Salmonella enterica serovar Infantis (S. infantis) is an important emerging pathogen, associated with poultry and poultry products and related to an increasing number of human infections in many countries. A concerning trend among S. infantis isolates is the presence of plasmid-mediated multidrug resistance. In many instances, the genes responsible for this resistance are carried on a megaplasmid known as the plasmid of emerging S. infantis (pESI) or pESI like plasmids. Plasmids can be remarkably stable due to the presence of multiple replicons and post-segregational killing systems (PSKs), which contribute to their maintenance within bacterial populations. To enhance our understanding of S. infantis and its mu... More
Salmonella enterica serovar Infantis (S. infantis) is an important emerging pathogen, associated with poultry and poultry products and related to an increasing number of human infections in many countries. A concerning trend among S. infantis isolates is the presence of plasmid-mediated multidrug resistance. In many instances, the genes responsible for this resistance are carried on a megaplasmid known as the plasmid of emerging S. infantis (pESI) or pESI like plasmids. Plasmids can be remarkably stable due to the presence of multiple replicons and post-segregational killing systems (PSKs), which contribute to their maintenance within bacterial populations. To enhance our understanding of S. infantis and its multidrug resistance determinants toward the development of new vaccination strategies, we have devised a new method for targeted plasmid curing. This approach effectively overcomes plasmid addiction by leveraging the temporal overproduction of specific antitoxins coupled with the deletion of the partition region. By employing this strategy, we successfully generated a plasmid-free strain from a field isolate derived from S. infantis 119,944. This method provides valuable tools for studying S. infantis and its plasmid-borne multidrug resistance mechanisms and can be easily adopted for plasmid curing from other related bacteria.