ER tubular body: an ER-derived compartment for redirecting autophagy to secretory functions

Abstract

The secretion of proteins that do not follow the well-characterized endoplasmic reticulum (ER)-Golgi apparatus pathway, known as unconventional protein secretion (UCPS), is gradually revealing its complexities. Our study has identified an ER-based tubulovesicular network, termed ER tubular body (ER-TB), as a central compartment in this process. We demonstrate that ER-TBs are formed by two reticulophagy receptors, ATL3 and RTN3L, under conditions of cellular stress. In addition to their role in stress-induced secretion, the activation of UCPS via ER-TBs facilitates cell surface trafficking of trafficking-deficient transmembrane proteins such as ΔF508-CFTR. Furthermore, their involvement in ER remodeling and vesicle trafficking suggests a potential role in viral replication, particularly in the formation of membrane compartments utilized by positive-strand RNA viruses. By uncovering ER-TBs as key cellular structures in stress-induced UCPS and demonstrating their regulation by autophagy-related factors, our findings offer valuable insights into protein homeostasis, viral pathogenesis, and potential therapeutic strategies for diseases linked to trafficking defects.

Keywords: ATL3; ER stress; ER tubular body; RTN3L; compartment for unconventional protein secretion; unconventional protein secretion.