Molecular constituents of maxi KCa channels in human coronary smooth muscle: predominant α+β subunit complexes
Y Tanaka, P Meera, M Song, HG Knaus… - The Journal of …, 1997 - Wiley Online Library
Y Tanaka, P Meera, M Song, HG Knaus, L Toro
The Journal of physiology, 1997•Wiley Online Library1 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. 2 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 …
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. 2 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 …
- 1Human 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.
- 2The 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.
- 3In 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.
- 4The 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.
- 5We 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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