• Journal of Medicine and Life Science
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• 제15권2호
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• pp.67-71
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• 2018

Neuronal excitotoxicity induces mitochondrial dysfunction and the release of proapoptotic proteins. Excitotoxicity, the process by which the overactivation of excitatory neurotransmitter receptors leads to neuronal cell death. Neuronal death by excitotoxicity was related to neuronal degenerative disorders and hypoxia, results from excessive exposure to excitatory neurotransmitters, such as glutamate. Glutamate acts at NMDA receptors in cultured neurons to increase the intracellular free calcium concentration. Therefore endogenous glutamate may be a key factor to regulate neuronal cell death via activating $Ca^{2+}$ signaling. For this issue, we tested some conditions to alter intracellular $Ca^{2+}$ level in dissociated hippocampal neurons of rats. Cultured hippocampal neuron were treated by KCl (20 mM), $CaCl_2$ (3.8 mM) and glutamate ($5{\mu}M$) for 24 hrs. Interestingly, The Optical Density of hippocampal neurons was increased by high KCl application in MTT assay data. This enhanced response by high KCl was dependent on synaptic $Ca^{2+}$ influx but not on intracellular $Ca^{2+}$ level. However, the number of neurons seemed to be not changed in Hoechst 33342 staining data. These results suggest that enhancement of synaptic activity plays a key role to increase mitochondrial signaling in hippocampal neurons.

• The Korean Journal of Physiology and Pharmacology
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• 제1권6호
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• pp.817-824
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• 1997

Extracellular ATP elicits various biological responses and plays a significant role in physiological regulation. Recently, ATP-induced growth inhibitions were reported in some tumor cell lines, but these effects and mechanisms are not well hewn. This study was conducted to investigate ATP-induced growth inhibition in mouse $leukemic(P388D_1)$ cells. ATP inhibited cell growth in a dose-dependent manner as analyzed by MTS assay$(IC_{50}: 33.1\;{\mu}M)$. Nucleotides other than ATP, such as ADP$(37.5;{\mu}M)$ and AMP$(33.2;{\mu}M)$ had the same effects as ATP but adenosine$(57.8;{\mu}M)$ showed less effect than ATP. ATP attenuated the cells in $G_0/G_l\;and\;G_2/M$ phases but increased those in S phase in flow cytometric analysis. Hypodiploid cells$(A_0)$, the presumptive findings of apoptosis, were found among the ATP-treated cells. ATP induced DNA fragmentation into $180{\mu}200\;bps $as measured by electrophoresis. some apoptotic cells were stained by TUNEL method. ATP increased the intracellular free $Ca^{++}$concentration$([Ca^{++}]_i)$ and the increment of $([Ca^{++}]_i)$ was caused by influx from the extracellular space. These results suggest that extracellular ATP induces growth inhibition through apoptosis.

• Archives of Pharmacal Research
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• 제22권1호
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• pp.48-54
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• 1999

These studies were designed to examine the differential effect of nitric oxide (NO) and cGMP on glutamate neurotransmission. In primary cultures of rat cerebellar granule cells, the glutamate receptor agonist N-methyl-D-aspartate (NMDA) stimulates the elevation of intracellular calcium concentration ($[Ca^{2+}]_i$), the release of glutamate, the synthesis of NO and an increase of cGMP. Although NO has been shown to stimulate guanylyl cyclase, it is unclear yet whether NO alters the NMDA-induced glutamate release and ${[Ca^{2+}]}_i$ elevation. We showed that the NO synthase inhibitor, NG-monomethyl-L-arginine (NMMA), partially prevented the NMDA-induced release of glutamate and elevation of ${[Ca^{2+}]}_i$ and completely blocked the elevation of cGMP. These effects of NO on glutamate release and [Ca2+]i elevation were unlikely to be secondary to cGMP as the cGMP analogue, dibutyryl cGMP (dBcGMP), did not suppress the effects of NMDA. Rather, dBcGMP slightly augmented the NMDA-induced elevation of ${[Ca^{2+}]}_i$ with no change in the basal level of glutamate or ${[Ca^{2+}]}_i$. The extracellular NO scavenger hydroxocobalamine prevented the NMDA-induced release of glutamate providing indirect evidence that the effect of NO may act on the NMDA receptor. These results suggest that low concentration of NO has a role in maintaining the NMDA receptor activation in a cGMP-independent manner.

