High-level resistance to class IIa bacteriocins is associated with one general mechanism in Listeria monocytogenes
Autor: | Yann Héchard, Anne Gravesen, Natalie Andersen, Manilduth Ramnath, John W. Hastings, K. Björn Rechinger, Susanne Knøchel, Lothar Jänsch |
---|---|
Předmět: |
biology
Pediocins Operon Mutant Gene Expression Microbial Sensitivity Tests medicine.disease_cause biology.organism_classification Listeria monocytogenes Microbiology Phosphotransferase Bacteriocins Bacteriocin Genes Bacterial Food Preservation Drug Resistance Bacterial Gene expression medicine Electrophoresis Gel Two-Dimensional Phosphoenolpyruvate Sugar Phosphotransferase System Gene Bacteria |
Zdroj: | ResearcherID Europe PubMed Central |
Popis: | Class IIa bacteriocins may be used as natural food preservatives, yet resistance development in the target organisms is still poorly understood. In this study, the understanding of class IIa resistance development in Listeria monocytogenes is extended, linking the seemingly diverging results previously reported. Eight resistant mutants having a high resistance level (at least a 10(3)-fold increase in MIC), originating from five wild-type listerial strains, were independently isolated following exposure to four different class IIa bacteriocin-producing lactic acid bacteria (including pediocin PA-1 and leucocin A producers). Two of the mutants were isolated from food model systems (a saveloy-type sausage at 10 degrees C, and salmon juice at 5 degrees C). Northern blot analysis showed that the eight mutants all had increased expression of EII(Bgl) and a phospho-beta-glucosidase homologue, both originating from putative beta-glucoside-specific phosphoenolpyruvate-dependent phosphotransferase systems (PTSs). However, disruption of these genes in a resistant mutant did not confer pediocin sensitivity. Comparative two-dimensional gel analysis of proteins isolated from mutant and wild-type strains showed that one spot was consistently missing in the gels from mutant strains. This spot corresponded to the MptA subunit of the mannose-specific PTS, found only in the gels of wild-type strains. The mptACD operon was recently shown to be regulated by the sigma(54) transcription factor in conjunction with the activator ManR. Class IIa bacteriocin-resistant mutants having defined mutations in mpt or manR also exhibited the two diverging PTS expression changes. It is suggested here that high-level class IIa resistance in L. monocytogenes and at least some other Gram-positive bacteria is developed by one prevalent mechanism, irrespective of wild-type strain, class IIa bacteriocin, or the tested environmental conditions. The changes in expression of the beta-glucoside-specific and the mannose-specific PTS are both influenced by this mechanism. The current understanding of the actual cause of class IIa resistance is discussed. |
Databáze: | OpenAIRE |
Externí odkaz: |