Ent (http://www.patentstorm.us/patents/7816400. html) [19] was used in the present study. The compound was dissolved in dimethyl sulfoxide (DMSO) as a 100 mM stock solution. Aliquot stock was stored at ?0uC. Tyrode’s solution contained (in mM) 140 NaCl, 5.4 KCl, 1 MgCl2, 1 CaCl2, 10 HEPES, 10 glucose; pH was adjusted to 7.3 with NaOH. The pipette solution contained (in mM) 20 KCl, 110 K-aspartate, 1 MgCl2, 10 HEPES, 5 EGTA, 0.1 GTP, 5 Na-phosphocreatine, and 5 Mg-ATP; pH was adjusted to 7.2 with KOH.Patch-clamp recordingThe coverslips with adherent HEK-hKv4.3 cells on the surface were transferred to an open cell chamber mounted on the stage of an inverted microscope and superfused at 2? mL/min. The whole-cell patch-clamp technique was used for electrophysiological recording as described previously [17,18]. Borosilicate glass electrodes (1.2-mm OD) were pulled using a Brown-Flaming puller (model P-97, EAI045 web Sutter Instrument Co, Novato, CA, USA). They had tip resistances of 2? MV when filled with the pipette solution. Membrane currents were recorded in voltage-clamp mode using an EPC 10 amplifier and Pulse software (HEKA, Lambrecht, Germany). A 3-M KCl-agar salt bridge was used as the reference electrode. The tip potential was zeroed before the patch pipette touched the cell. After a gigaohm seal was obtained, the cell membrane was ruptured by gentle suction to establish the whole-cell configuration. The series resistance (Rs) was 3? MV and was compensated by 50?0 to minimize voltage errors, and membrane capacitance was electrically compensated. Liquid junction potential (15.7 mV, calculated with Clampex 9.2) between pipette solution and bath solution was not adjusted during the experiments. MedChemExpress EAI045 current signal was sampled at 10 kHz, recorded and stored in the hard disk of an IBM compatible computer. The experiments were conducted at room temperature (22?3uC).Data analysisThe results are expressed as mean6SEM. Non-linear curve fitting was performed with Pulsefit (HEKA) and Sigmaplot 10.0 (SPSS, Chicago, Ill). Statistical comparisons were analyzed by Student’s t test for two group data or one-way ANOVA followed by Tukey’s test was used for multiple groups. P values less than 0.05 were considered to indicate statistically significant differences.Results Inhibition of hKv4.3 current by acacetinFigure 1A illustrates the time course of hKv4.3 current recorded in a representative cell, in the absence and presence of 10 mM acacetin, using a 300-ms voltage step to +50 mV from a holding potential of 280 mV (inset, 0.2 Hz). Acacetin gradually inhibited the hKv4.3 current. The current amplitude was measured from zero to the current peak. The inhibitory effect significantly recovered on washout. Similar results were obtained in eight other cells. Figure 1B displays the voltage-dependent hKv4.3 current determined in a typical experiment with the voltage protocol shown in the inset, in the absence and presence of acacetin. The current was inhibited by 3, 10, or 30 mM acacetin in aFigure 1. Inhibition of hKv4.3 current by acacetin. A. Time course of hKv4.3 step current recorded in a representative HEK 293 cell stably expressing KCND3 gene in the absence and presence of 10 mM acacetin with a 300-ms test pulse from ?0 to +50 mV (inset). Original current traces at corresponding time points are shown in the right of the panel. B. Voltage-dependent hKv4.3 current traces recorded in another cell using the protocol as shown in the inset in the absence (control) and pre.Ent (http://www.patentstorm.us/patents/7816400. html) [19] was used in the present study. The compound was dissolved in dimethyl sulfoxide (DMSO) as a 100 mM stock solution. Aliquot stock was stored at ?0uC. Tyrode’s solution contained (in mM) 140 NaCl, 5.4 KCl, 1 MgCl2, 1 CaCl2, 10 HEPES, 10 glucose; pH was adjusted to 7.3 with NaOH. The pipette solution contained (in mM) 20 KCl, 110 K-aspartate, 1 MgCl2, 10 HEPES, 5 EGTA, 0.1 GTP, 5 Na-phosphocreatine, and 5 Mg-ATP; pH was adjusted to 7.2 with KOH.Patch-clamp recordingThe coverslips with adherent HEK-hKv4.3 cells on the surface were transferred to an open cell chamber mounted on the stage of an inverted microscope and superfused at 2? mL/min. The whole-cell patch-clamp technique was used for electrophysiological recording as described previously [17,18]. Borosilicate glass electrodes (1.2-mm OD) were pulled using a Brown-Flaming puller (model P-97, Sutter Instrument Co, Novato, CA, USA). They had tip resistances of 2? MV when filled with the pipette solution. Membrane currents were recorded in voltage-clamp mode using an EPC 10 amplifier and Pulse software (HEKA, Lambrecht, Germany). A 3-M KCl-agar salt bridge was used as the reference electrode. The tip potential was zeroed before the patch pipette touched the cell. After a gigaohm seal was obtained, the cell membrane was ruptured by gentle suction to establish the whole-cell configuration. The series resistance (Rs) was 3? MV and was compensated by 50?0 to minimize voltage errors, and membrane capacitance was electrically compensated. Liquid junction potential (15.7 mV, calculated with Clampex 9.2) between pipette solution and bath solution was not adjusted during the experiments. Current signal was sampled at 10 kHz, recorded and stored in the hard disk of an IBM compatible computer. The experiments were conducted at room temperature (22?3uC).Data analysisThe results are expressed as mean6SEM. Non-linear curve fitting was performed with Pulsefit (HEKA) and Sigmaplot 10.0 (SPSS, Chicago, Ill). Statistical comparisons were analyzed by Student’s t test for two group data or one-way ANOVA followed by Tukey’s test was used for multiple groups. P values less than 0.05 were considered to indicate statistically significant differences.Results Inhibition of hKv4.3 current by acacetinFigure 1A illustrates the time course of hKv4.3 current recorded in a representative cell, in the absence and presence of 10 mM acacetin, using a 300-ms voltage step to +50 mV from a holding potential of 280 mV (inset, 0.2 Hz). Acacetin gradually inhibited the hKv4.3 current. The current amplitude was measured from zero to the current peak. The inhibitory effect significantly recovered on washout. Similar results were obtained in eight other cells. Figure 1B displays the voltage-dependent hKv4.3 current determined in a typical experiment with the voltage protocol shown in the inset, in the absence and presence of acacetin. The current was inhibited by 3, 10, or 30 mM acacetin in aFigure 1. Inhibition of hKv4.3 current by acacetin. A. Time course of hKv4.3 step current recorded in a representative HEK 293 cell stably expressing KCND3 gene in the absence and presence of 10 mM acacetin with a 300-ms test pulse from ?0 to +50 mV (inset). Original current traces at corresponding time points are shown in the right of the panel. B. Voltage-dependent hKv4.3 current traces recorded in another cell using the protocol as shown in the inset in the absence (control) and pre.
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