1. Antibacterial activity of class IIa bacteriocin Cbn BM1 depends on the physiological state of the target bacteria
Thibaut Jacquet, Catherine Cailliez-Grimal, Grégory Francius, Frédéric Borges, Muhammad Imran, Jérôme F L Duval, Anne-Marie Revol-Junelles Res Microbiol. 2012 Jun;163(5):323-31. doi: 10.1016/j.resmic.2012.04.001. Epub 2012 May 12.
Carnobacteriocin BM1 (Cbn BM1) is a class IIa bacteriocin produced by Carnobacterium maltaromaticum CP5 isolated from a French mold ripened cheese. Numerous studies highlight variations in numerous parameters, such as bacterial membrane composition and potential, according to physiological changes. In this work, the mechanism of action of an oxidized form of Cbn BM1 was studied on C. maltaromaticum DSM20730 in log and stationary growth phases. Membrane integrity assessment and high resolution imaging by atomic force microscopy confirmed the link between physiological state and bacterial sensitivity to Cbn BM1. Indeed, these approaches enable visualizing morphological damage of C. maltaromaticum DSM20730 only in an active dividing state. To specifically address the interaction between peptide and bacterial membrane, fluorescence anisotropy measurements were conducted. Results revealed strong modifications in membrane fluidity by Cbn BM1 only for C. maltaromaticum DSM20730 in log growth phase. In a similar way, the Δψ component, but not the ΔpH component of the proton-motive force, was perturbed only for bacteria in log growth phase. These results clearly show that a class IIa bacteriocin antimicrobial mechanism of action can be modulated by the physiological state of its target bacteria.
2. Characterization of the protein conferring immunity to the antimicrobial peptide carnobacteriocin B2 and expression of carnobacteriocins B2 and BM1
L E Quadri, M Sailer, M R Terebiznik, K L Roy, J C Vederas, M E Stiles J Bacteriol. 1995 Mar;177(5):1144-51. doi: 10.1128/jb.177.5.1144-1151.1995.
Cloning of a 16-kb DNA fragment from the 61-kb plasmid of Carnobacterium piscicola LV17B into plasmidless C. piscicola LV17C restores the production of the plasmid-encoded carnobacteriocin B2 and the chromosomally-encoded carnobacteriocin BM1 and restores the immune phenotype. This fragment also has sufficient genetic information to allow the expression of carnobacteriocin B2 and its immunity in a heterologous host. The gene locus (cbiB2) responsible for immunity to carnobacteriocin B2 is located downstream of the structural gene for carnobacteriocin B2 and encodes a protein of 111 amino acids (CbiB2). CbiB2 was expressed in Escherichia coli as a fusion of the maltose-binding protein and CbiB2. The fusion protein was purified on an amylose column and cleaved with factor Xa, and pure CbiB2 was isolated by high-performance liquid chromatography. The N-terminal amino acid sequence and mass spectrometry (molecular weight [mean +/- standard error], 12,662.2 +/- 3.4) of the purified protein agree with the information deduced from the nucleotide sequence of cbiB2. Western blot (immunoblot) analysis indicates that the majority of the intracellular pool of this immunity protein is in the cytoplasm and that a smaller proportion is associated with the membrane. CbiB2 confers immunity to carnobacteriocin B2, but not to carnobacteriocin BM1, when it is expressed in homologous or heterologous hosts. No protective effect is observed for sensitive cells growing in the presence of the bacteriocin when the immunity protein is added to the medium. The purified immunity protein does not show significant binding to microtiter plates coated with carnobacteriocin B2 and is not able to inactivate the bacteriocin in solution.
3. Chemical and genetic characterization of bacteriocins produced by Carnobacterium piscicola LV17B
L E Quadri, M Sailer, K L Roy, J C Vederas, M E Stiles J Biol Chem. 1994 Apr 22;269(16):12204-11.
Carnobacteriocins BM1 and B2 are thermostable class II bacteriocins produced by Carnobacterium piscicola LV17B. These bacteriocins were purified by a three-step procedure that included hydrophobic interaction, size exclusion, and reversed-phase high performance liquid chromatography. The purified peptides and fragments derived by enzymatic digestion were analyzed by Edman degradation, amino acid analysis, and mass spectrometry. An oxidized form of carnobacteriocin BM1 (carnobacteriocin B1) was also purified and characterized. Probes synthesized using information from the N-terminal amino acid sequences for the purified bacteriocins were used to locate structural genes for the carnobacteriocins. A 1.9-kilobase (kb) HindIII fragment from a 61-kb plasmid (pCP40) containing the carnobacteriocin B2 structural gene and a 4.0-kb EcoRI-PstI genomic fragment containing the carnobacteriocin BM1 structural gene were cloned and fully or partially sequenced, respectively. Expression of the chromosomal bacteriocin and its immunity function requires the presence of the 61-kb plasmid. The results indicate that both bacteriocins are synthesized as prebacteriocins. Post-translational cleavage of an 18-amino acid N-terminal extension at a Gly-Gly (positions -2 and -1) site takes place in each prepeptide to yield the mature 43-amino acid carnobacteriocin BM1 (molecular mass 4524.6) and the mature 48-amino acid carnobacteriocin B2 (molecular mass 4969.9). These two peptides showed significant amino acid homology to each other and with those class II bacteriocins which contain the YGNGV amino acid motif near the N terminus.