Abstract
The unfolded protein response (UPR) initiated under endoplasmic reticulum (ER) stress can not only maintain the ER homeostasis but also modulate the secretion of proteins and lipids that transmit ER stress signals among cells. Exosomes are multivesicular body (MVB)-derived extracellular vesicles, constituting the unconventional protein secretion pathway. Whether and how the secretion of exosomes is regulated by the UPR remains largely unknown. Here, we reported that ER stress induces exosome secretion in an UPR-dependent way. Activation of PERK and IRE1α, two of the UPR branches, represses the acidification and catabolic activity of lysosomes. This blocked MVB-lysosome fusion, redirecting MVBs from lysosomal degradation to plasma membrane fusion, resulting in exosome release. Calcium-mediated activation of PERK, in the absence of ER stress, is sufficient to suppress lysosomal degradation and augment exosome secretion, partly through its downstream factor ATF4. Our study revealed a function of PERK and IRE1α in modulating lysosome activity and dictating the fate of MVBs, facilitating cell-to-cell communication via exosomes.