Foot-and-mouth disease virus 3A hijacks Sar1 and Sec12 for ER remodeling in a COPII-independent manner
Abstract Positive-stranded RNA viruses modify host organelles to form replication organelles (ROs) for their replication. Enteroviral 3A protein has been demonstrated to be highly associated with the COPI pathway, in which factors work on the ER-to-Golgi intermediate and the Golgi. However, Sar1, a COPII factor exerting coordinated action at endoplasmic reticulum (ER) exit sites, rather than COPI factors, is required for foot-and-mouth disease virus (FMDV) replication. Therefore, we thought that deep understanding of FMDV 3A was the key to explaining the differences and to unlocking the secret of FMDV RO formation. In this study, FMDV 3A was confirmed as a peripheral membrane protein capable of modifying the ER into vesicle-like structures, which were neither COPII vesicles nor autophagosomes. When the C-terminus of 3A was truncated, it would be located at the ER without vesicular modification. This change was revealed by mGFP and APEX2 fusion constructs observed by fluorescence microscopy and electron tomography, respectively. Referring to other 3A truncation, the minimal region for modification was aa 42–92. Furthermore, we found that the remodeling was related to two COPII factors, Sar1 and Sec12. Both interacted with 3A, but their binding domains on 3A were different. Finally, we hypothesized that the N-terminus of 3A would interact with Sar1 as its C-terminus simultaneously interacted with Sec12, which possibly would enhance Sar1 activation. On the ER membrane, two active Sar1 were connected by 3A with regions of aa 42–59 and aa 76–92, causing curvature of the membrane. This mechanism is distinct from the traditional COPII pathway and should be crucial for FMDV RO formation.