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Interactions between intersubunit transmembrane domains regulate the chaperone-dependent degradation of an oligomeric membrane protein.


ABSTRACT: In the kidney, the epithelial sodium channel (ENaC) regulates blood pressure through control of sodium and volume homeostasis, and in the lung, ENaC regulates the volume of airway and alveolar fluids. ENaC is a heterotrimer of homologous ?-, ?- and ?-subunits, and assembles in the endoplasmic reticulum (ER) before it traffics to and functions at the plasma membrane. Improperly folded or orphaned ENaC subunits are subject to ER quality control and targeted for ER-associated degradation (ERAD). We previously established that a conserved, ER lumenal, molecular chaperone, Lhs1/GRP170, selects ?ENaC, but not ?- or ?-ENaC, for degradation when the ENaC subunits were individually expressed. We now find that when all three subunits are co-expressed, Lhs1-facilitated ERAD was blocked. To determine which domain-domain interactions between the ENaC subunits are critical for chaperone-dependent quality control, we employed a yeast model and expressed chimeric ?/?ENaC constructs in the context of the ENaC heterotrimer. We discovered that the ?ENaC transmembrane domain was sufficient to prevent the Lhs1-dependent degradation of the ?-subunit in the context of the ENaC heterotrimer. Our work also found that Lhs1 delivers ?ENaC for proteasome-mediated degradation after the protein has become polyubiquitinated. These data indicate that the Lhs1 chaperone selectively recognizes an immature form of ?ENaC, one which has failed to correctly assemble with the other channel subunits via its transmembrane domain.

SUBMITTER: Buck TM 

PROVIDER: S-EPMC5423784 | biostudies-literature | 2017 Feb

REPOSITORIES: biostudies-literature

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Interactions between intersubunit transmembrane domains regulate the chaperone-dependent degradation of an oligomeric membrane protein.

Buck Teresa M TM   Jordahl Alexa S AS   Yates Megan E ME   Preston G Michael GM   Cook Emily E   Kleyman Thomas R TR   Brodsky Jeffrey L JL  

The Biochemical journal 20161130 3


In the kidney, the epithelial sodium channel (ENaC) regulates blood pressure through control of sodium and volume homeostasis, and in the lung, ENaC regulates the volume of airway and alveolar fluids. ENaC is a heterotrimer of homologous α-, β- and γ-subunits, and assembles in the endoplasmic reticulum (ER) before it traffics to and functions at the plasma membrane. Improperly folded or orphaned ENaC subunits are subject to ER quality control and targeted for ER-associated degradation (ERAD). We  ...[more]

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