New incompatibility groups for Staphylococcus aureus plasmids

Incompatibility relationships between naturally occurring staphylococcal plasmids conferring erythromycin or kanamycin resistance have been studied making use of recombinants between these plasmids and pSA0301, a temperature-sensitive mutant plasmid determining tetracycline resistance. The four plasmids encoding kanamycin resistance fall in two incompatibility groups; similarly, the three plasmids responsible for erythromycin resistance belong to two other incompatibility groups. This brings the number of distinct incompatibility groups reported for Staphylococcus aureus plasmids to 13.     

In vivo formation of a plasmid cointegrate expressing two incompatibility phenotypes

Plasmids of the N- and M-incompatibility groups were identified in a clinical isolate of Shigella sonnei. The IncN plasmid pDT200 encoded resistance to trimethoprim, streptomycin, and sulfamethoxazole, and specified N-type pili which were synthesized constitutively. The IncM plasmid mediated resistance to ampicillin, chloramphenicol, streptomycin, sulfamethoxazole, and tetracycline. It was fi⁺ and was repressed for pilus synthesis. Pili specified appeared to be of the FII-type. A recombinant plasmid was formed on transfer of these plasmids from Sh. sonnei to Escherichia coli. The cointegrate plasmid expressed two incompatibility phenotypes and encoded two types of pilus. The incompatibility behavior of the cointegrate plasmid formed in vivo resembled that of composite plasmids constructed by in vitro linkage experiments. The finding that plasmids from clinical isolates may express two incompatibility phenotypes and two types of pilus, and that the pilus type and incompatibility group may not necessarily correspond, has important implications for plasmid classification schemes.     

Characterization of the plasmids comprising the “R Factor” R5 and their relationships to other R plasmids

The “R factor” R5 confers resistance to tetracycline (Tc), streptomycin (Sm) and spectinomycin (Sp), chloramphenicol (Cm), sulfonamides (Su), kanamycin (Km), and mercuric ion (Mer). This phenotype is mediated by the presence of two R plasmids: pMH1 and pMH2, having approximate weights of 18.5 and 62 megadaltons (Mdal), respectively. pMH1 encodes Sm, Su, Cm, Mer, and Km resistance, and is nonconjugative. pMH2 confers Sm, Su, Cm, Mer, and Tc resistance, is conjugative, and belongs to the FII incompatibility group. NR79 is a 63-Mdal R plasmid encoding the same resistances as “R5,” and was derived from the same geographical source. It belongs to the FII incompatibility group and is conjugative. Analysis of restriction endonuclease digestion patterns and polynucleotide sequence homologies indicate that pMH1, pMH2, and NR79 are closely related. In addition, pMH2 and NR79 exhibit nearly complete homology to R100. Restriction endonuclease maps and resistance gene locations for pMH1, pMH2, and NR79 have been derived and a model for the evolutionary relationships of these plasmids is presented.     

Evidence for multiple carboxymethylcellulase genes in Pseudomonas fluorescens subsp. cellulosa

Summary A genomic library of Pseudomonas fluorescens subsp. cellulosa DNA was constructed in bacteriophage 47.1 and recombinants expressing carboxymethylcellulase (CMCase) activity isolated. A 7.3 kb partial EcoRI fragment, a 9.4 kb EcoRI fragment and a 5.8 kb HindIII fragment were subcloned from three different phages into pUC18 to yield recombinant plasmids pJHH1, pJHH3 and pGJH2 respectively. Cells of Escherichia coli harbouring these plasmids expressed CMCase activity. The positions of the CMCase genes in the three plasmids were determined by subcloning and transposon mutagenesis. pJHH1 contained two distinct DNA regions encoding CMCases, which were controlled by the same promoter. All four cloned enzymes cleaved p-nitrophenyl--D-glucopyranoside, although at a very low rate, but none exhibited exoglucanase activity. In common with other extracellular enzymes cloned in E. coli, all the CMCases were exported to the periplasmic space in the enteric bacterium. The carboxymethylcellulase genes encoded by pJHH1 and pJHH3, were subject to glucose repression in E. coli.Abbreviations SSC 0.15 M NaCl, 0.015 M sodium citrate - Sm^r resistance to streptomycin - Km^r resistance to kanamycin - Ap^r resistance to ampicillin - Tc^r resistance to tetracycline - Cm^r resistance to chloramphenicol - CMCase carboxymethylcellulase     

