Asymmetric dimethylation amplifies stress granule assembly via phase separation

Stress granules (SGs) form through phase separation of biomacromolecules to assist cells in resisting environmental stresses. Numbers of SG proteins contain Arg-Gly-Gly (RGG) motifs, indicating their RNA binding ability, and providing a substrate platform for asymmetric dimethylation of arginine (ADMA), whose roles in SG assembly remain unclear. Here, we demonstrated that Caprin1-mediated recruitment of PRMT1 asymmetrically dimethylates RGGs to provide multiple binding sites for TDRD3, a typical ADMA reader, which in turn bridges the multivalent interactions between RGG motifs and RNA to promote phase separation. This process was suppressed by a bivalent inhibitor of TDRD3, eventually inhibiting proliferation more effectively than arsenite treatment alone. Our work reveals the role of ADMA in SG assembly and the potential of targeting condensates for cancer therapy.