Dopaminergic neuronal regulation determines innate immunity of Caenorhabditis elegans during Klebsiella aerogenes infection

Microbes Infect. 2024 Oct 4:105430. doi: 10.1016/j.micinf.2024.105430. Online ahead of print.

Abstract

The innate immune signals are the front line of host defense against bacterial pathogens. Pathogen-induced harmful effects, such as reduced neuronal signals to the intestine, affect the host's food sensing and dwelling behavior. Here, we report that dopamine and kpc-1 signals control the intestinal innate immune responses through the p38/PMK-1 MAPK signaling pathway in C. elegans. K. aerogenes infection in C. elegans affects the food-dwelling behavior, which depends on dopamine regulation. The absence of the dopamine receptor (dop-1) and transporter (dat-1) increases attraction to the pathogen instead of avoidance. The K. aerogenes infection affects age-1 regulation through the furin-like proprotein convertase (kpc-1); the absence of kpc-1 affects environment-dependent dauer formation. In contrast, the dop-1 mutation antagonistically regulates intestinal immune regulation, while the kpc-1 mutation partially regulates the p38/PMK-1 MAPK pathway. Our findings indicate that dopamine and kpc-1signaling from the nervous system control intestinal immunity in an antagonistic and agonistic manner, respectively.