• Title/Summary/Keyword: $Ca^{++}$uptake

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A Study about the Mechanism of $Ca^{2+}$ and Pi Homeostasis by Estradiol 17$\beta$ in Proximal Tubule Cells in the Osteoporosis

  • Han Ho-jae;Park Soo-Hyun
    • Biomedical Science Letters
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    • v.10 no.4
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    • pp.375-383
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    • 2004
  • It has been reported that osteoporosis induced by the deficiency of estrogens in menopause is associated with the unbalance of Ca/sup 2+/ and Pi levels. Proximal tubule is very important organ to regualte Ca/sup 2+/ and Pi level in the body. However, the effect of estrogens on Ca/sup 2+/ and Pi regulation was not elucidated. Thus, we examined the effect of 17-β estradiol (E₂) on Ca/sup 2+/ and Pi uptake in the primary cultured rabbit renal proxiaml tubule cells. In the present study, E₂(> 10/sup -9/M) decreases Ca/sup 2+/uptake and stimulates Pi uptake over 3 days. E₂-induced decrease of Ca/sup 2+/ uptake and stimulation of Pi uptake were blocked by actinomycin D (a gene transcription inhibitor), cycloheximide (a protein synthesis inhibitor). tamoxifen, and progesterone (estrogen receptor antagonists). E₂-induced decrease of Ca/sup 2+/ uptake and stimulation of Pi uptake were blocked by SQ22536 (an adenylate cyclase inhibitor), Rp-cAMP (a cAMP antagonist), and PKI (a protein kinase A inhibitor). Indeed, E₂ increased cAMP formation. In addition, E₂-induced decrease of Ca/sup 2+/ uptake and stimulation of Pi uptake were blocked by staurosporine, H-7, and bisindolylmaleimide I (protein kinase C inhibitors) and E₂ translocated PKC from cytoslic fraction to membrane fraction. In conclusion, E₂ decreased Ca/sup 2+/ uptake and stimulated Pi uptake via cAMP and PKC pathway in the PTCs.

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Effects of Vanadate on Activity of $Ca^{++}$Activated ATPase and $Ca^{++}$ Uptake of Sarcoplasmic Reticulum in Rat Skeletal Muscle (Vanadate가 골격근 sarcoplasmic reticulum의 $Ca^{++}-ATPase$$Ca^{++}\;uptake$에 미치는 영향)

  • Joo, Soon-Jae;Han, Kyung-Hee;Leem, Joong-Woo;Kang, Doo-Hee
    • The Korean Journal of Physiology
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    • v.20 no.2
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    • pp.157-164
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    • 1986
  • Since it has been reported that vanadate inhibits $Ca^{++}-ATPase$ activity without affecting $Ca^{++}$ uptake, this study was undertaken to investigate the effects of vanadate on $Ca^{++}-ATPase$ activity and $Ca^{++}$ uptake in the sarcoplasmic reticulum of rat skeletal muscle. The following results were obtained. 1) $Ca^{++}$ activated ATPase activity of the intact sarcoplasmic reticulum was significantly inhibited when vanadate was added to the incubation medium at concentration greater than $10^{-6}\;M$. However $Mg^{++}$-ATPase activity of the intact SR was not affected by vanadate at concentrations ranging from $10^{-7}\;to\;10^{-4}\;M.$ Similarly, $Ca^{++}-ATPase$ activity in sonicated sarcoplasmic reticulum was significantly reduced by vanadate at a concentration $10^{-7}$ M or higher. 2) The uptake of $Ca^{++}$ by isolated sarcoplasmic reticulum was also inhibited by vanadate under the conditions where the turnover rate of $Ca^{++}-ATPase$ was made to increase. These results suggest that the inhibition of $Ca^{++}$ uptake by vanadate may be correlated with that of $Ca^{++}-ATPase$ if experimental conditions are properly set.

