Spatial Proteomics Using BiFCPL Identifies Regulators of DMV Formation Involved in Coronavirus Replication

β-Coronaviruses hijack host factors to remodel host endo-membranes to form double membrane vesicles (DMVs), which act as central hubs for the replication of viral genomes. Understanding the molecular mechanism underlying DMV formation is critical for developing effective antiviral strategies and has garnered significant attention. However, the host factors involved in DMV formation remain scanty. Here, we employed a bimolecular fluorescence complementation-based proximity labeling (BiFCPL) strategy to investigate the proteome of DMVs generated by co-expression of SARS-CoV-2 NSP3 and NSP4. Our analysis identified 62 proteins with high confidence, among which five proteins were localized in the endoplasmic reticulum (ER), and were further confirmed to be recruited to DMVs through interactions with NSP3/NSP4. Moreover, we demonstrated that the absence of GRAMD1B or TEX2 resulted in the formation of enlarged DMVs induced by either NSP3/NSP4 or coronaviruses infection, and impaired coronaviruses replication as well. Collectively, our study concerning host-virus interactions sheds light on novel host factors involved in DMV formation.