KDEL Receptors Are Differentially Regulated to Maintain the ER Proteome under Calcium Deficiency

Summary: Retention of critical endoplasmic reticulum (ER) luminal proteins needed to carry out diverse functions (e.g., protein synthesis and folding, lipid metabolism) is mediated through a carboxy-terminal ER retention sequence (ERS) and its interaction with KDEL receptors. Here, we demonstrate that depleting ER calcium causes mass departure of ERS-containing proteins from cells by overwhelming KDEL receptors. In addition, we provide evidence that KDELR2 and KDELR3, but not KDELR1, are unfolded protein response (UPR) genes upregulated as an adaptive response to counteract the loss of ERS-containing proteins, suggesting previously unknown isoform-specific functions of the KDEL receptors. Overall, our findings establish that decreases in ER calcium change the composition of the ER luminal proteome and secretome, which can impact cellular functions and cell viability. The redistribution of the ER proteome from inside the cell to the outside has implications for dissecting the complex relationship of ER homeostasis with diverse disease pathologies. : Trychta et al. identify an exodus of resident proteins from the endoplasmic reticulum (ER) in response to the loss of luminal ER calcium. They show that the cell works to maintain the ER proteome under calcium depletion by upregulating KDEL receptors, which act as unfolded protein response genes. Keywords: endoplasmic reticulum, calcium, KDEL receptor, ER retention sequence, XBP1, UPR, unfolded protein response, MANF