Molecular Basis of Histone H3 Reading and Writing by Legionella pneumophila SET Domain Lysine Methyltransferases

RomA and its highly conserved strain ortholog LegAS4 are SET and ankyrin domain-containing effector proteins of the intracellular bacterial pathogen Legionella pneumophila . These enzymes are secreted into host cells, where they translocate to the nucleus and methylate Lys14 in histone H3 (H3K14), a novel post-translation modification (PTM) that reprograms gene expression and promotes bacterial replication. To elucidate their H3K14 substrate specificity, we determined the crystal structures of LegAS4 and RomA bound to histone H3 peptides and characterized nucleosome binding and methylation by the enzymes. The results reveal a distinctive bipartite engagement of the histone H3 N-terminal tail by the enzymes’ SET and ankyrin domains. Further, the ankyrin domain distinguishes different PTMs at H3R2 and H3K4, which is crucial for nucleosome engagement and H3K14 methylation. Together, these studies yield new insights into histone H3 reading and writing by the L. pneumophila histone lysine methyltransferases during host cell infection.