J. Kiehn et al., MOLECULAR PHYSIOLOGY AND PHARMACOLOGY OF HERG - SINGLE-CHANNEL CURRENTS AND BLOCK BY DOFETILIDE, Circulation, 94(10), 1996, pp. 2572-2579
Background The human ether-a-go-go-related gene (HERG) is one locus fo
r the hereditary long QT syndrome. A hypothesis is that HERG produces
the repolarizing cardiac potassium current I-Kr, with the consequence
that mutations in HERG prolong the QT interval by reducing I-Kr. The e
lementary properties of HERG are unknown, and as a test of the hypothe
sis that HERG produces I-Kr, we compared their elementary properties.
Methods and Results We injected HERC cRNA into Xenopus oocytes and mea
sured currents from single channels or current variance from the noise
produced by ensembles of channels recorded from macro patches. Single
-channel conductance was dependent on the extracellular potassium conc
entration ([K](o)). At physiological [K](o), it was 2 picosiemens (pS)
, and at 100 mmol/L [K](o), it was 10 pS. Openings occurred in bursts
with a mean duration of 26 Ins at -100 mV. Mean open time was 3.2 ms a
nd closed times were 1.0 and 26 ms. In excised macro patches, HERG cur
rents were blocked by the class III antiarrhythmic drug dofetilide, wi
th an IC50 of 35 nmol/L. Dofetilide block was slow and greatly attenua
ted at positive potentials at which HERG rectifies. Conclusions The mi
croscopic physiology of HERG and I-Kr is similar, consistent with HERG
being an important component of I-Kr. The pharmacology is also simila
r: dofetilide appears to primarily block activated channels and has a
much lower affinity for closed and inactivated channels.