Discovery of a synthetic small molecule targeting the central regulator of Salmonella pathogenicity

The enteric pathogen Salmonella enterica serovar Typhimurium relies on the activity of effector proteins to invade, replicate, and disseminate into host epithelial cells and other tissues, thereby causing disease. Secretion and injection of effector proteins into host cells is mediated by dedicated secretion systems, which hence represent major virulence determinants. Here, we report the identification of a synthetic small molecule with drug-like properties, C26, which suppresses the secretion of effector proteins, and consequently hinders bacterial invasion of eukaryotic cells. C26 binds to and inhibits HilD, the transcriptional regulator of the major secretion systems. While sharing the same binding pocket as the previously described long-chain fatty acid ligands, C26 inhibits HilD with a unique binding mode and a distinct mechanism. We provide evidence for target engagement within infected eukaryotic cells and present analogs with improved potency and suitability as scaffolds to develop anti-virulence agents against Salmonella infections in humans and animals.