Abstract
Proteins expressed in the endoplasmic reticulum (ER) are subjected to a tight quality control. Persistent association with ER-resident molecular chaperones prevents exit of misfolded or incompletely assembled polypeptides from the ER and forward transport along the secretory line. ER-associated degradation (ERAD) is in place to avoid ER constipation. Folding-incompetent products have to be identified to interrupt futile folding attempts and then targeted for unfolding and dislocation into the cytosol for proteasome-mediated destruction. These processes are better understood for N-glycosylated proteins that represent the majority of polypeptides expressed in the ER. EDEM, a mannosidase-like chaperone, regulates the extraction of misfolded glycoproteins from the calnexin cycle. Here we identify and characterize EDEM2, a novel, stress-regulated mannosidase-like protein that operates in the ER lumen. We show that transcriptional up-regulation of EDEM2 depends on the ER stress-activated transcription factor Xbp1, that EDEM2 up-regulation selectively accelerates ERAD of terminally misfolded glycoproteins by facilitating their extraction from the calnexin cycle, and that the previously characterized homolog EDEM is also a soluble protein of the ER lumen in HEK293 cells.
Highlights
Many of the proteins that fold in the ER1 are covalently modified by co-translational addition of pre-assembled glycans to an Asn-X-Ser/Thr consensus sequence
We show that transcriptional up-regulation of EDEM2 depends on the endoplasmic reticulum (ER) stress-activated transcription factor Xbp1, that EDEM2 up-regulation selectively accelerates ER-associated degradation (ERAD) of terminally misfolded glycoproteins by facilitating their extraction from the calnexin cycle, and that the previously characterized homolog EDEM is a soluble protein of the ER lumen in HEK293 cells
Defective adaptation of its expression level to variations in ER cargo load or to the accumulation of misfolded glycoproteins is obtained in cells exposed to small interfering RNA targeting EDEM transcripts [19], in cells depleted of the proximal ER stress sensor IRE1␣ [24], or in cells depleted of the IRE1␣-activated transcription factor Xbp1 [7] and delays ERAD of glycoproteins
Summary
Many of the proteins that fold in the ER1 are covalently modified by co-translational addition of pre-assembled glycans to an Asn-X-Ser/Thr consensus sequence. We show that transcriptional up-regulation of EDEM2 depends on the ER stress-activated transcription factor Xbp1, that EDEM2 up-regulation selectively accelerates ERAD of terminally misfolded glycoproteins by facilitating their extraction from the calnexin cycle, and that the previously characterized homolog EDEM is a soluble protein of the ER lumen in HEK293 cells.
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