Epidemiological and structural studies of Staphylococcus aureus R plasmids mediating resistance to tobramycin and streptogramin

We have studied the genetic properties of five S. aureus strains (serotypes 18 and III) isolated in France during a recent outbreak and carrying two new resistance characters (tobramycin and streptogramin). After transfer by transduction of these resistances, recipient cells were found in each case to harbor a single multicopy plasmid carrying the two resistance characters plus resistance to cadmium salts and/or resistance to tetracycline. The five Sg^r-Tm^r plasmids recovered by transduction are related epidemiologically; all five belong to the same incompatibility group and they share from 50 to 100% base sequence homology. Three of the five have similar restriction endonuclease patterns.     

Incidence of the H2 group of plasmids in chloramphenicol-sensitive salmonella isolated in 1974 from clinical sources in Ontario.

Chloramphenicol resistance in salmonella obtained from clinical sources in Ontario was previously found to be often mediated by R plasmids of the H2 incompatibility group. In the present study 40 salmonella strains resistant to one or more of kanamycin, streptomycin, sulfonamides, or tetracycline but sensitive to chloramphenicol, were investigated to determine if they contained R plasmids. Self-transmissible plasmids were isolated from 17 of the strains, and 7 of those showed the bacteriophage inhibition and thermosensitive mechanism of transfer characteristic of H2 plasmids. Entry exclusion and incompatibility experiments confiremd their classification. The results demonstrate that in this population of salmonella, R plasmids of the H2 group are prevalent. Experiments with plasmid-specific phages indicate that the plasmids of this sample, which are not in the H2 group, do not belong to any of the F, I, N, P, or W incompatibility groups.     

Antibiotic resistance study of clinical strains of Pseudomonas aeruginosa]

The study of 40 clinical strains of Ps. aeruginosa isolated from the wound surfaces of the patients showed that all the isolates were resistant to one or several antibiotics. The number of the strains resistant to 5, 4, 3, 2 or 1 drug was 5, 22.5, 25. 30 or 17.5 per cent respectively. Fifteen strains carried resistance plasmids capable of conjugative transfer. Eleven out of 21 plasmids controlled resistance to chloramphenicol, 7 plasmids controlled resistance to streptomycin and sulfanylamides, 1 plasmid controlled resistance to streptomycin and chloramphenicol. The presence of two types of the plasmids controlling resistance to chloramphenicol and streptomycin + sulfanylamides respectively was found. All the plasmids proved to be capable of conjugative transfer between the strains of Ps. aeruginosa ML (PAO). The frequency of the plasmid conjugative transfer in such crosses ranged from 10(-6) to 10(-3). Most of the plasmids belonged to the incompatibility groups P-2 and P-7. One plasmid belonged to the incompatibility group P-5. It should be noted that about a half of the plasmids (11 out of 21) belonged to the incompatibility group P-7 which up to the present time was conditional, since was represented by a single plasmid Rms 148.     

Conjugative R plasmids isolated from hospital strains of Pseudomonas aeruginosa]

It was shown that Pseudomonas aeruginosa hospital strains isolated from patients and environment in the Republican Centre of Burns in Tbilisi contained conjugative R plasmids. The plasmids were marked pM15 and pM19, respectively. The plasmid pM15 determined resistance to carbenicillin, kanamycin and tetracycline and plasmid pM19 determined resistance to carbenicillin, kanamycin, tetracycline, chloramphenicol, gentamicin and streptomycin. Plasmid pM15 had a molecular weight of 45.8 MD and seven sites for EcoRI, six sites for HindIII and five sites for Hpa-I-restrictase. This plasmid, as others, belongs to the Inc-P1 incompatibility group.     

Detection of R plasmids in naturally occurring fish-pathogenic bacteria, Edwardsiella tarda.

