ERG Proteins and Functional Cardiac I Kr Channels in Rat, Mouse, and Human Heart

• Published in: Trends in Cardiovascular Medicine Vol. 11; no. 7; pp. 286 - 294
• Main Authors: Pond, Amber L, Nerbonne, Jeanne M
• Format: Book Review
• Language: English
• Published: Elsevier Inc 01.10.2001
• ISSN: 1050-1738; 1873-2615
• DOI: 10.1016/S1050-1738(01)00127-X

The voltage-gated K + channel (Kv) pore forming α subunit, ERG1 (KCNH2), has been identified as the locus of mutations in one type of inherited long QT syndrome, LQT2. Heterologous expression of ERG1 reveals rapidly activating and inactivating K + currents, characterized by marked inward rectification at potentials positive to 0 mV, which are similar to the rapid component of cardiac delayed rectification I Kr . There are, however, marked differences in the properties of expressed ERG1 and endogenous cardiac I Kr , suggesting that functional I Kr channels reflect the coassembly of full-length ERG1 with splice variants and /or accessory subunits. Consistent with these hypotheses, N- and C-terminal variants of ERG1 have been identified, and it has been demonstrated that heterologously expressed ERG1 and minK (or MiRP1) coimmunoprecipitate. Recent biochemical studies, however, suggest that only full-length ERG1 is expressed in adult mouse, rat, or human heart. Clearly, further studies, focused on identifying the subunits that coassemble with ERG1 in vivo, as well as on post-translational processing of the full-length ERG1 protein will be necessary to define the molecular composition of functional cardiac I Kr channels.