Drug Resistance and Broad Geographical Distribution of Identical R Plasmids of Pasteurella piscicida Isolated from Cultured Yellowtail in Japan

An MIC test of 12 chemotherapeutic agents performed on 175 strains of Pasteurella piscicida collected from cultured yellowtail ( Seriola quinqueradiata ) in different areas of Japan from 1989 to 1991 revealed 152 strains (87%) with resistance to combinations of ampicillin (AP), chloramphenicol (CP), kanamycin (KM), nalidixic acid (NA), sulfamonomethoxine (SA), tetracycline (TC), and/or trimethoprim (TMP). The remaining 23 strains were sensitive to all the drugs tested: AP, cefazolin, CP, florfenicol (FF), furazolidone, KM, NA, novobiocin, SA, streptomycin, TC, and TMP. FF showed the most effective antibacterial activity against P. piscicida with MICs ranging from 0.004 to 0.6 μg/ml. One hundred and forty‐nine of the 152 resistant strains carried transferable R plasmids encoding one of the Cp Km Sa Tc, Km Sa Tc, Km Sa, and Sa resistance. The most common resistance marker of transferable R plasmids identified in P. piscicida was Km Sa Tc. R plasmids encoding three different resistant markers were very similar on the basis of their digestion patterns with restriction endonucleases. There was homology among the DNAs of nine transferable R plasmids selected. Our findings suggest that multiple drug resistant strains of P. piscicida carrying transferable R plasmids with the same DNA structure are common in yellowtail farms and that the R plasmid has been retained within the P. piscicida population without change in their DNA structure according to geography and year.