Cyclophilin A-mediated cis/trans isomerization modulates RIN4 to control intracellular rhizobial infection in legumes

In most legume-rhizobium symbioses, rhizobial colonization occurs through host-derived intracellular infection threads, which enable recruitment of compatible rhizobia while presumably modulating the host immune system to prevent rejection. To investigate how legumes regulate immune responses through post-translational mechanisms during the infection, we focused on Cyclophilin A (CyPA), a peptidyl-prolyl cis/trans isomerase. The model legume Lotus japonicus encodes three canonical CyPA genes. Among them, LjCyPA1 was characterized through CRISPR/Cas9-mediated knockout analysis and shown to be important for normal intracellular infection of compatible rhizobia. A gain-of-function LjCyPA1 variant in a soybean cultivar was able to promote symbiosis with not only compatible but also incompatible rhizobia. Structural modeling followed by genetic analysis demonstrated a functional interaction between LjCyPA1 and the immune hub protein LjRIN4. The cis conformation of LjRIN4 promoted intracellular rhizobial infection, while the trans conformation suppressed it. LjCyPA1 acted with the rhizobial type III secretion system (T3SS) which exhibited a cooperative role between host and symbiont in facilitating infection. Phylogenomic analysis showed that conservation of the CyPA1 orthologue is correlated with the trait of intracellular infection in legumes. Our results contribute to the understanding of how legumes accept symbiotic partners while balancing immune responses.