Structural insight into the distinct regulatory mechanism of the HEPN-MNT toxin-antitoxin system in Legionella pneumophila

HEPN-MNT, a type VII TA module, comprises the HEPN toxin and the MNT antitoxin, which acts as a nucleotidyltransferase that transfers the NMP moiety to the corresponding HEPN toxin, thereby interfering with its toxicity. Here, we report crystal structures of the Legionella pneumophila HEPN-MNT module, including HEPN, AMPylated HEPN, MNT, and the HEPN-MNT complex. Our structural analysis and biochemical assays, suggest that HEPN is a metal-dependent RNase and identify its active site residues. We also elucidate the oligomeric state of HEPN in solution. Interestingly, L. pneumophila MNT, which lacks a long C-terminal alpha 4 helix, controls the toxicity of HEPN toxin via a distinct binding mode with HEPN. Finally, we propose a comprehensive regulatory mechanism of the L. pneumophila HEPN-MNT module based on structural and functional studies. These results provide insight into the type VII HEPN-MNT TA system. HEPN-MNT is a bacterial type VII toxin-antitoxin (TA) system, comprising the HEPN toxin and the MNT antitoxin. Crystal structures and functional assays of the HEPN-MNT module suggest that HEPN is a metal-dependent RNase and identify its active site residues and regulatory mechanism.