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Modulation by mexiletine of action potentials, L-type Ca current and delayed rectifier K current recorded from isolated rabbit atrioventricular nodal myocytes (1997)

Mitcheson, J. S. ; Hancox, Jules C.

Springer

Pflügers Archiv 434 (1997), S. 855-858

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ISSN: 1432-2013

Keywords: Key words Atrioventricular node ; Single cell ; L-type calcium current ; ICa ; delayed rectifier ; IK ; mexiletine ; anti-arrhythmic

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Using whole-cell patch clamp recordings at 37°C, we have examined the effects of externally applied mexiletine (a class 1b antiarrhythmic agent) on action potentials, L-type Ca current (ICa,L) and delayed rectifier K current (IK) in single isolated rabbit atrioventricular nodal (AVN) myocytes. In spontaneously active AVN cells, 30–100 μM mexiletine depolarised the maximum diastolic potential and slowed both action potential upstroke and repolarisation. Under selective recording conditions for ICa,L, mexiletine reduced peak ICa,L (at +10 mV) amplitude in a dose-dependent fashion (41.8 ± 3.0% inhibition by 100 μM and 16.4 ± 1.8% at 30 μM). The voltage dependence of ICa,L activation was unaffected by both concentrations of the drug. Under selective recording conditions, IK amplitude was measured as the peak of the deactivating tail current following a depolarising voltage pulse to +20 mV. 30 μM mexiletine inhibited IK by 34.3 ± 5.8%, whilst 100 μM mexiletine reduced the current by 52.7 ± 6.1%. The effects of mexiletine on ICa,L and IK are likely to contribute significantly to the changes in action potentials observed in spontaneously active cells. These findings are also suggestive of key roles for ICa,L and IK in determining the shape and rate of action potentials in this region of the heart.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050476

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Voltage dependence of the Fura-2 transient in rabbit left atrial myocytes at 37°C (1997)

Mitcheson, J. S. ; Hancox, Jules C. ; Levi, Allan J.

Springer

Pflügers Archiv 433 (1997), S. 817-826

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ISSN: 1432-2013

Keywords: Key words Excitation ; contraction coupling ; Na-Ca exchange ; Calcium transient ; Atrial myocyte ; Cardiac myocyte

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We used the whole-cell patch-clamp technique and monitoring of Fura-2 fluorescence to investigate the voltage dependence of the L-type Ca current (I Ca,L) and intracellular Ca (Cai) transient in rabbit atrial myocytes at 37°C. Imaging the atrial cell membrane with Di-4-ANNEPS showed (in contrast to ventricular cells) that atrial cells had very few transverse tubules. We measured I Ca,L using a Cs-based internal dialysis solution to eliminate interfering K currents. The voltage dependence of peak I Ca,L amplitude was bell-shaped: I Ca,L was maximal at +10 mV and declined at more negative and positive potentials. For measuring the Fura-2 (Cai) transient, we used a K-based internal dialysis solution to preserve normal excitation–contraction coupling. Ryanodine (20 μM) plus thapsigargin (2 μM) (blockers of the sarcoplasmic reticulum, SR) abolished the phasic component of the Fura-2 transient (n = 5), demonstrating that the phasic Fura-2 transient provided an index of the magnitude of SR release. The Fura-2 transient also showed bell-shaped voltage dependence, but this was different from that for I Ca,L. The Fura-2 transient peaked at +30 mV and partially declined at more positive potentials; but at potentials where inward I Ca,L was small (if not absent), the phasic Fura-2 transient still attained a significant amplitude. We used a rapid application of nifedipine (32 μM), and of nifedipine plus 5 mM Ni, to assess the ability of I Ca,L and reverse-mode Na-Ca exchange to trigger SR Ca release. With test pulses to +10 mV and +60 mV, a rapid switch to nifedipine (which blocked I Ca,L) produced no significant reduction in phasic Fura-2 transient amplitude. This suggests that in the absence of I Ca,L, another mechanism was able to trigger SR release. With pulses to +10 and +60 mV, a single beat switch to nifedipine plus 5 mM Ni almost completely abolished the phasic transient. Since 5 mM Ni inhibits Na-Ca exchange, this suggests that, in the absence of I Ca,L, trigger Ca entry via reverse Na-Ca exchange was able to activate SR Ca release in atrial cells at 37°C. The mechanisms underlying the Fura-2 transient in atrial cells, and differences with pre-existing data from rabbit ventricular cells, are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050350

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An investigation of the role played by the E-4031-sensitive (rapid delayed rectifier) potassium current in isolated rabbit atrioventricular nodal and ventricular myocytes (1999)

Mitcheson, J. S. ; Hancox, J. C.

Springer

Pflügers Archiv 438 (1999), S. 843-850

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ISSN: 1432-2013

Keywords: Action potential clamp Barium-sensitive current Cardiac repolarisation E-4031-sensitive current Inward rectifier potassium current Rapid delayed rectifier potassium current

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract. The aim of this study was to measure and compare the profile of rapid delayed rectifier potassium current (I Kr) elicited by action potential (AP) waveforms applied to isolated rabbit atrioventricular nodal (AVN) and ventricular myocytes. All measurements were made using whole-cell patch-clamp recordings at 37°C. In AVN myocytes, I Kr during voltage steps and slow ramp depolarisations showed "inward rectification" (characteristic for this channel) at positive potentials. The E-4031-sensitive current showed half-maximal activation at –10.8±0.86 mV, with a slope factor for the activation relation of 6.5±0.77 mV (n=7). During AVN APs, I Kr rapidly reached a peak after the AP upstroke and remained at similar amplitude until late in AP repolarisation. At the maximum diastolic potential following the AVN AP, a component of I Kr remained which decayed during the pacemaker depolarisation, consistent with a role for the current in generating AVN pacemaker activity. In ventricular myocytes I Kr was small at the beginning of the AP, and increased slowly during the AP plateau. Measurement of Ba-sensitive-inward rectifier K current (I K1) in ventricular myocytes revealed that I K1 rapidly increased during the final AP repolarisation phase, whilst I Kr declined. It is concluded that I Kr may participate in both AP repolarisation and the pacemaker depolarisation in AVN cells, whilst in ventricular myocytes, I Kr and I K1 participate in controlling early and final AP repolarisation respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004249900118

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