in small intestinal ICC. 3. The ICC generated the pacemaker potentials in large intestine in mice. Membrane depolarization appears regularly in the small intestine, but irregularly in the large intestine. ACE induced membrane depolarization (0.1-1mg/ml) and increased frequency (0.1-0.5mg/ml). 4. Pretreatment with a Ca²⁺ free solution, Na⁺ 5 mM solution or 2-APB, stopped the large intestinal ICC pacemaker potentials. In the case of Ca²⁺-free solution, Na⁺ 5 mM solution or 2-APB, ACE depolarized the membrane depolarizations in large intestinal ICC. 5. In mice, intestinal transit rate (ITR) values were dose-dependently decreased by the intragastric administration of ACE. Conclusions : These results suggest that ACE can regulate the pacemaker activity of ICC and the reaction by ACE is different from the small and large intestinal ICC, and the control of the intestinal motion by ACE may be caused by many complex processes.

• The Korean Journal of Physiology and Pharmacology
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• 제27권6호
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• pp.521-531
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• 2023

Transmembrane protein TMEM16A, which encodes calcium-activated chloride channel has been implicated in tumorigenesis. Overexpression of TMEM16A is associated with poor prognosis and low overall survival in multiple cancers including lung adenocarcinoma, making it a promising biomarker and therapeutic target. In this study, three structure-related sesquiterpene lactones (mecheliolide, costunolide and dehydrocostus lactone) were extracted from the traditional Chinese medicine Aucklandiae Radix and identified as novel TMEM16A inhibitors with comparable inhibitory effects. Their effects on the proliferation and migration of lung adenocarcinoma cells were examined. Whole-cell patch clamp experiments showed that these sesquiterpene lactones potently inhibited recombinant TMEM16A currents in a concentration-dependent manner. The half-maximal concentration (IC50) values for three tested sesquiterpene lactones were 29.9 ± 1.1 µM, 19.7 ± 0.4 µM, and 24.5 ± 2.1 µM, while the maximal effect (E_max) values were 100.0% ± 2.8%, 85.8% ± 0.9%, and 88.3% ± 4.6%, respectively. These sesquiterpene lactones also significantly inhibited the endogenous TMEM16A currents and proliferation, and migration of LA795 lung cancer cells. These results demonstrate that mecheliolide, costunolide and dehydrocostus lactone are novel TMEM16A inhibitors and potential candidates for lung adenocarcinoma therapy.

• The Korean Journal of Physiology and Pharmacology
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• 제28권4호
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• pp.313-322
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• 2024

Mutations within the SCN5A gene, which encodes the α-subunit 5 (Na_V1.5) of the voltage-gated Na⁺ channel, have been linked to three distinct cardiac arrhythmia disorders: long QT syndrome type 3, Brugada syndrome (BrS), and cardiac conduction disorder. In this study, we have identified novel missense mutations (p.A385T/R504T) within SCN5A in a patient exhibiting overlap arrhythmia phenotypes. This study aims to elucidate the functional consequences of SCN5A mutants (p.A385T/R504T) to understand the clinical phenotypes. Whole-cell patch-clamp technique was used to analyze the Na_V1.5 current (I_Na) in HEK293 cells transfected with the wild-type and mutant SCN5A with or without SCN1B co-expression. The amplitude of I_Na was not altered in mutant SCN5A (p.A385T/R504T) alone. Furthermore, a rightward shift of the voltage-dependent inactivation and faster recovery from inactivation was observed, suggesting a gain-of-function state. Intriguingly, the co-expression of SCN1B with p.A385T/R504T revealed significant reduction of I_Na and slower recovery from inactivation, consistent with the loss-of-function in Na⁺ channels. The SCN1B dependent reduction of I_Na was also observed in a single mutation p.R504T, but p.A385T co-expressed with SCN1B showed no reduction. In contrast, the slower recovery from inactivation with SCN1B was observed in A385T while not in R504T. The expression of SCN1B is indispensable for the electrophysiological phenotype of BrS with the novel double mutations; p.A385T and p.R504T contributed to the slower recovery from inactivation and reduced current density of Na_V1.5, respectively.