The conjugative R plasmids were detected from fish-pathogenic Edwardsiella tarda isolated from cultured eels. These R plasmids were resistant to sulfonamide and tetracycline, or sulfonamide, streptomycin, chloramphenicol, tetracycline and kanamycin. There were no inhibitions in growth of phages W-31, P1, T1, T3, T7, and lambda. They were classified into incompatibility group A.     

Frequency of R Factor-mediated Multiple Drug Resistance in Klebsiella and Aerobacter

A comparative study was done on the transfer frequency of R factors from 90 strains of multiple drug-resistant Aerobacter and 81 strains of Klebsiella to Escherichia coli CSH-2 (F(-), met(-), pro(-), Nal-r). The most common resistance patterns for the Aerobacter isolants were ampicillin streptomycin chloramphenicol tetracycline and ampicillin streptomycin chloramphenicol tetracycline kanamycin neomycin; for the Klebsiella isolants, the most common resistance pattern was ampicillin kanamycin streptomycin tetracycline chloramphenicol neomycin. R factors were isolated from 14.1% of the Aerobacter strains; 61.5% of these R factors harbored R determinants for ampicillin streptomycin tetracycline. R factors were isolated from 79.1% of the Klebsiella strains; four R factors were isolated with significant frequency; streptomycin chloramphenicol kanamycin neomycin, 37.5%; ampicillin streptomycin tetracycline kanamycin neomycin, 14.1%; ampicillin streptomycin tetracycline, 12.5%; and streptomycin chloramphenicol tetracycline, 12.5%.Chloramphenicol, kanamycin, and neomycin resistance was rarely transferred from the Aerobacter strains, although over 50% of the clinical isolants possessed resistance to these antibiotics. In contrast, over 75% of the Klebsiella strains transferred resistance to chloramphenicol, kanamycin, neomycin. Highest frequency of transferred resistance to individual drugs in the Aerobacter strains was to streptomycin (14.8%), whereas in the Klebsiella group resistance to four drugs was transferred at a very high frequency: streptomycin (80.8%), chloramphenicol (78.5%), kanamycin (76.4%), and neomycin (75.9%).     

Emergence of tetracycline resistance due to a multiple drug resistance plasmid in Vibrio cholerae O139

Abstract Of the 173 clinical strains of Vibrio cholerae O139 isolated from India, Bangladesh, and Thailand tested, six strains from India were resistant to tetracycline, ampicillin, chloramphenicol, kanamycin, and gentamicin. These six strains harbored a self-transmissible plasmid that mediated resistance to tetracycline, ampicillin, chloramphenicol, kanamycin, gentamicin, sulfamethoxazole, trimethoprim, and O/129. The multiple drug resistance plasmids were 200 kb in size and belonged to the incompatibility group C. Although a majority of the O139 strains (94.8%) were highly resistant to streptomycin, sulfamethoxazole, trimethoprim, and O/129, the tetracycline-susceptible strains so far tested were plasmid-negative. The data suggest the existence of two distinct multiple antimicrobial agent resistance (MAR) patterns in V. cholerae O139.     

Construction of a Chimeric Plasmid in Bacillus subtilis

Staphylococcal plasmids pTP4 (2.7 megadaltons encoding resistance to chloramphenicol) and pTP5 (2.6 megadaltons encoding resistance to tetracycline), which replicate and express resistance in B. subtilis, were found to cut by HindIII endonuclease respectively at a single site and three sites. A chimeric plasmid pTA1245 (4.1 megadaltons) was constructed from pTP4 and pTP5 by HindIII digestion and ligation with E. coli DNA ligase. pTA1245 expresses resistances to chloramphenicol and tetracycline in B. subtilis, and pTA1245 is amplified in the presence of tetracycline. A physical map of pTA1245 was constructed.     

Genetic instability of R plasmids in relation to the shift of drug resistance patterns in Salmonella johannesburg

Observation of the resistance of Salmonella johannesburg to the six drugs ampicillin (A), streptomycin (S), tetracycline (T), chloramphenicol (C), kanamycin(K) and sulphadiazine (Su) was made over the 7 years from 1973 to 1979. Strains with ASTCKSu- and ASCKSu- resistance patterns predominated in the years 1973-1975 and 1976-1979, respectively. These resistances were found to be mediated by autotransferring plasmids belonging to the incompatibility group FIme. The ASTCKSu-resistance plasmids were unstable, giving rise to deletion variants at a much higher frequency than ASCKSu-resistance plasmids either of natural origin or derived in vitro from the ASTCKSu-resistance plasmids. Thus, the ASCKSu-resistance plasmid might be a deletion variant of the ASTCKSu-resistance plasmid. This is supported by the extensive similarity of their cleavage patterns produced by specific restriction endonucleases.     

