The endoplasmic reticulum (ER) is a pivotal organelle responsible for protein and lipid synthesis, calcium homeostasis, and protein quality control within eukaryotic cells. To maintain cellular health, damaged or excess portions of the ER must be selectively degraded via a process known as selective autophagy, or ER-phagy. This specificity is driven by a network of protein receptors and regulatory mechanisms. In this review, we explore the molecular mechanisms governing ER-phagy, with a focus on the FAM134 family of ER-resident ER-phagy receptors. We discuss the molecular pathways and Posttranslational modifications that regulate receptor activation and clustering, and how these modifications fine-tune ER-phagy in response to stress. This review provides a concise understanding of how ER-phagy contributes to cellular homeostasis and highlights the need for further studies in models where ER stress and autophagy are dysregulated.
Keywords: ER‐phagy; FAM134B; autophagy; endoplasmic reticulum; ubiquitination.
© 2024 Author(s). Journal of Cellular Physiology published by Wiley Periodicals LLC.