The compartmentalized activity of a legume subtilase SBT12a allows symbiosome stabilization

The stabilization of rhizobia in specialized organelles, called symbiosomes, is an evolutionary hallmark for maintaining high rates of nitrogen fixation in legumes. This is achieved by releasing thousands of bacteria from nodular infection threads within in a single plant cell, which poses a great challenge for the host to keep control over these differentiated bacteria. Considering the importance of proteolytic degradation of antimicrobial proteins or generation of symbiosis-promoting peptides, proteolytic activity may represent a key regulatory system. Indeed, we identified the Medicago truncatula subtilisin-like protease (subtilase, SBT) 12a acting as a novel regulator of symbiosome functionality and maintenance. Loss-of-function mutations in SBT12a led to severe symbiotic defects with nodules of sbt12a being characterized by high level induction of defense/senescence-related genes. Using untargeted proteomic High-efficiency Undecanal-based N-Termini EnRichment (HUNTER) we identified and individually confirmed specific SBT12a target proteins that are involved in plant defense responses and symbiosome maintenance. This positions SBT12a as a central host factor controlling symbiosome performance.