Bacterial Peptidoglycan Fragments Differentially Regulate Innate Immune Signaling
Klare L. Bersch, Kristen E. DeMeester, Rachid Zagani, Shuyuan Chen, Kimberly A. Wodzanowski, Shuzhen Liu, Siavash Mashayekh, Hans-Christian Reinecker, Catherine L. Grimes
Abstract
, a robust and scalable chemical synthesis of PG-based disaccharide ligands was implemented. Together with a monosaccharide PG library, compounds were screened for their ability to stimulate proinflammatory genes in bone-marrow-derived macrophages. The data reveal distinct gene induction patterns for monosaccharide and disaccharide PG units, suggesting that PG innate immune signaling is more complex than a one activator-one pathway program, as biologically relevant fragments induce transcriptional programs to different degrees. These disaccharide molecules will serve as critical immunostimulatory tools to more precisely define specialized innate immune regulatory mechanisms that distinguish between commensal and pathogenic bacteria residing in the microbiome.