• The Korean Journal of Pharmacology
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• v.22 no.2
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• pp.151-156
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• 1986

There are some evidence for the presence of more than one type of calcium channels. To investigate whether organic calcium antagonist sensitive calcium channels exist in the isolated sarcolemmal membrane, we prepared high KCl-loaded sarcolemmal vesicle from the procine small instine, and induced calcium transport by high $K^+$ concentration or by electrical stimulation after preincubation of KCl-loaded vesicle in the low potassium solution. Calcium transport induced by high $K^+$ concentration (84.7mM) was significantly increased (p<0.05), compared with that by low $K^+$ concentration (2.08 mM), and not inhibited by diltiazem $(10^{-6}\;M)$. Calcium transport was inactivated with time. By continuous electrical stimulation (3V, 15Hz, 25m see), calcium transport was markedly increased, and inhibited significantly by dilltiazem $(10^{-6}\;M)$ and nifedipine $(10^{-6}\;M)$ (p<0.005), compared with the value of control without electrical stimulation. Calcium transport by electrical stimulation was not inactivated with time for at least 2 min. From these results, it was concluded that there was organic calcium antagonist sensitive channel in the isolated intestinal sarcolemma membrane, which was activated by electrical stimulation.

• 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.