R factors of pathogenic strains of Escherichia coli isolated from infant diarrhoea

Several drug resistance patterns were determined in 170 pathogenic strains of E. coli isolated in 6 Polish towns from infant diarrhoea. The most frequent were strains resistant to 5 different drugs: ampicillin, tetracycline, chloramphenicol, streptomycin and sulfonamide. Conjugative R factors of 30 strains of the same resistance pattern (Ap Tc Cm Sm Su) were characterised by determining their Fi(F) character, incompatibility and molecular weight.     

Molecular characterization of antibiotic resistance in clinical Salmonella typhi isolated in Ghana

Fifty-eight clinical Salmonella typhi strains isolated from patients suspected of suffering from typhoid fever were obtained at the Korle-Bu Teaching Hospital and the Noguchi Memorial Institute for Medical Research, both located in Ghana, Africa. Each isolate was examined for susceptibility to ampicillin, chloramphenicol, streptomycin, tetracycline, and trimethoprim/sulfamethoxazole by the disk diffusion assay. Five of the isolates were resistant to all five antibiotics while 10 isolates were resistant to ampicillin, chloramphenicol, and trimethoprim/sulfamethoxazole, which are considered 'first line' antibiotics in the treatment of typhoid fever. Thirty-four isolates were resistant to at least one of the antibiotics tested and 62% of these isolates possessed conjugable plasmids belonging to incompatibility group IncHI. Ninety percent of the conjugable plasmids conferred a multiple drug-resistant phenotype on the strains harboring them. Additionally, 14 strains contained plasmids that were transformable and six of them encoded multiple drug resistance. Our findings indicate that multiple drug resistance to the 'first line' antibiotics in S. typhi may be more prevalent in Africa than previously thought.     

The complete genome sequences of four new IncN plasmids from wastewater treatment plant effluent provide new insights into IncN plasmid diversity and evolution

The dissemination of antibiotic resistance genes among bacteria often occurs by means of plasmids. Wastewater treatment plants (WWTP) were previously recognized as hot spots for the horizontal transfer of genetic material. One of the plasmid groups that is often associated with drug resistance is the incompatibility group IncN. The aim of this study was to gain insights into the diversity and evolutionary history of IncN plasmids by determining and comparing the complete genome sequences of the four novel multi-drug resistance plasmids pRSB201, pRSB203, pRSB205 and pRSB206 that were exogenously isolated from the final effluent of a municipal WWTP. Their sizes range between 42,875 bp and 56,488 bp and they share a common set of backbone modules that encode plasmid replication initiation, conjugative transfer, and plasmid maintenance and control. All plasmids are transferable at high rates between Escherichia coli strains, but did not show a broad host range. Different genes conferring resistances to ampicillin, streptomycin, spectinomycin, sulfonamides, tetracycline and trimethoprim were identified in accessory modules inserted in these plasmids. Comparative analysis of the four WWTP IncN plasmids and IncN plasmids deposited in the NCBI database enabled the definition of a core set of backbone genes for this group. Moreover, this approach revealed a close phylogenetic relationship between the IncN plasmids isolated from environmental and clinical samples. Phylogenetic analysis also suggests the existence of host-specific IncN plasmid subgroups. In conclusion, IncN plasmids likely contribute to the dissemination of resistance determinants between environmental bacteria and clinical strains. This is of particular importance since multi-drug resistance IncN plasmids have been previously identified in members of the Enterobacteriaceae that cause severe infections in humans.     