• 한국의학물리학회지:의학물리
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• 제25권3호
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• pp.157-166
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• 2014

뉴론에서 ATP는 분비 과립내에 신경전달물질과 함께 다량 저장되어 있다가 신경전달물질과 함께 분비되는 것으로 알려져 있으므로 신경전달물질의 자극-분비(stimulus-secretion) coupling 과정에 있어 중요한 조절작용을 할 것으로 기대된다. 그러므로 본 연구에서는 뉴론과 그 발생학적 기원이 동일한 부신수질 세포(adrenal chromaffin cell)를 대상으로 하여 세포막 칼슘통로를 통한 세포막 전류에 미치는 ATP의 영향을 측정함으로써 신경전달물질이 자극-분비 coupling 과정에 작용하는 ATP의 조절 작용을 알아보고자 하였다. 부신수질 세포의 칼슘통로를 통한 세포막 전류는 패치클램프 테크닉으로 기록하였다. 10 mM $Ba^{2+}$을 포함한 세포 외 용액에서, $Ba^{2+}$ current는 0.1 mM ATP를 세포외부에 처치했을 때, 평균 $36{\pm}6%$ (n=6) 감소되어 나타났고 ATP를 씻어준 후 전류는 다시 회복되는 가역적 반응을 보였다. ATP의 전류 억제 기전을 알아보고자 칼슘통로에서 관찰되는 현상 중의 하나인 소통(facilitation)현상을 기록하였다. +80 mV의 큰 prepulse를 준 후 바로 테스트 펄스를 주며 측정한 전류는 큰 prepulse에 의해 억제효과가 풀리는(disinhibition) 현상을 나타내었다. ATP 처치 후 큰 자극을 주어 $37{\pm}5%$ (n=11)의 $Ba^{2+}$ 전류 증가가 있었고 이는 ATP가 없는 상태에서 순수하게 큰 자극에 의해 소통되는 $25{\pm}3%$ (n=12)과 유의한 차이를 보였다(p<0.05). ATP의 억제 기전이 G-protein을 매개로 한 것인지를 알아보고자 가수분해 되지 않는 GTP 유도체인 $GTP{\gamma}S$를 세포 내에 준 후 $Ba^{2+}$ 전류를 기록하였다. $GTP{\gamma}S$에 의해 55%의 전류 크기의 감소가 있었고 이 환경에서 큰 prepulse를 인가하였을 때 $34{\pm}4%$ (n=19)의 소통현상을 보였다. 이는 $GTP{\gamma}S$가 없는 환경에서의 $25{\pm}3%$ (n=12)의 소통현상을 보인 것과 유의한 차이를 보였다(p<0.05). $Ba^{2+}$ current trace의 활성화 과정(activation)을 curve-fitting한 결과, control은 single exponential curve로 fitting된 반면, ATP 또는 $GTP{\gamma}S$를 처치한 경우, 그리고 ATP와 $GTP{\gamma}S$ 모두 처치한 경우에서는 double-exponential curve로 가장 잘 fitting이 되었다. 즉, ATP나 $GTP{\gamma}S$를 처치했을 때 모두 전류가 더 느리게 활성화되는 모양을 나타내었고, 이상의 결과로 미루어 ATP와 $GTP{\gamma}S$는 같은 방식으로 칼슘통로를 억제하고, 이러한 억제효과는 세포막에 아주 큰 전압을 걸어주면 칼슘 통로에 결합했던 G-protein이 막전압 의존적으로 떨어짐으로써 소실(disinhibition)된다고 해석된다. 본 연구에서 확인한 ATP의 칼슘통로 억제효과는 자체 크로마핀 세포 또는 주변 세포에서 아드레날린이 적게 분비되게 하는 autocrine 또는 paracrine inhibition 과정의 중요한 기전으로 작용할 것이다.