Elimination of the transient outward current and action potential prolongation in mouse atrial myocytes expressing a dominant negative Kv4 alpha subunit

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Elimination of the transient outward current and action potential prolongation in mouse atrial myocytes expressing a dominant negative Kv4 $alpha$ subunit

Haodong Xu, Huilin Li and Jeanne M. Nerbonne

Department of Molecular Biology and Pharmacology, Washington University Medical School, St Louis, MO 63110, USA

Analyses of whole-cell voltage-clamp recordings from isolated adult (C57BL6) mouse atrial myocytes reveal the presence of two prominent Ca²⁺-independent depolarization-activated K⁺ currents: a rapidly activating and inactivating, transient outward K⁺ current, I_to,f; and a non-inactivating, steady-state, K⁺ current, I_ss.

The properties of I_to,f and I_ss in adult mouse atrial myocytes are similar to those of the analogous currents recently described in detail in adult mouse ventricular cells. A slowly inactivating K⁺ current, which is similar to I_K,slow in ventricular cells, is detected in ~40 % of adult mouse atrial myocytes, and when expressed, the density of this current component is substantially lower than the density of I_to,f or I_ss.

The similarity between atrial and ventricular I_to,f and the finding that both the Kv4 subfamily $alpha$ subunits, Kv4.2 and Kv4.3, are expressed in wild-type mouse atria prompted us to determine if atrial I_to,f is affected in transgenic mice expressing a mutant Kv4.2 $alpha$ subunit, Kv4.2W362F, that functions as a dominant negative.

Similar to findings in ventricular cells, electrophysiological recordings reveal that I_to,f is selectively eliminated in atrial myocytes isolated from transgenic mice expressing Kv4.2W362F, thereby demonstrating directly that Kv4 subfamily members also underlie mouse atrial I_to,f.

Neither the steady-state, non-inactivating K⁺ current I_ss, nor the inwardly rectifying K⁺ current I_K1, in atrial myocytes is affected by the expression of Kv4.2W362F.

In contrast to previous findings in Kv4.2W362F-expressing mouse ventricular myocytes, there is no evidence that electrical remodelling occurs in atrial cells when I_to,f is functionally eliminated.

The elimination of I_to,f is accompanied by marked increases in atrial action potential durations, although no electrocardiographic abnormalities attributable to, or suggestive of, altered atrial functioning are evident in Kv4.2W362F-expressing animals.

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