Characterization and transferability of Clostridium perfringens plasmids

Two strains of Clostridium perfringens resistant to clindamycin (Cl), chloramphenicol (Cm), erythromycin (Em), and tetracycline (Tc) were isolated in France in 1974 and 1975. For one of these strains, curing experiments and molecular characterization of the extrachromosomal DNA clearly demonstrate the existence of two plasmids, plP401 (54 kilobases) and plP402 (63 kilobases), which, respectively, code for Tc Cm and Em Cl resistance. With mixed cultures, the Tc Cm plasmid is transferable to sensitive strains of C. perfringens; a segregation of these markers is frequently observed during mating experiments. In contrast, the transfer of the naturally occurring plasmid Em Cl does not occur at a significant rate. In performing transfer experiments in axenic mice, we obtained a Clr Emr Tcr transcipient whose chromosomal properties are those of a hybrid. When used in mating as a parental strain, this strain promotes chromosomal gene exchange. The role of the plasmid in this phenomenon is discussed, these transcipients being generally Clr Emr Tcr. The plasmid transfer is not limited to antibiotic resistance plasmids, the transferability of a bacteriocinogenic plasmid, plP404, harbored by C. perfringens BP6K-N5 being shown also. The transfer mechanism remains to be proved; it might be a conjugation process, a cell-to-cell contact being necessary for the transfer.