Arthur M. Brown scite author profile

Inward rectifier K+ channels pass prominent inward currents, while outward currents are largely blocked. The inward rectification is due to block by intracellular Mg2+ and a Mg(2+)-independent process described as intrinsic gating. The rapid loss of gating upon patch excision suggests that cytoplasmic factors participate in gating. "Intrinsic" gating can be restored in excised patches by nanomolar concentrations of two naturally occurring polyamines, spermine and spermidine. Spermine and spermidine may function as physiological blockers of inward rectifier K+ channels and "intrinsic" gating may largely reflect voltage-dependent block by these cations.

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Long QT Syndrome Patients With Mutations of the SCN5A and HERG Genes Have Differential Responses to Na ⁺ Channel Blockade and to Increases in Heart Rate

Schwartz

et al. 1995

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This is the first study to demonstrate differential responses of LQTS patients to interventions targeted to their specific genetic defect. These findings also suggest that LQT3 patients may be more likely to benefit from Na+ channel blockers and from cardiac pacing because they would be at higher risk of arrhythmia at slow heart rates. Conversely, LQT2 patients may be at higher risk to develop syncope under stressful conditions because of the combined arrhythmogenic effect of catecholamines with the insufficient adaptation of their QT interval when heart rate increases.

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Arthur M. Brown

Receptor-effector coupling by G proteins

Spermine and Spermidine as Gating Molecules for Inward Rectifier K ⁺ Channels

Long QT Syndrome Patients With Mutations of the SCN5A and HERG Genes Have Differential Responses to Na ⁺ Channel Blockade and to Increases in Heart Rate

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Arthur M. Brown

Receptor-effector coupling by G proteins

Spermine and Spermidine as Gating Molecules for Inward Rectifier K + Channels

Long QT Syndrome Patients With Mutations of the SCN5A and HERG Genes Have Differential Responses to Na + Channel Blockade and to Increases in Heart Rate

Contact Info

Product

Resources

About

Spermine and Spermidine as Gating Molecules for Inward Rectifier K ⁺ Channels

Long QT Syndrome Patients With Mutations of the SCN5A and HERG Genes Have Differential Responses to Na ⁺ Channel Blockade and to Increases in Heart Rate