A privileged ER compartment for post-translational heteromeric assembly of an ion channel

  1. Sudharsan Kannan
  2. William Kasberg
  3. Liliana R. Ernandez
  4. Anjon Audhya
  5. Gail A. Robertson
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Abstract

Mechanisms underlying heterotypic subunit assembly of ion channels and other oligomeric complexes are poorly understood. In the human heart, heteromeric assembly of two isoforms encoded by thehuman ether-à-go-go related gene(hERG) is essential for the normal function of cardiac IKrin ventricular repolarization, with loss of hERG1b contributing to arrhythmias associated with long QT-syndrome (LQTS). While hERG1a homomers traffic efficiently to the plasma membrane, hERG1b homomers are retained in the endoplasmic reticulum (ER). When expressed together, the two subunits avidly associate during biogenesis. Seeking rules specifying heteromeric association, we characterized the fate of hERG1b proteins using confocal and superresolution imaging in fixed and live HeLa cells. We found hERG1b sequestered in punctate intracellular structures when expressed alone in HeLa cells. These puncta, which depend on the presence of an N-terminal “RXR” ER retention signal, represent a privileged ER sub-compartment distinct from that containing ER-retained, type 2 (hERG-based) LQTS mutant proteins, which were rapidly degraded by the proteasome. Introducing hERG1a to cells with preformed hERG1b puncta dissolved these puncta by rescuing extant hERG1b. Rescue occurred by association of fully translated hERG1b with 1a, a surprising finding given previous studies demonstrating cotranslational heteromeric association. We propose that sequestration limits potentially deleterious surface expression of hERG1b homomeric channels while preserving hERG1b for an alternative mode of heteromeric hERG1a/1b channel assembly post-translationally. These findings reveal a surprising versatility of biosynthetic pathways promoting heteromeric assembly.

Significance Statement

hERG potassium channels are essential for repolarizing the ventricular action potential. Heteromeric hERG channels, which conduct cardiac IKr, are formed by association of hERG1a and 1b subunits. However, mechanisms governing the assembly of hERG and other heteromeric protein complexes are poorly understood. We identify a noncanonical ER compartment that sequesters hERG1b, distinct from previously described ER quality control pathways that degrade misfolded proteins, including LQTS-associated hERG variants. Instead, this compartment preserves hERG1b and facilitates its post-translational assembly with hERG1a, challenging the current view of simultaneous, cotranslational heteromeric assembly. Our findings redefine ER retention as an active regulatory step in protein complex formation that may broadly govern hetero-oligomeric assembly in many systems and facilitate therapeutic approaches to arrhythmia and other diseases.

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