• Journal of Plant Biology
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• 제33권4호
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• pp.315-320
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• 1990

We investigated the interaction of auxin and Ca2+ on coleoptile segment elongation in seedlings of Zea mays L. Seedlings imbibed and raised either in the presence of 10 mM CaCl2 (HC), or in the absence of Ca2+ (LC) were used. Exposure to 10-5M auxin of coleoptiles from either HC or LC seedlings resulted in strong promotion of elongation. However, longer latent period (90 min) of the auxin effect was observed in HC than in LC seedlings (20 min). The length of latent period observed in HC coleoptiles was proportional to the concentration of CaCl2. The latent period of auxin effect observed in HC seedlings was abolished by pretreatment of the coleoptiles with TMB-8 which inhibits IP3-induced Ca2+ release from the tonoplasts. In segments of LC seedlings, the promotive effect of IAA (10-5M) was abolished by treatment with 5 mM calcium but was reversible upon treatment of the segments with 5 mM EGTA. These results suggest that the effect of auxin on coleoptile elongation is closely related to intracellular Ca2+ level.

• 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.97.2-97.2
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• 2003

(1R,9S)-(${\beta}$)-Hydrastine (HS) at 10-50 ${\mu}$M has been proven to have an inhibitory effect on dopamine biosynthesis in PC12 cells by the inhibition of tyrosine hydroxylase (TH) activity and TH gene expression. In the present study, therefore, the effects of HS on the basal and K$\^$+/-induced dopamine release, and Ca$\^$2+/ influx induced by high K$\^$+/ and caffeine in PC12 cells were investigated. The dopamine release by high K$\^$+/ (56 mM) was inhibited by co-incubation of 20 ${\mu}$M HS. Application of HS also significantly reduced the magnitude of the maintained Ca$\^$2+/ influx induced by K$\^$+/ depolarization. (omitted)

• The Korean Journal of Physiology and Pharmacology
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• 제14권1호
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• pp.21-28
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• 2010

Phenolic compounds affect intracellular free $Ca^{2+}$ concentration ($[Ca^{2+}]_i$) signaling. The study examined whether the simple phenolic compound octyl gallate affects ATP-induced $Ca^{2+}$ signaling in PC12 cells using fura-2-based digital $Ca^{2+}$ imaging and whole-cell patch clamping. Treatment with ATP ($100\;{\mu}M$) for 90 s induced increases in $[Ca^{2+}]_i$ in PC12 cells. Pretreatment with octyl gallate (100 nM to $20\;{\mu}M$) for 10 min inhibited the ATP-induced $[Ca^{2+}]_i$ response in a concentration-dependent manner ($IC_{50}=2.84\;{\mu}M$). Treatment with octyl gallate ($3\;{\mu}M$) for 10 min significantly inhibited the ATP-induced response following the removal of extracellular $Ca^{2+}$ with nominally $Ca^{2+}$-free HEPES HBSS or depletion of intracellular $Ca^{2+}$ stores with thapsigargin ($1\;{\mu}M$). Treatment for 10 min with the L-type $Ca^{2+}$ channel antagonist nimodipine ($1\;{\mu}M$) significantly inhibited the ATP-induced $[Ca^{2+}]_i$ increase, and treatment with octyl gallate further inhibited the ATP-induced response. Treatment with octyl gallate significantly inhibited the $[Ca^{2+}]_i$ increase induced by 50 mM KCI. Pretreatment with protein kinase C inhibitors staurosporin (100 nM) and GF109203X (300 nM), or the tyrosine kinase inhibitor genistein ($50\;{\mu}M$) did not significantly affect the inhibitory effects of octyl gallate on the ATP-induced response. Treatment with octyl gallate markedly inhibited the ATP-induced currents. Therefore, we conclude that octyl gallate inhibits ATP-induced $[Ca^{2+}]_i$ increase in PC12 cells by inhibiting both non-selective P2X receptor-mediated influx of $Ca^{2+}$ from extracellular space and P2Y receptor-induced release of $Ca^{2+}$ from intracellular stores in protein kinase-independent manner. In addition, octyl gallate inhibits the ATP-induced $Ca^{2+}$ responses by inhibiting the secondary activation of voltage-gated $Ca^{2+}$ channels.

