Global transcriptional regulation by cell-free supernatant of Salmonella Typhimurium peptide transporter mutant leads to inhibition of intra-species biofilm initiation

Salmonella is a genus of widely spread Gram negative, facultative anaerobic bacteria, which is known to cause [1/4]th of the diarrhoeal morbidity and mortality globally. It causes typhoid fever and gastroenteritis by gaining access to the host gut through contaminated food and water. Salmonella utilizes its biofilm lifestyle to strongly resist antibiotics and persist in the host. Although the biofilm removal or dispersal have been studied widely, the inhibition of initiation Salmonella biofilm has not been studied much. This study was conducted to determine the anti-biofilm property of the cell-free supernatant obtained from a carbon-starvation inducible proline peptide transporter mutant ({Delta}yjiY) strain. Our study shows that Salmonella {Delta}yjiY culture supernatant inhibits biofilm initiation by regulating biofilm associated transcriptional network. This work demonstrates that highly abundant proteases like ecotin, HslV and GrpE cleave the protein aggregates, whereas global transcription regulators H-NS, FlgM regulate expression of SPIs and flagellar genes. Relatively low abundance of flavoredoxin, glutaredoxin, thiol peroxidase etc. leads to accumulation of ROS within the biofilm, and subsequent toxicity. This work further suggests that targeting these oxidative stress relieving proteins might be a good druggable choice to reduce Salmonella biofilm.