Abstract
Misfolded proteins of the endoplasmic reticulum (ER) are retrotranslocated to the cytosol and degraded by the proteasome via a process termed ER-associated degradation (ERAD). The precise mechanism of retrotranslocation is unclear. Here, we use several lumenal ERAD substrates targeted for degradation by the ubiquitin ligase HRD1 including SHH (sonic hedgehog) and NHK (null Hong Kong α1-antitrypsin) to study the geometry, organization, and regulation of the HRD1-containing ERAD machinery. We report a new HRD1-associated membrane protein named HERP2, which is homologous to the previously identified HRD1 partner HERP1. Despite sequence homology, HERP2 is constitutively expressed in cells, whereas HERP1 is highly induced by ER stress. We find that these proteins are required for efficient degradation of both glycosylated and nonglycosylated SHH proteins as well as NHK. In cells depleted of HERPs, SHH proteins are largely trapped inside the ER with a fraction of the stabilized SHH protein bound to the HRD1-SEL1L ligase complex. Ubiquitination of SHH is significantly attenuated in the absence of HERPs, suggesting a defect in retrotranslocation. Both HERP proteins interact with HRD1 through a region located in the cytosol. However, unlike its homolog in Saccharomyces cerevisiae, HERPs do not regulate HRD1 stability or oligomerization status. Instead, they help recruit DERL2 to the HRD1-SEL1L complex. Additionally, the UBL domain of HERP1 also seems to have a function independent of DERL2 recruitment in ERAD. Our studies have revealed a critical scaffolding function for mammalian HERP proteins that is required for forming an active retrotranslocation complex containing HRD1, SEL1L, and DERL2.
Highlights
HERP1 has been implicated in endoplasmic reticulum (ER)-associated degradation (ERAD) with unknown mechanism
Because HERP1 was previously reported as an ER stress-induced factor that associates with many ER-bound E3 ubiquitin ligases including HRD1 and gp78 (21, 26), it was proposed to serve as an essential regulator of these E3 ligases (21)
Whereas HERP1 is an unstable protein whose expression is highly up-regulated by ER stress, HERP2 is a stable protein that is constitutively expressed in cells
Summary
HERP1 has been implicated in ERAD with unknown mechanism. Results: HERP1 and newly identified HERP2 are integral components of the HRD1 complex, facilitating retrotranslocation by recruiting DERL2 to HRD1. HERP Proteins are Essential for HRD1-mediated ERAD normal conditions, Hrd3p, Usa1p, and Der1p become dispensable when Hrd1p is overexpressed (7) This observation establishes a pivotal role for Hrd1p and likely its mammalian homolog HRD1 in retrotranslocation. Our study reveals a critical role for these HERP proteins in degrading luminal HRD1 substrates, at least in part via regulating the organization of the HRD1 complex in mammalian cells. We propose that both HERP proteins are integral components of the HRD1-SEL1L complex that functions in degradation of both glycosylated and nonglycosylated HRD1 substrates in a partially redundant manner
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