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Effect of sodium on transmembrane calcium movement in the cat ileal longitudinal muscle

  • Rho, Young-Jae;Yun, Il;Kang, Jung-Sook
    • Archives of Pharmacal Research
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    • v.10 no.2
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    • pp.80-87
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    • 1987
  • To get a better insight into the exxistence and the role of a Na-Ca exchange mechanism in smooth muscle, the effect of Na substitution with sucrose on tension development, cellular Ca uptake and $^{45}Ca$ efflux was investigated using isolated cat ileal longitudinal muscle strips. Experimental results were summarized as follows;1) Exposure of the cat ileal longitudinal muscle to Na-free solution induced a contraction, and the magnitude of the contraction increased after incubation of the muscle strips with ouabain ($2{\times10^{-}5}$M) for 1hr. 2) Cellular Ca uptake in Na-free solution increased with an increase in Na content of the Na-loading media, and a linear relationship existed between tissue Na content and cellular Ca uptake for 10 min 3) After tissues were equilibrated in PSS containing $^{45}Ca$ for 2hr, cellular Ca uptake decreased with rising the external Na concentration. 4)Removal of medium Na or inhibition of the Na-K pump decreased the rate of $^{45}Ca$ efflux. These results strongly suggested that Na substitution increases cellular Ca uptake and decreases the rate of $^{45}Ca$ efflux via a Na-Ca exchange mechanism.

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The Effects of Caffeine on the ATPase Activity and the Calcium Uptake of the Fragmented Sarcoplasmic Reticulum of Rabbit Skeletal Muscle (筋小胞體의 ATPase 活性과 칼슘吸收能에 미치는 Caffeine의 영향)

  • Ha, Doo-Bong
    • The Korean Journal of Zoology
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    • v.15 no.4
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    • pp.163-182
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    • 1972
  • The effects of caffeine on the ATPase activity and Ca uptake of the fragmented sarcoplasmic reticulum isolated from rabbit skeletal muscle were studied. The ATPase activity of the heavy fraction (2,000-8,000xG) was stimulated by caffeine while that of other lighter fractions was not. It is suggested that the enhancement of the ATPase by the caffeine treatment. The Ca uptake of the heavy and middle (10,000-20,000xG) fractions was inhibited by caffeine when measured at the medium Ca concentration higher than 200 nmoles/mg protein, while only that of the heavy fraction was inhibited when measured at the Ca concentration below 200 nmoles/mg protein. Experiments with dicumarol suggested that caffeine inhibits the Ca uptake of the mitochondria as well as that of the sarcoplasmic reticulum and that the inhibition of the Ca uptake by caffeine in the low Ca concentration in the heavy fraction is due to the inhibition of the mitochondrial Ca uptake by caffeine. It appeared highly probable that the potentiation of muscle contraction caused by caffeine is solely due to the inhibition of the Ca uptake by and to the release of the accumulated Ca from the sarcoplasmic reticulum.

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Inhibition of Sarcoplasmic Reticulum $Ca^{2+}$ Uptake by Pyruvate and Fatty Acid in H9c2 Cardiomyocytes: Implications for Diabetic Cardiomyopathy

  • Lee, Eun-Hee;Lee, Hye-Kyung;Kim, Hae-Won;Kim, Young-Hoon
    • The Korean Journal of Physiology and Pharmacology
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    • v.9 no.4
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    • pp.195-201
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    • 2005
  • High extracellular glucose concentration was reported to suppress intracellular $Ca^{2+}$ clearing through altered sarcoplasmic reticulum (SR) function. In the present study, we attempted to elucidate the effects of pyruvate and fatty acid on SR function and reveal the mechanistic link with glucose-induced SR dysfunction. For this purpose, SR $Ca^{2+}$-uptake rate was measured in digitonin-permeabilized H9c2 cardiomyocytes cultured in various conditions. Exposure of these cells to 5 mM pyruvate for 2 days induced a significant suppression of SR $Ca^{2+}$-uptake, which was comparable to the effects of high glucose. These effects were accompanied with decreased glucose utilization. However, pyruvate could not further suppress SR $Ca^{2+}$-uptake in cells cultured in high glucose condition. Enhanced entry of pyruvate into mitochondria by dichloroacetate, an activator of pyruvate dehydrogenase complex, also induced suppression of SR $Ca^{2+}$-uptake, indicating that mitochondrial uptake of pyruvate is required in the SR dysfunction induced by pyruvate or glucose. On the other hand, augmentation of fatty acid supply by adding 0.2 to 0.8 mM oleic acid resulted in a dose-dependent suppression of SR $Ca^{2+}$-uptake. However, these effects were attenuated in high glucose-cultured cells, with no significant changes by oleic acid concentrations lower than 0.4 mM. These results demonstrate that (1) increased pyruvate oxidation is the key mechanism in the SR dysfunction observed in high glucose-cultured cardiomyocytes; (2) exogenous fatty acid also suppresses SR $Ca^{2+}$-uptake, presumably through a mechanism shared by glucose.