Survey of plasmids and resistance factors among veterinary isolates of Salmonella enteritidis in Malaysia

Thirty-five veterinary isolates of Salmonella enteritidis were characterized by their susceptibility to 10 antimicrobial agents and by their plasmid profiles on agarose gel electrophoresis. All were susceptible to carbenicillin, chloramphenicol and nalidixic acid but 89% were resistant to tetracycline. When examined, 91% of the isolates harboured plasmids, with sizes ranging from 9.8 to 60 MDa. However, it was only possible to associate the presence of plasmids with tetracycline resistance; plasmids occurring in 90% of the tetracycline-resistant isolates. In conjugation experiments, with Escherichia coli K12 Nal^r as recipient, the tetracycline resistance in three selected S. enteritidis isolates was observed to transfer at frequencies of 3.0×10^-3 to 1.0×10^-2/donor cell. The concomitant transfer of a 56-MDa or 60-MDa plasmid in these three S. enteritidis isolates was also detected.R. Son. A. Ansary and I. Salmah are with the Department of Genetics and Cellular Biology. University of Malaya, 59100 Kuala Lumpur, Malaysia     

Antibiotic resistance of Shigella in different regions of the USSR]

Shigella were most sensitive to polymyxin ceporin, ampicillin, neomycin and furazolidone and resistant to chloramphenicol, tetracycline and streptomycin. Shigella resistant simultaneously to two or three drugs mainly to tetracycline + chloramphenicol, tetracycline + streptomycin and tetracycline + chloramphenicol + streptomycin were most frequent. The frequency of the Shigella strains carrying R-plasmids increased from 28 per cent in 1969--1970 to 72.6 per cent in 1977. The Shigella strains isolated during the dysentery outbreak in 1973--1977 carried the R-factor controlling resistance to tetracycline + chloramphenicol, tetracycline + chloramphenicol + streptomycin, tetracycline + chloramphenicol + streptomycin + neomycin. Interaction between separate biochemical types, colicinogenicity and drug resistance classes was found in the Shigella isolates. The data on the effect of antibiotic (tetracyclines) intensive use in stock-raising defining wide spread of the R-plasmids controlling resistance to these drugs were obtained.     

Occurrence of heterogeneous R-plasmids during two concurrent epidemics due to multidrug-resistantSalmonella oranienburg

During two different epidemics that started in August–September, 1980, 140 and 6 multidrug-resistant strains ofSalmonella oranienburg were isolated from a Children's Hospital in New Delhi (epidemic 1) and H.N. Das Hospital in Bombay (epidemic 2) respectively. Out of 140, 123 strains showed high levels of resistance to ampicillin, kanamycin, streptomycin, sulfamethoxazole, tetracycline, and trimethoprim. All six strains of epidemic 2 and two strains of epidemic 1 were also found resistant to chloramphenicol in addition to the above antibiotics. The genetic characterization of conjugative R-plasmids harbored by these strains revealed that, while strains of epidemic 1 carry a fi^–, 96 megadalton, an unclassified plasmid, the strains isolated during epidemic 2 contain a fi^–, 62 megadalton plasmid of incompatibility group I₁. All the six strains of epidemic 2 were found to produce bacteriocin of Col Ib group. Plasmid transfer studies revealed that the genes for antibiotic resistance and bacteriocin production were coded on a single plasmid of 62 megadalton. The data show the significance of detailed genetic analysis while dealing with the clonal outbreaks due to same resistant serotypes.     

Plasmid profile and antibiotic resistance in coagulase-negative staphylococci isolated from polluted water

Four different species of coagulase-negative staphylococci (CNS) were isolated from polluted waters in Fez, Morocco and found to be Staphylococcus simulans, Staph. lenticus, Staph. hyicus and Staph. xylosus . Eight isolates belonging to these four species were analysed for their plasmid content. Southern blot hybridizations were performed to define the resistance determinants of the plasmids harboured by these species. These determinants were found to be carried mainly by Class I staphylococcal plasmids (1–5 kb). A plasmid (4·3 kb) carrying a tetracycline resistance gene was present in five isolates from all identified species. Plasmids carrying a chloramphenicol resistance gene were more frequently encountered and found to be of different sizes. Plasmids carrying erythromycin, neomycin, and streptomycin resistance genes were less frequent and were the same size. The results indicate that the occurrence of multi-resistant CNS in polluted waters may constitute a reservoir for disseminating antibiotic-resistance into the community.