Recombinant production of a diffusible signal factor inhibits Salmonella invasion and animal carriage.

Despite our best efforts, infections of agricultural animals with Salmonella persist, posing threats to food safety. Few, if any, measures have proven effective in reducing Salmonella carriage in animals used for food, a major source of this pathogen. Antibiotics are ineffective at curtailing infection and have served only to exacerbate the global crisis of antimicrobial resistance. The alternative then is to seek novel means to reduce Salmonella disease and carriage by preventing its colonization of livestock and poultry. Here we describe an approach targeting invasion, a function essential for Salmonella carriage and disease in animals. We show that a potent chemical inhibitor of invasion, the diffusible signal factor cis-2 hexadecenoic acid, can be produced by recombinant E. coli strains capable of stably colonizing the animal intestine, providing a means to directly affect the virulence of Salmonella within an animal host. These studies may thus provide a route to reduce the carriage of this pathogen in production animals and thus the spread of disease to humans.