Caprin1 Bridges PRMT1 to G3BP1 and Spaces Them to Ensure Proper Stress Granule Formation.

Stress granules (SGs) are dynamic biomolecular condensates that form in the cytoplasm in response to cellular stress, encapsulating proteins and RNAs. Methylation is a key factor in the assembly of SGs, with PRMT1, which acts as an arginine methyltransferase, localizing to SGs. However, the precise mechanism of PRMT1 localization within SGs remains unknown. In this study, we identified that Caprin1 plays a primary role in the recruitment of PRMT1 to SGs, particularly through its C-terminal domain. Our findings demonstrate that Caprin1 serves a dual function as both a linker, facilitating the formation of a PRMT1-G3BP1 complex, and as a spacer, preventing the aberrant formation of SGs under non-stress conditions. This study sheds new lights on the regulatory mechanisms governing SG formation and suggests that Caprin1 plays a critical role in cellular responses to stress.