Proteus mirabilis is a pathogenic gram-negative bacterium that frequently causes kidney infections, typically established by ascending colonization of the urinary tract. The pathogen exhibits a cyclical differentiation process in which vegetative cells growing on solid media differentiate into long, hyperflagellated swarmer cells, which undergo rapid and coordinated population migration away from the initial colony. This migration behavior is coupled to expression of some virulence factors, such as haemolysin、urease in P. mirabilis. Resveratrol produced by several plants, berries and fruits, including grapes, is one of the best known natural food micro-components with potent chemopreventive properties towards the most severe contemporary human diseases: cardiovascular sickness, cancer and neurodegenerative pathologies. Polymyxin B, a cationic antimicrobial peptide, binds to outer-membrane of bacteria and leads to death. Before studying, we tried to screening clinical isolates for resveratrol susceptibility, but failed. We found that Proteus mirabilis, an important urinary tract pathogen, was highly resistant to RV (MIC > 256μg/ml). For the first time, we demonstrated that the anti-swarming and anti-virulence effects of RV on P. mirabilis and that such effects required the presence of rsbA, encoding a bacterial two-component sensor kinase in P. mirabilis. To investigate the inhibitory effects of RV on swarming in P. mirabilis, we performed haemolysin assay, flagellin assay, cell differentiation analysis, in wild-type P. mirabilis and its congenic rsbA mutant. We found RV inhibits swarming of wild-type P. mirabilis in a dose-dependent manner. Haemolysin activity, extent of cell differentiation, and flagellin level were reduced in wild-type P. mirabilis by RV. The above phenotypic traits of the RV treated wild-type P. mirabilis were lost in the rsbA mutant. Polymyxin B also inhibits swarming behavior、flagellin production and haemolysin activity of P. mirabilis. To determine the inhibitory mechanism of polymyxin B and resveratrol, we performed Tn5-mutagenesis to construct mutant that can swarm in the presence of PB or RV and analysed for these mechanisms. Through these studies, we can disclose the mechanisms of swarming behavior and virulence expression in P. mirabilis.