Structure of S1PR2-heterotrimeric G13 signaling complex

Sphingosine-1-phosphate (S1P) regulates immune cell trafficking, angiogenesis, and vascular function via its five receptors. Inherited mutations in S1P receptor 2 (S1PR2) occur in individuals with hearing loss, and acquired mutations in S1PR2 and G(alpha 13) occur in a malignant lymphoma. Here, we present the cryo-electron microscopy structure of S1P-bound S1PR2 coupled to the heterotrimeric G(13). Interaction between S1PR2 intracellular loop 2 (ICL2) and transmembrane helix 4 confines ICL2 to engage the alpha 5 helix of G(alpha 13). Transforming growth factor-alpha shedding assays and cell migration assays support the key roles of the residues in S1PR2-G(alpha 13) complex assembly. The structure illuminates the mechanism of receptor disruption by disease-associated mutations. Unexpectedly, we showed that FTY720-P, an agonist of the other four S1PRs, can trigger G(13) activation via S1PR2. S1PR2(F274I) variant can increase the activity of G(13) considerably with FTY720-P and S1P, thus revealing a basis for S1PR drug selectivity.

Automated summary

This article presents the cryo-electron microscopy structure of S1P-bound S1PR2 coupled to the heterotrimeric G(13), revealing key roles of residues in S1PR2-G(alpha 13) complex assembly. The structure illuminates the mechanism of receptor disruption by disease-associated mutations.