Abstract
Specific proteins are modified by ubiquitin at the endoplasmic reticulum (ER) and are degraded by the proteasome, a process referred to as ER-associated protein degradation. In Saccharomyces cerevisiae, two principal ER-associated protein degradation ubiquitin ligases (E3s) reside in the ER membrane, Doa10 and Hrd1. The membrane-embedded Doa10 functions in the degradation of substrates in the ER membrane, nuclear envelope, cytoplasm, and nucleoplasm. How most E3 ligases, including Doa10, recognize their protein substrates remains poorly understood. Here we describe a previously unappreciated but highly conserved C-terminal element (CTE) in Doa10; this cytosolically disposed 16-residue motif follows the final transmembrane helix. A conserved CTE asparagine residue is required for ubiquitylation and degradation of a subset of Doa10 substrates. Such selectivity suggests that the Doa10 CTE is involved in substrate discrimination and not general ligase function. Functional conservation of the CTE was investigated in the human ortholog of Doa10, MARCH6 (TEB4), by analyzing MARCH6 autoregulation of its own degradation. Mutation of the conserved Asn residue (N890A) in the MARCH6 CTE stabilized the normally short lived enzyme to the same degree as a catalytically inactivating mutation (C9A). We also report the localization of endogenous MARCH6 to the ER using epitope tagging of the genomic MARCH6 locus by clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9-mediated genome editing. These localization and CTE analyses support the inference that MARCH6 and Doa10 are functionally similar. Moreover, our results with the yeast enzyme suggest that the CTE is involved in the recognition and/or ubiquitylation of specific protein substrates.
Highlights
Selective protein degradation in eukaryotic cells is largely carried out by the ubiquitin-proteasome system
Besides demonstrating that endogenous MARCH6 is an endoplasmic reticulum (ER)-localized enzyme, we show that its C-terminal element (CTE) is essential for rapid autodegradation of MARCH6 mediated by its RING domain
Doa10 Contains a Highly Conserved Region at Its C Terminus—Doa10 and its orthologs are all large proteins with a dozen or more predicted transmembrane helices (TMs) (Fig. 1A) [12]
Summary
MATa his3-⌬200 leu112 ura lys801 trp ubc6-⌬1::HIS3 MATa his3-⌬200 leu112 ura lys801 trp MATa his3-⌬200 leu112 ura lys801 trp ubc7⌬::LEU2 MATa his3-⌬200 leu112 ura lys801 trp doa10⌬::HIS3 MATa his3-⌬200 leu112 ura lys801 trp DOA10-13myc-HISMX6 MATa his3-⌬200 leu2-3,112::LEU2-Deg1-lacZ ura lys801 trp doa10::CORE cassette at position 3928. (KIURA3/kanMX4) MATa his3-⌬200 leu2-3,112::LEU2-Deg1-lacZ ura lys801 trp doa10-G1309L MATa his3-⌬200 leu2-3,112::LEU2-Deg1-lacZ ura lys801 trp doa10-N1314A MAT␣ his3-⌬200 leu112 ura lys801 trp pdr5⌬::kanMX6 MATa his3-⌬200 leu2-3,112::LEU2-Deg1-lacZ ura lys801 trp doa10-G1309L::CORE cassette at position 141. (KIURA3/kanMX4) MATa his3-⌬200 leu2-3,112::LEU2-Deg1-lacZ ura lys801 trp doa10-N1314A::CORE cassette at position 141.
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