Changes in the proteome of Salmonella enterica serovar Thompson as stress adaptation to sublethal concentrations of thymol.

Thymol is a natural biocide and component of some essential oils from herbs. Its inhibitory effect on the growth of different microorganisms is well documented. The precise targets of the antibacterial action of thymol is not yet been fully established, the action seems to take place in different ways. The strain Salmonella enterica serovar Thompson MCV1 was grown in the presence of a sublethal concentration (0.01%) of thymol. The proteins extracted from treated and untreated cells were subjected to 2-D PAGE, followed by in-gel spot digestion and subsequent MALDI-TOF analysis. The analysis of gels showed many proteins that were either upregulated or downregulated by the presence of thymol, with significant changes in proteins belonging to different functional classes. In particular, the thioredoxin-1 was not expressed in the treated cells, indicating that its absence could be a consequence of the stress caused by the presence of thymol. On the other hand, different chaperon proteins were upregulated or de novo synthesis such as GroEL and DnaK, key proteins in the protection mechanism toward thermal stress. Outer membrane proteins were upregulated in treated cells; indeed the bacterial envelope stress response is trigged by the accumulation of misfolded outer membrane proteins. Moreover, the thymol seems to impair the citrate metabolic pathway, as well as many enzymes involved in the synthesis of ATP. Definitely, thymol plays a role in altering very different pathways of cell metabolism.