Cinnamaldehyde inhibits type three secretion system in Salmonella enterica serovar Typhimurium by affecting the expression of key effector proteins.

The increasing understanding of bacterial pathogenesis has revealed many new targets for the development of non-traditional antibacterial drugs. Interference with bacterial virulence has become a new strategy to treat bacteria-mediated diseases. As an important food-borne pathogen, Salmonella enterica serovar Typhimurium uses type III secretion system (T3SS) to facilitate invasion of host cells. In this study, we identified cinnamaldehyde as a Salmonella pathogenicity island 1 (SPI-1) inhibitor which blocks the secretion of several SPI-1 associated effector proteins and consequently exhibits a strong inhibitory effect on SPI-1-mediated invasion of HeLa cells. Further study revealed that cinnamaldehyde significantly reduced the transcription of some SPI-1 genes, such as sipA and sipB, in S. Typhimurium by affecting multiple SPI-1 regulator genes. In an animal infection model, cinnamaldehyde effectively protected infected mice against S. Typhimurium-induced mortality and pathological damages. In summary, this study presented an effective SPI-1 inhibitor, cinnamaldehyde, which reduces the expression of SPI-1 effector proteins by regulating the transcription of main regulator genes.