Structural basis of Ca2+ uptake by mitochondrial calcium uniporter in mitochondria: a brief review

  • Jiho, Yoo
    • BMB Reports
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    • v.55 no.11
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    • pp.528-534
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    • 2022
  • Mitochondria are cellular organelles that perform various functions within cells. They are responsible for ATP production, cell-signal regulation, autophagy, and cell apoptosis. Because the mitochondrial proteins that perform these functions need Ca2+ ions for their activity, mitochondria have ion channels to selectively uptake Ca2+ ions from the cytoplasm. The ion channel known to play the most important role in the Ca2+ uptake in mitochondria is the mitochondrial calcium uniporter (MCU) holo-complex located in the inner mitochondrial membrane (IMM). This ion channel complex exists in the form of a complex consisting of the pore-forming protein through which the Ca2+ ions are transported into the mitochondrial matrix, and the auxiliary protein involved in regulating the activity of the Ca2+ uptake by the MCU holo-complex. Studies of this MCU holo-complex have long been conducted, but we didn't know in detail how mitochondria uptake Ca2+ ions through this ion channel complex or how the activity of this ion channel complex is regulated. Recently, the protein structure of the MCU holo-complex was identified, enabling the mechanism of Ca2+ uptake and its regulation by the MCU holo-complex to be confirmed. In this review, I will introduce the mechanism of action of the MCU holo-complex at the molecular level based on the Cryo-EM structure of the MCU holo-complex to help understand how mitochondria uptake the necessary Ca2+ ions through the MCU holo-complex and how these Ca2+ uptake mechanisms are regulated.

Characteristics of $[^3H]$-Choline Uptake into Synaptosomes from Rat Hippocampus

  • Lee, Se-Eun;Hong, Seong-Gil;Choe, Rim-Sun
    • Animal cells and systems
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    • v.2 no.2
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    • pp.233-238
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    • 1998
  • Certain basic characteristics of choline uptake in nerve terminals were studied with synaptosomes from rat hippocampus. Synaptosomal $[^3H]$-choline uptake was clarified as specific and high affinity by low Km value(2.2 uM), Na+-dependency and high sensitivity to hemicholinium-3, a competitive inhibitor of choline uptake. Choline uptake into synaptosomes was linearlys related to Na+ concentration and membrane potential. Extracellular Ca2+ modulated the choline uptake, but probably not through increase of intracellular $Ca^{2+}$, because this modulation was not affected the by high $K^+$-depolarization. EGTA (2mM) added for $Ca^{2+}$-free condition had a peculiar effect of decreasing choline uptake. These results suggest that Ca2+ may play an important role in regulating the metabolism of acetylcholine in the nerve terminals directly through the increase of acetylcholine release.

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Studies on the Calcium Uptake and ATPase Activity of the Fragmented Sarcoplasmic Reticulum (筋小胞體의 Ca 吸收能과 ATPase 活性에 관한 硏究)

  • Ha, Doo-Bong;Han, Jang-Hyun
    • The Korean Journal of Zoology
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    • v.14 no.2
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    • pp.43-56
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    • 1971
  • The Ca uptake by the fragmented sarcoplasmic reticulum of the rabbit skeletal muscle was measured under various concentrations of K, Mg, Caffeine, procaine and quinine. The ATPase activity of this reticular membrane was measured under the same conditions simultaneously. The saturation of Ca uptake was almost completed within 1 minute. The Ca uptake was inhibited by high concentrations of K (above 50 mM) and Mg (above 1 mM)in the absence of ATP. When ATP is present, however, the Ca uptake did not reflect the concentration of K, while it increased greatly as the concentration of Mg was increased. Caffeine and procaine caused the inhibition of Ca uptake in the presence of ATP, but quinine did not. The ATPase activity of the membrane was little affected by the concentration of K, while it was enhanced in the presence of Mg. Caffeine, procaine and quinine did not influence the ATPase activity.

