The dystrophia myotonica WD repeat‐containing protein DMWD and WDR20 differentially regulate USP12 deubiquitinase

Despite its potential clinical relevance, the product of the DMWD (dystrophia myotonica, WD repeat containing) gene is a largely uncharacterized protein. The DMWD amino acid sequence is similar to that of WDR20, a known regulator of the USP12 and USP46 deubiquitinases (DUBs). Here, we apply a combin...

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Veröffentlicht in:The FEBS journal 2021-10, Vol.288 (20), p.5943-5963
Hauptverfasser: Olazabal‐Herrero, Anne, Bilbao‐Arribas, Martin, Carlevaris, Onintza, Sendino, Maria, Varela‐Martinez, Endika, Jugo, Begoña M., Berra, Edurne, Rodriguez, Jose Antonio
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Sprache:eng
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Zusammenfassung:Despite its potential clinical relevance, the product of the DMWD (dystrophia myotonica, WD repeat containing) gene is a largely uncharacterized protein. The DMWD amino acid sequence is similar to that of WDR20, a known regulator of the USP12 and USP46 deubiquitinases (DUBs). Here, we apply a combination of in silico and experimental methods to investigate several aspects of DMWD biology. Molecular evolution and phylogenetic analyses reveal that WDR20 and DMWD, similar to USP12 and USP46, arose by duplication of a common ancestor during the whole genome duplication event in the vertebrate ancestor lineage. The analysis of public human gene expression datasets suggests that DMWD expression is positively correlated with USP12 expression in normal tissues and negatively correlated with WDR20 expression in tumors. Strikingly, a survey of the annotated interactome for DMWD and WDR20 reveals a largely nonoverlapping set of interactors for these proteins. Experimentally, we first confirmed that DMWD binds both USP12 and USP46 through direct coimmunoprecipitation of epitope‐tagged proteins. We found that DMWD and WDR20 share the same binding interface in USP12, suggesting that their interaction with the DUB may be mutually exclusive. Finally, we show that both DMWD and WDR20 promote USP12 enzymatic activity, but they differentially modulate the subcellular localization of the DUB. Altogether, our findings suggest a model whereby mutually exclusive binding of DMWD and WDR20 to USP12 may lead to formation of deubiquitinase complexes with distinct subcellular localization, potentially targeting different substrate repertoires. Like the deubiquitinases (DUBs) USP12 and USP46, their cofactors WDR20 and DMWD arose by duplication of a common WDR protein ancestor. DMWD and WDR20 share the same binding interface in USP12, suggesting that their interaction with the DUB may be mutually exclusive. Binding of DMWD or WDR20 may differently modulate the subcellular localization of USP12, leading to the formation of DUB complexes potentially targeting a different substrate repertoire.
ISSN:1742-464X
1742-4658
DOI:10.1111/febs.15875