• 대한약리학회지
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• 제26권1호
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• pp.25-33
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• 1990

가토의 적출동맥평활근 절편에 대한 peptide YY(PYY)의 수축작용을 관찰하고, PYY의 수축기전상 동원되는 칼슘의 기원을 조사하여 다음과 같은 결과를 얻었다. 각 동맥의 나선형 절편은 PYY의 실험조내 첨가에 의하여 농도의존적인 수축반응을 보였다. 그중 대퇴동맥이 가장 강력하고 예민한 수축경향을 보였으며, 그 다음은 대뇌의 기저동맥, 총장골동맥, 상장간막동맥, 신동맥, 총경동맥의 순으로 예민하였다. PYY에 대한 반응성을 Norepinephrine(NE)에 대한 반응성과 비교해볼때, 총경동맥과 신동맥은 PYY보다 NE에 대해서 유의하게 $(p{\leqslant}0.05)$예민하였고, 기저동맥은 NE보다 PYY에 더 예민하였다$(p{\leqslant}0.05)$. 대퇴동맥 절편에서 칼슘통로봉쇄제인 verapamil과 세포내 저장칼슘유리를 억제하는 3,4,5-Trimethoxybenzoic acid 8-(diethylamino)octyl ester ${\ulcorner}TMB-8{\lrcorner}$는 각각 PYY에 의한 수축을 억제하였는데 $(p{\leqslant}0.05)$, verapamil과 TMB-8이 동시에 존재할 때는 PYY에 의한 수축은 거의 완전히 억제되었고, ethyleneglycol-bis-(beta-aminoethyl ether), N,N,N‘,N’-tetraacetic acid${\ulcorner}EGTA{\lrcorner}$0.5mM를 첨가한 칼슘배제용액 내에서도 PYY에 의한 수축은 거의 완전히 억압되었다. 이상의 결과를 종합하면, 혈중 PYY가 증가했을 때는 교감신경계흥분시보다 강한 뇌혈관의 수축이 일어날 수 있으며, 뇌동맥압은 교감신경계 흥분시보다 더 높을 수가 있으리라 추정된다. 또 PYY에 의한 혈관 평활근 수축에는 세포외액의 칼슘과 세포내저장칼슘의 이용이 공히 필수적이라고 생각된다.

• The Korean Journal of Physiology
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• 제22권1호
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• pp.13-29
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• 1988

In order to elucidate the regulatory mechanism of intracellular calcium ion concentrations, contractions or contractures induced by $Na^{+}-removal$, calcium-application or ouabain-treatment as an index of $Na^+/Ca^{2+}$ exchange activity were studied in atrial muscle or vascular smooth muscle (aorta and renal artery) of the rabbit. The magnitude of low sodium contractures in atrial trabeculae increased with sigmoid shape when external sodium concentrations were reduced to sodium-free condition, whereas that of calcium contracture intensified in a parabolic pattern when external calcium concentrations were elevated to 8 mM. $Na^{+}-removal$ contractures were induced in a duration-dependent manner to $K^{+}-free$ exposure and same findings were observed with ouabain treatment. $Na^{+}-free$ contractures were not affected by verapamil treatment, but stimulated by $100{\mu}M\;Mn^{2+}$ and inhibited by high concentrations of $Mn^{2+}\;(2{\sim}8mM)$ in a dose-dependent manner. Ryanodine which is known to suppress the release of calcium from internal store abolished spontaneous twitch contractions induced by $K^{+}-free$ solution, but had no effect on the development $Na^{+}-free$ contractures. Na-free contractures were not always induced in vascular smooth muscle preparations. Contractures by $O\;mM\;Na^+$ were usually seen in aorta, but not often in renal artery.$50\;mM\;K^+$, noradrenaline (NA) and angiotensin II (AII) always evoked very large contraction in all preparations of vascular smooth muscle. Contractures developed by $O\;mM\;Na^+$ were not sensitive to verapamil treatment as in atrial trabeculae, but were abolished by $100{\mu}M\;Mn^{2+}$. In contrast to $Na^{+}-free$ contractures, $Mn^{2+}(100{\mu}M)$ had no effect on the contractures induced by NA or 50 mM$K^+$. Caffeine in the concentration of 10 mM evoked transient contracture in the distal renal artery. The rate of spontaneous relaxation in caffeine contracture was dependent upon the concentrations of external sodium, and had double component of relaxation when the rate of relaxation was plotted in the semilogarithmic scale of relative tension versus time. Especially late components of relaxation had more direct relation to $Na^+$ concentrations. It could be concluded that $Na^+/Ca^{2+}$ exchange mechanism in the heart has a large capacity, inhibited by $Mn^{2+}$ but not by verapamil and ryanodine, while $Na^+/Ca^{2+}$ exchange system in vascular smooth muscle has a very low capacity especially in small artery, inhibited by low concentration of $Mn^{2+}\;(100{\mu}M)$ but not affected by verapamil and ryanodine.

