Yoshio Tanaka scite author profile

Human large‐conductance voltage‐ and calcium‐sensitive K+ (maxi KCa) channels are composed of at least two subunits: the pore‐forming subunit, α, and a modulatory subunit, β. Expression of the β subunit induces dramatic changes in α subunit function. It increases the apparent Ca2+ sensitivity and it allows dehydrosoyasaponin I (DHS‐I) to upregulate the channel. The functional coupling of maxi KCa channel α and β subunits in freshly dissociated human coronary smooth muscle cells was assessed. To distinguish maxi KCa currents modulated by the β subunit, we examined (a) their apparent Ca2+ sensitivity, as judged from the voltage necessary to half‐activate the channel (V1/2), and (b) their activation by DHS‐I. In patches with unitary currents, the majority of channels were half‐activated near –85 mV at 18 μm Ca2+, a value similar to that obtained when the human KCa channel α (HSLO) and β (HKVCaβ) subunits are co‐expressed. A small number of channels half‐activated around 0 mV, suggesting the activity of the α subunit alone. The properties of macroscopic currents were consistent with the view that most pore‐forming α subunits were coupled to β subunits, since the majority of currents had values for V1/2 near to –90 mV, and currents were potentiated by DHS‐I. We conclude that in human coronary artery smooth muscle cells, most maxi KCa channels are composed of α and β subunits. The higher Ca2+ sensitivity of maxi KCa channels, resulting from their coupling to β subunits, suggests an important role of this channel in regulating coronary tone. Their massive activation by micromolar Ca2+ concentrations may lead to a large hyperpolarization causing profound changes in coronary blood flow and cardiac function.

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Maxi-K_Ca, a Unique Member of the Voltage-Gated K Channel Superfamily

Toro

et al. 1998

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Large-conductance, voltage-, and Ca(2+)-sensitive K(+) (maxi-K(Ca)) channels regulate neuronal and smooth muscle excitability. Their pore-forming alpha-subunit shows similarities with voltage-gated channels and indeed can open in the practical absence of Ca(2+). The NH(2) terminus is unique, with a seventh transmembrane segment involved in beta-subunit modulation. The long COOH terminus is implied in Ca(2+) modulation.

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Effect of SEA0400, a novel inhibitor of sodium‐calcium exchanger, on myocardial ionic currents

Tanaka

Nishimaru

Aikawa

et al. 2002

British J Pharmacology

166

161

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The e ects of 2-[4-[(2,5-di¯uorophenyl) methoxy]phenoxy]-5-ethoxyaniline (SEA0400), a newly synthesized Na + -Ca 2+ exchanger (NCX) inhibitor, on the NCX current and other membrane currents were examined in isolated guinea-pig ventricular myocytes and compared with those of 2-[2-[4-(4-nitrobenzyloxy) phenyl]ethyl]isothiourea (KB-R7943). SEA0400 concentration-dependently inhibited the NCX current with a 10 fold higher potency than that of KB-R7943; 1 mM SEA0400 and 10 mM KB-R7943 inhibited the NCX current by more than 80%. KB-R7943, at 10 mM, inhibited the sodium current, L-type calcium current, delayed recti®er potassium current and inwardly rectifying potassium current by more than 50%, but SEA0400 (1 mM) had no signi®cant e ect on these currents. These results indicate that SEA0400 is a potent and highly selective inhibitor of NCX, and would be a powerful tool for further studies on the role of NCX in the heart and the therapeutic potential of its inhibition.

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The Large Conductance, Voltage-dependent, and Calcium-sensitive K+ Channel, Hslo, Is a Target of cGMP-dependent Protein Kinase Phosphorylation in Vivo

Alioua¹,

Tanaka²,

Wallner³

et al. 1998

Journal of Biological Chemistry

165

129

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Native large conductance, voltage-dependent, and Ca 2؉ -sensitive K ؉ channels are activated by cGMP-dependent protein kinase. Two possible mechanisms of kinase action have been proposed: 1) direct phosphorylation of the channel and 2) indirect via PKG-dependent activation of a phosphatase. To scrutinize the first possibility, at the molecular level, we used the human poreforming ␣-subunit of the Ca 2؉ -sensitive K ؉ channel, Hslo, and the ␣-isoform of cGMP-dependent protein kinase I. In cell-attached patches of oocytes co-expressing the Hslo channel and the kinase, 8-Br-cGMP significantly increased the macroscopic currents. This increase in current was due to an increase in the channel voltage sensitivity by ϳ20 mV and was reversed by alkaline phosphatase treatment after patch excision. In inside-out patches, however, the effect of purified kinase was negative in 12 of 13 patches. In contrast, and consistent with the intact cell experiments, purified kinase applied to the cytoplasmic side of reconstituted channels increased their open probability. This stimulatory effect was absent when heat-denatured kinase was used. Biochemical experiments show that the purified kinase incorporates ␥-33 P into the immunopurified Hslo band of ϳ125 kDa. Furthermore, in vivo phosphorylation largely attenuates this labeling in back-phosphorylation experiments. These results demonstrate that the ␣-subunit of large conductance Ca 2؉ -sensitive K ؉ channels is substrate for G-I␣ kinase in vivo and support direct phosphorylation as a mechanism for PKG-I␣-induced activation of maxi-K channels.

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Yoshio Tanaka

Molecular constituents of maxi K_Ca channels in human coronary smooth muscle: predominant α+β subunit complexes

Maxi-K_Ca, a Unique Member of the Voltage-Gated K Channel Superfamily

Effect of SEA0400, a novel inhibitor of sodium‐calcium exchanger, on myocardial ionic currents

The Large Conductance, Voltage-dependent, and Calcium-sensitive K+ Channel, Hslo, Is a Target of cGMP-dependent Protein Kinase Phosphorylation in Vivo

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Yoshio Tanaka

Molecular constituents of maxi KCa channels in human coronary smooth muscle: predominant α+β subunit complexes

Maxi-KCa, a Unique Member of the Voltage-Gated K Channel Superfamily

Effect of SEA0400, a novel inhibitor of sodium‐calcium exchanger, on myocardial ionic currents

The Large Conductance, Voltage-dependent, and Calcium-sensitive K+ Channel, Hslo, Is a Target of cGMP-dependent Protein Kinase Phosphorylation in Vivo

Contact Info

Product

Resources

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Molecular constituents of maxi K_Ca channels in human coronary smooth muscle: predominant α+β subunit complexes

Maxi-K_Ca, a Unique Member of the Voltage-Gated K Channel Superfamily