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Familial And Acquired Long QT Syndrome And The Cardiac Rapid Delayed Rectifier Potassium Current (2000)

Witchel, Harry J ; Hancox, Jules C

Melbourne, Australia : Blackwell Science Pty

Clinical and experimental pharmacology and physiology 27 (2000), S. 0

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ISSN: 1440-1681

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: 1. Long QT syndrome (LQTS) is a cardiac disorder characterized by syncope, seizures and sudden death; it can be congenital, idiopathic, or iatrogenic.2. Long QT syndrome is so-named because of the connection observed between the distinctive polymorphic ventricular tachycardia torsade de pointes and prolongation of the QT interval of the electrocardiogram, reflecting abnormally slowed ventricular action potential (AP) repolarization. Acquired LQTS has many similar clinical features to congenital LQTS, but typically affects older individuals and is often associated with specific pharmacological agents.3. A growing number of drugs associated with QT prolongation and its concomitant risks of arrhythmia and sudden death have been shown to block the ‘rapid’ cardiac delayed rectifier potassium current (IKr) or cloned channels encoded by the human ether-a-go-go-related gene (HERG; the gene believed to encode native IKr). Because IKr plays an important role in ventricular AP repolarization, its inhibition would be expected to result in prolongation of both the AP and QT interval of the electrocardiogram.4. The drugs that produce acquired LQTS are structurally heterogeneous, including anti-arrhythmics, such as quinidine, non-sedating antihistamines, such as terfenadine, and psychiatric drugs, such as haloperidol. In addition to heterogeneity in their structure, the electrophysiological characteristics of HERG/IKr inhibition differ between agents.5. Here, clinical observations are associated with cellular data to correlate acquired LQTS with the IKr/HERG potassium (K+) channel. One strategy for developing improved compounds in those drug classes that are currently associated with LQTS could be to design drug structures that preserve clinical efficacy but are modified to avoid pharmacological interactions with IKr. Until such time, awareness of the QT-prolongation risk of particular agents is important for the clinician.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1440-1681.2000.03337.x

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Time course and voltage dependence of expressed HERG current compared with native ”rapid” delayed rectifier K current during the cardiac ventricular action potential (1998)

Hancox, J. C. ; Levi, Allan J. ; Witchel, Harry J.

Springer

Pflügers Archiv 436 (1998), S. 843-853

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ISSN: 1432-2013

Keywords: Key words Action potential clamp ; Cardiac ; Delayed rectifier ; HERG ; Ikr ; Potassium channel

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract It is widely believed that HERG (human ether-a-go-go-related gene) encodes the major subunit of the cardiac ”rapid” delayed rectifier K channel. The aims of the present study were threefold: (1) to record directly the time course and voltage dependence of expressed HERG current in a mammalian cell line, during an imposed ventricular action potential (AP); (2) to compare this with native rapid delayed rectifier current (I Kr) elicited by applying an AP command to isolated guinea-pig ventricular myocytes; (3) to provide mechanistic information regarding the profile of HERG/I Kr during the AP. We used the AP clamp technique and conventional whole-cell patch-clamp recordings at 32–34°C. HERG was transiently expressed in Chinese hamster ovary (CHO) cells. There was an outward current in transfected CHO cells, which developed progressively during the AP plateau and slow repolarisation phase. The instantaneous current-voltage (I-V) relation for both leak-subtracted HERG current (n=10) and E-4031-sensitive current (n=6) during AP repolarisation was maximal between –30 mV and –40 mV. The conductance-voltage (G-V) relation was maximal at potentials between –60 and –75 mV. A similar voltage dependence for HERG current was observed during a descending ramp from +60 to –80 mV (n=5), but not during either an ascending ramp (n=5), or a reversed AP waveform (n=8). These data suggest that instantaneous HERG current during the AP does not depend on the instantaneous command voltage alone, but upon the previous voltages during the applied waveform. The time course of activation of HERG current at potentials near the AP plateau was rapid. Tail currents recorded on premature repolarisation at different time points in the AP showed directly that HERG also activates rapidly during the AP. The I-V profiles of fully activated HERG and of current during the AP were very similar. I Kr from guinea-pig ventricular myocytes was measured as E-4031-sensitive current during the AP clamp command. The current had a similar I-V and G-V profile to HERG current in CHO cells. These data indicate that HERG current and native I Kr are similar during an applied AP waveform. Activation of HERG is rapid during the AP. However, due to rapid inactivation relatively little current flows until the potential becomes less positive than 0 mV. The removal of inactivation then allows more current to flow, giving rise to the distinct instantaneous I-V profile during the AP. The correlation between the voltage dependence of HERG during the AP and the fully activated I-V relation indicates that the contribution of HERG/I Kr to AP repolarisation is more significantly determined by the open-channel I-V relation, than the precise activation time course of the current.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050713

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