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Potential Role of $Ca^{++}$ on the Differentiation of Erythroid Progenitor Cells

  • Cho, In-Koo;Huh, In-Hoe;Lee, Sang-Jun;Kim, Dong-Seop;Ann, Hyung-Soo
    • Archives of Pharmacal Research
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    • v.18 no.2
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    • pp.105-112
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    • 1995
  • In ordedr to gain insight into the mechanisms byl which erythropoietin promotes erythropoiesis, effects of various inhibitors on the erythropoietin-propmoted differentiation of erythroid progenitor cells and on the erythroid progenitor cells and on the erythropoietin-promoted $Ca^{++}$ uptake in the progenitor cells were determined, and the relationship between the inhibitory activity of each inhibitor cells were determined, and he relationship between the inhibitory activity of each inhibitor toward the differentiation and channel blocker (varapamil), a $Ca^{++}$ chelator (EDTA) and a protein kinase C inhibitor (stauroporine). All of these agents inhibited both the erythropoietin-mediated differentiation of the erythroid progenitor cells, as determined by the incroporation of $^{59}Fe$ into heme, and $Ca^{++}$ uptake in a concentrtion dependent manner. In the cases of varapamil and EDTA, the half-miximal inhibitory concentration $(IC_{50})$ values for differentiation of the progenitor cells may be theconsequence of the inhibition of the $Ca^{++}$ uptake in a concentration dependent manner. In the cases of varapamil and EDTA, the half-miximal inhibitory concentration dependent manner. In the cases of verapamil and EDTA, the half-miximal inhibitory concentration $(IC_{50})$ values for differentiation of the progenitor cells may be the consequence of the inhibition of the $Ca^{++}$ uptake by the inhibitor. On the other hand, in the cases of genistein and stauroporine, the $IC_{50}$ values for inhibition of differentitation were significantly different from that for inhibition of $Ca^{++}$uptake. These results suggest that the mechanism of inhibition of differentiation by these two inhibitors in complex. However, taken all together, the above results support the proposition that $Ca^{++}$ uptake may play a role in the erythropoietin-mediated differentiation of erythoid progenitor cells.

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Na-Ca Exchange in Sarcolemmal Vesicles Isolated from Cat Ileal Longitudinal Muscle (고양이 회장 종주근에서 Na-Ca 교환 기전의 특성에 관한 연구)

  • Woo, Jae-Suk;Suh, Duk-Joon;Kim, Yong-Keun;Lee, Sang-Ho
    • The Korean Journal of Physiology
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    • v.23 no.2
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    • pp.237-252
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    • 1989
  • Effect of a $Na^+$ gradient on $Ca^{2+}$ uptake was studied in isolated sarcolemmal vesicles of cat ileal longitudinal muscle. $Ca^{2+}$ uptake was markedly stimulated in the presence of an outwardly directed $Na^+$ gradient. External $Na^+$, monensin and A23187 abolished the $Na^+-dependent$ $Ca^{2+}$ uptake. Monovalent cations such as $K^+$, $Li^+$, $Rb^+$, $Cs^+$ and choline could not substitute for $Na^+$ in enhancement of $Ca^{2+}$ uptake. Divalent cations such as $Ba^{2+}$, $Sr^{2+}$, $Mn^{2+}$ and $Cd^{2+}$ but not $Mg^{2+}$ inhibited the $Na^+-dependent$ $Ca^{2+}$ uptake. Increase in external pH in the range of 6.0 to 8.0 stimulated the $Na^+-dependent$ $Ca^{2+}$ uptake. Amiloride inhibited the $Na^+-dependent$ $Ca^{2+}$ uptake at concentrations above 0.5 mM, whereas diltiazem or vanadate did not. The apparent Km of the $Na^+-dependent$ $Ca^{2+}$ uptake for $Ca^{2+}$ was 18.2 ${\mu}M$ and apparent Vmax was 689.7 pmole/mg protein/5 sec. Kinetic analysis of the $Na^+-dependent$ $Ca^{2+}$ uptake showed a noncompetitive interaction between internal $Na^+$ and external $Ca^{2+}$. The dependence of $Ca^{2+}$ uptake on internal $Na^+$ showed sigmoidal kinetics and Hill coefficient for internal $Na^+$ was 2.52. Inside positive membrane potential generated by imposing an inwardly directed $K^+$ gradient and valinomycin significantly stimulated the $Na^+-dependent$ $Ca^{2+}$ uptake. These results indicate that a $Na^+-Ca^{2+}$ exchange system exists in the sarcolemmal membranes isolated from cat ileal longitudinal muscle and it might operate as an electrogenic process.

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