• 대한한방부인과학회지
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• 제26권4호
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• pp.66-81
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• 2013

Purpose: This study was carried out to investigate the anti-inflammatory effects of Ligustri Lucidi Fructus water extract (LF) in the lipopolysaccharide (LPS)-induced mouse macrophages RAW 264.7 cell. Methods: Ligustri Lucidi Fructus was extracted with distilled water (2,000 ml) for 2 hours. In order to evaluate cytotoxicity of LF, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay was performed. To investigate anti-inflammatory effects of LF, the concentration of nitric oxide (NO) was measured with NO assay, cytokine was measured by Bio-Plex cytokine assay, and intracellular calcium (Ca) was measured with Fluo-4 Ca assay in RAW 264.7 cell. And when p-value is below 0.05, it is judged to have the significant difference statistically (P<0.05). Results: 1. LF showed no cytotoxicity. 2. LF inhibited significantly the production of NO at the concentration of 25, 50 and $100{\mu}g/ml$. 3. LF inhibited significantly the production of interleukin (IL)-4, macrophage inflammatory protein (MIP)-$1{\alpha}$, granulocyte colony stimulating factor (G-CSF) at the concentration of 25, 50, 100 and $200{\mu}g/ml$. 4. LF inhibited significantly the production of granulocyte macrophage-colony stimulating factor (GM-CSF), vascular endothelial growth factor (VEGF) at the concentration of 50, 100 and $200{\mu}g/ml$, the interferon (IFN)-${\gamma}$ at 25, 50 and $100{\mu}g/ml$ respectively. 5. LF inhibited significantly the production of IL-$1{\beta}$ at the concentration of 50 and $200{\mu}g/ml$, the IL-5 at 25 and $100{\mu}g/ml$, the IL-12p70, MIP-$1{\beta}$ at 50 and $100{\mu}g/ml$, the regulated on activation, normal T cell expressed and secrete d (RANTES) at 100 and $200{\mu}g/ml$ respectively. 6. LF inhibited significantly the production of IL-10, interferon gamma-induced protein (IP)-10 at the concentration of $200{\mu}g/ml$. 7. LF inhibited significantly the production of intracellular Ca at the concentration of 25, 50, 100 and $200{\mu}g/ml$. Conclusions: These results suggest that LF has anti-inflammatory effect and immuno-modulating activity.

• The Korean Journal of Physiology
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• 제20권2호
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• pp.257-270
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• 1986

It has been reported that the luteal function may be regulated by the intracellular calcium in luteal cells (Higuchi et al, 1976; Dorflinger et at, 1984; Gore and Behrman, 1984) which is adjusted partially by $Ca^{++}-ATPase$ activities in luteal cell membranes (Verma and Pennistion, 1981). However, the physicochemical and kinetic properties of $Ca^{++}-ATPase$ in luteal membranes were not fully characterized. This study was, therefore, undertaken to partially characterize the physicochemical and kinetic properties of $Ca^{++}-ATPase$ system in luteal membranes and microsomal fractions, known as an one of the major $Ca^{++}$ storge sites (Moore and Pastan, 1978), from the highly luteinized ovary Highly luteinized ovaries were obtained from PMSG-hCG injected immautre female rats. Light membrane and heavy membrane fractions and microsomal fractions were prepared by the differential and discontinuous sucrose density gradient centrifugation method desribed by Bramley and Ryan (1980). Light membrane and heavy membrane fractions and microsomal fractions from highly luteinized ovaries are composed of the two different kinds of $Ca^{++}-ATPase$ system. One is the high affinity $Ca^{++}-ATPase$ which is activated in low $Ca^{++}$ concentration (Km, 10-30 nM), the other is low affinity $Ca^{++}-ATPase$ activated in higher $Ca^{++}$ concentration $(K_{1/2},\;40\;{\mu}M)$. At certain $Ca^{++}$ concentrations, activities of high and low affinity $Ca^{++}-ATPase$ are the highest in light membrane fractions and are the lowest in microsomal fractions. It appeares that high affinity $Ca^{++}-ATPase$ system have 2 binding sites for ATP (Hill's coefficient; around 2 in all membrane fractions measured) and the positive cooperativity of ATP bindings obviously existed in each membrane fractions. The optimum pH for high affinity $Ca^{++}-ATPase$ activation is around S in all membrane fractions measured. The lipid phase transition temperature measured by Arrhenius plots of high affinity $Ca^{++}-ATPase$ activity is around $25^{\circ}C$. The activation energies of high affinity $Ca^{++}-ATPase$ below the transition temperature are similar in each membrane fractions, but at the above transition temperature, it is the hightest in heavy membrane fractions and the lowest in microsomal fractions. According to the above results, it is suggested that intracellular $Ca^{++}$ level, which may regulate the luteal function, may be adjusted primarily by the high affinity $Ca^{++}-ATPase$ system activated in intracellular $Ca^{++}$ concentration range $(below\;0.1\;{\mu}M)$.