Radwan Khawaled scite author profile

Small conductance Ca(2+)-activated potassium channels (SK channels) are coassembled complexes of pore-forming SK alpha subunits and calmodulin. We proposed a model for channel activation in which Ca2+ binding to calmodulin induces conformational rearrangements in calmodulin and the alpha subunits that result in channel gating. We now report fluorescence measurements that indicate conformational changes in the alpha subunit after calmodulin binding and Ca2+ binding to the alpha subunit-calmodulin complex. Two-hybrid experiments showed that the Ca(2+)-independent interaction of calmodulin with the alpha subunits requires only the C-terminal domain of calmodulin and is mediated by two noncontiguous subregions; the ability of the E-F hands to bind Ca2+ is not required. Although SK alpha subunits lack a consensus calmodulin-binding motif, mutagenesis experiments identified two positively charged residues required for Ca(2+)-independent interactions with calmodulin. Electrophysiological recordings of SK2 channels in membrane patches from oocytes coexpressing mutant calmodulins revealed that channel gating is mediated by Ca2+ binding to the first and second E-F hand motifs in the N-terminal domain of calmodulin. Taken together, the results support a calmodulin- and Ca(2+)-calmodulin-dependent conformational change in the channel alpha subunits, in which different domains of calmodulin are responsible for Ca(2+)-dependent and Ca(2+)-independent interactions. In addition, calmodulin is associated with each alpha subunit and must bind at least one Ca2+ ion for channel gating. Based on these results, a state model for Ca2+ gating was developed that simulates alterations in SK channel Ca2+ sensitivity and cooperativity associated with mutations in CaM.

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Bicuculline block of small-conductance calcium-activated potassium channels

Khawaled

Bruening‐Wright

Adelman

et al. 1999

Pfl�gers Archiv European Journal of Physiology

161

125

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Small-conductance calcium-activated potassium channels (SK channels) are gated solely by intracellular calcium ions and their activity is responsible for the slow afterhyperpolarization (AHP) that follows an action potential in many excitable cells. Brain slice studies commonly employ a methyl derivative of bicuculline (bicuculline-m), a GABAA (gamma-aminobutyric acid) receptor antagonist, to diminish the tonic inhibitory influences of GABAergic synapses, or to investigate the role of these synapses in specialized neural networks. However, recent evidence suggests that bicuculline-m may not be specific for GABAA receptors and may also block the slow AHP. Therefore, the effects of bicuculline-m on cloned apamin-sensitive SK2 and apamin-insensitive SK1 channels were examined following expression in Xenopus oocytes. The results show that at concentrations employed for slice recordings, bicuculline-m potently blocks both apamin-sensitive SK2 currents and apamin-insensitive SK1 currents when applied to outside-out patches. Apamin-insensitive SK1 currents run down in excised patches. The potency of bicuculline-m block also decreases with time after patch excision. Site-directed mutagenesis that changes two residues in the outer vestibule of the SK1 pore that confers apamin sensitivity also reduces run down of the current in patches, and endows stable sensitivity to bicuculline-m indistinguishable from SK2. Therefore, the use of bicuculline-m in slice recordings may mask apamin-sensitive slow AHPs that are important determinants of neuronal excitability. In addition, bicuculline-m-insensitive slow AHPs may indicate that the underlying channels have run down.

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Intestinal electrical stimulation decreases postprandial blood glucose levels in rats

Khawaled¹,

Blumen²,

Fabricant³

et al. 2009

Surgery for Obesity and Related Diseases

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Radwan Khawaled

Domains Responsible for Constitutive and Ca²⁺-Dependent Interactions between Calmodulin and Small Conductance Ca²⁺-Activated Potassium Channels

Bicuculline block of small-conductance calcium-activated potassium channels

Intestinal electrical stimulation decreases postprandial blood glucose levels in rats

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Radwan Khawaled

Domains Responsible for Constitutive and Ca2+-Dependent Interactions between Calmodulin and Small Conductance Ca2+-Activated Potassium Channels

Bicuculline block of small-conductance calcium-activated potassium channels

Intestinal electrical stimulation decreases postprandial blood glucose levels in rats

Contact Info

Product

Resources

About

Domains Responsible for Constitutive and Ca²⁺-Dependent Interactions between Calmodulin and Small Conductance Ca²⁺-Activated Potassium Channels