Abstract
Impaired functional plasma membrane (PM) expression of the hERG K+-channel is associated with Long-QT syndrome type-2 (LQT2) and increased risk of cardiac arrhythmia. Reduced PM-expression is primarily attributed to retention and degradation of misfolded channels by endoplasmic reticulum (ER) protein quality control (QC) systems. However, as the molecular pathogenesis of LQT2 was defined using severely-misfolded hERG variants with limited PM-expression, the potential contribution of post-ER (peripheral) QC pathways to the disease phenotype remains poorly established. Here, we investigate the cellular processing of mildly-misfolded Per-Arnt-Sim (PAS)-domain mutant hERGs, which display incomplete ER-retention and PM-expression defects at physiological temperature. We show that the attenuated PM-expression of hERG is dictated by mutation-specific contributions from both the ER and peripheral QC systems. At the ER, PAS-mutants experience inefficient conformational maturation coupled with rapid ubiquitin-dependent proteasomal degradation. In post-ER compartments, they are rapidly endocytosed from the PM via a ubiquitin-independent mechanism and rapidly targeted for lysosomal degradation. Conformational destabilization underlies aberrant cellular processing at both ER- and post-ER compartments, since conformational correction by a hERG-specific pharmacochaperone or low-temperatures can restore WT-like trafficking. Our results demonstrate that the post-ER QC alone or jointly with the ER QC determines the loss-of-PM-expression phenotype of a subset of LQT2 mutations.
Highlights
The human ether-a-go-go related gene encodes the α-subunit of the Kv11.1 K+-channel
Defective processing of PAS-mutant human ether-a-go-go related gene (hERG) at both the endoplasmic reticulum (ER) and cell-periphery could be rescued by conformational correction with pharmacochaperones or reduced temperature. These results indicate that ER quality control (QC) and peripheral QC systems both jointly contribute to the mutation-dependent loss-of-expression phenotype in a subset of conformationally defective Long-QT syndrome type-2 (LQT2) hERG variants
While variations within the N-terminal PAS domain can destabilize the isolated region in recombinant expression systems[40,41], they appear to be generally better tolerated than disruptions to the cyclic-nucleotide homology binding domain (CNBD) or transmembrane core induced by mutations or off-target drug-effect[5]
Summary
The human ether-a-go-go related gene (hERG) encodes the α-subunit of the Kv11.1 K+-channel. HERG channels which fail to adopt a native-like conformation are ubiquitinated (at-least in-part by the CHIP19, RFFL20 and Trc[821] Ub E3 ligases) and retrotranslocated for proteasomal degradation[15,22,23]. This defective ER processing is presumed to underlie the near-complete loss-of-PM-expression phenotype of severely misfolded hERG variants (e.g. G601S, R752W and F805C)[4,5,22]. Partially-redundant E3 ligases (including CHIP30, RFFL32 and Nedd4/ Rsp5) have been implicated in the ubiquitination-dependent degradation of misfolded membrane proteins, including disease-associated variants of CFTR30, D4 dopamine receptor, V2 vasopressin receptor[33] and megalencephalic leukoencephalopathy with subcortical cysts (MLC1)[34]. Poly/multi-mono-ubiquitination acts as an efficient sorting signal for these misfolded PM proteins, triggering rapid internalization and endosomal sorting complex required for transport (ESCRT)-dependent sorting for MVB-lysosomal proteolysis[35,36]
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