Sarah R. Holland scite author profile

Prior to their delivery to and degradation by the 26S proteasome, misfolded transmembrane proteins of the ER and inner-nuclear membrane must be extracted from lipid bilayers. This extraction process, known as retrotranslocation, requires both quality-control E3 ubiquitin ligases and dislocation factors that diminish the energetic cost of dislodging the transmembrane segments of a protein. Recently, we showed that retrotranslocation of all ER transmembrane proteins requires the Dfm1 rhomboid pseudoprotease. However, we did not investigate whether Dfm1 also mediated retrotranslocation of transmembrane substrates in the inner-nuclear membrane (INM), which is contiguous with the ER but functionally separated from it by nucleoporins. Here, we show that canonical retrotranslocation occurs during INM-associated degradation (INMAD) but proceeds independently of Dfm1. Despite this independence, ERAD-M and INMAD cooperate to mitigate proteotoxicity. We show a novel misfolded-transmembrane-protein toxicity that elicits genetic suppression, demonstrating the cell's ability to tolerate a toxic burden of misfolded transmembrane proteins without functional INMAD or ERAD-M. This strikingly contrasted the suppression of the dfm1Δ null, which leads to the resumption of ERAD-M through HRD-complex remodeling. Thus, we conclude that INM retrotranslocation proceeds through a novel, private channel, which can be studied by virtue of its role in alleviating membrane-associated proteotoxicity.

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Bioinformatic analysis reveals mechanisms underlying parasitoid venom evolution and function

Alvarado

Holland

DePerez-Rasmussen

et al. 2018

Preprint

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Sarah R. Holland

Bioinformatic analysis suggests potential mechanisms underlying parasitoid venom evolution and function

Inner-nuclear-membrane–associated degradation employs Dfm1-independent retrotranslocation and alleviates misfolded transmembrane-protein toxicity

Bioinformatic analysis reveals mechanisms underlying parasitoid venom evolution and function

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