FRET with multiply labeled HERG K+ channels as a reporter of the in vivo coarse architecture of the cytoplasmic domains

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Abstract

The intracellular N-terminus of human ether-a-go-go-related gene (HERG) potassium channels constitutes a key determinant of activation and deactivation characteristics and is necessary for hormone-induced modifications of gating properties. However, the general organization of the long amino and carboxy HERG terminals remains unknown. In this study we performed fluorescence resonance energy transfer (FRET) microscopy with a library of fluorescent HERG fusion proteins obtained combining site-directed and transposon-based random insertion of GFP variants into multiple sites of HERG. Determinations of FRET efficiencies with functional HERG channels labeled in different combinations localize the fluorophores, introduced in the amino and carboxy ends, in two quadratic planes of 7.8 and 8.6 nm lateral size, showing a vertical separation of nearly 8 nm without major angular torsion between the planes. Similar analysis using labels at positions 345 and 905 of the amino and carboxy terminals, located them slightly above the planes delimited by the amino and carboxy end labels, respectively. Our data also indicate an almost vertical arrangement of the fluorophores introduced in the NH2 and COOH ends and at position 905, but a near 45° angular rotation between the planes delimited by these labels and the 345-located fluorophores. Systematic triangulation using interfluorophore distances coming from multiply labeled channels provides an initial constraint on the overall in vivo arrangement of the HERG cytoplasmic domains, suggesting that the C-linker/CNBD region of HERG hangs centrally below the transmembrane core, with the initial portion of the amino terminus around its top and side surfaces directed towards the gating machinery.

Keywords

HERG
Potassium channel
Cytoplasmic domain architecture
FRET

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These authors contributed equally to this work.