Faculty Bibliography

Plasmid pRN3208, thermosensitive for replication, and carrying the erythromycin transposon Tn551, was used for insertional inactivation of methicillin resistance in a highly and homogeneously resistant strain of Staphylococcus aureus. Two kinds of insertionally inactivated cells were obtained. Cultures of the major class contained highly methicillin resistant cells with a frequency of about 10(-3) to 10(-4), produced DNA with methicillin resistance transforming activity, and also produced penicillin binding protein 2a, the 78 kd low affinity penicillin binding protein characteristic of methicillin resistant Staphylococcus aureus, in apparently normal quantities. The single member of class B had no detectable methicillin resistant cells (less than 10(-8)) with an MIC greater than 1 micrograms/ml, contained no DNA with methicillin resistant transforming activity and no penicillin binding protein 2a. The data suggest that in the class A cells insertional inactivation did not affect the structural gene(s) of methicillin resistance but a regulatory locus or loci needed for the homogeneous expression of resistance

The nucleotide sequence of toxic shock syndrome toxin-1 (TSST-1) has been determined. In addition, one-third of the predicted amino acid sequence was confirmed by amino acid sequence analysis of cyanogen bromide-generated TSST-1 protein fragments. The DNA sequencing results identified a 708-base pair open reading frame starting with an ATG, 7 base pairs downstream from a Shine-Dalgarno sequence, and terminating at a UAA stop codon. Amino acid analysis of the intact protein defined the NH2 terminus of the mature protein and located the cleavage point for the signal peptide (Ala/Ser). The signal peptide contained the first 40 amino acids and had characteristic structural similarities with other bacterial signal peptides. The coding sequence of the mature protein was 585 base pairs (194 amino acids) in length, and the molecular weight of the predicted protein was 22,049. This is in good agreement with the previously reported molecular weight of TSST-1 (22,000), as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. NH2-terminal amino acid sequence analysis performed on isolated TSST-1 CNBr fragments determined the position of the peptides in the TSST-1 sequence and verified the predicted amino acid sequence in those positions. Computer analyses of the amino acid sequence showed that TSST-1 has little or no sequence homology with biologically related toxins, streptococcal pyrogenic exotoxin A, and staphylococcal enterotoxins B and C

The molecular processes involved in the transduction of small staphylococcal plasmids by a generalized transducing phage, phi 11, have been analysed. The plasmids are transduced in the form of linear concatemers containing only plasmid DNA; plasmid-initiated replication is required for their generation but additive interplasmid recombination is not. Concatemers are probably generated by the interaction of one or more phage functions with replicating plasmid DNA. Insertion of any restriction fragment of the phage into the plasmid causes an approximately 10(5)-fold increase in transduction frequency, regardless of the size or genetic content of the fragment. The resulting transducing particles (Hft particles) contain mostly pure linear concatemers composed of tandem repeats of the plasmid::phage chimera, and their production requires active plasmid-initiated replication. The high frequency of transduction is a consequence of homologous recombination between the linear chimeric and phage concatemers, which has the effect of introducing an efficient pac site into the former. Following introduction into lysogenic recipient bacteria, the transducing DNA is first converted to the supercoiled form, then processed to monomers by a mechanism that requires the active participation of the plasmid replication system

A strain of Staphylococcus aureus producing toxic shock syndrome toxin-1 was repeatedly isolated from the nares of a neurosurgeon. This strain was identical to strains cultured from two of his patients who developed toxic shock syndrome after laminectomy. The relatedness of the isolates was shown by Southern blot hybridization analyses using chromosomal transposons as probes. This approach should be considered, in addition to standard bacteriologic techniques, as an effective method to analyze the relatedness of nosocomial isolates

pT181, a 4.4-kilobase multicopy plasmid of Staphylococcus aureus, encodes a trans-acting initiator protein, RepC, which was rate limiting for replication. Deletions in a 500-base-pair region of the plasmid external to the minimal replicon decreased the ability of the plasmid to compete with a coexisting incompatible plasmid. These deletions, which define a region called cmp (for competition), appeared to affect the interaction of RepC and the plasmid origin of replication. However, in the homoplasmid state the deletions affected neither copy number nor plasmid stability. The Cmp phenotype is orientation independent, and cmp defects could not be complemented in trans

The effect on pT181 plasmid replication of the concentration of the plasmid-coded initiator protein, RepC, has been analyzed. In one type of experiment, plasmid replication was found to stop immediately after the addition of an inhibitory concentration of chloramphenicol (Cm) to growing cultures. Chromosomal replication showed the slow turnoff that is usual for Cm inhibition. Because plasmid replication rate is determined autogenously, no host factor can be rate limiting, suggesting that the specific factor affected is Rep C. In another type of experiment, we constructed a translational fusion between the repC coding sequence and a translationally inducible Cm-acetylase gene, cat-86, using pUB110 as the carrier replicon. The fusion plasmid showed an eightfold amplification of its own copy number and a similar amplification of a co-resident pT181 plasmid upon Cm induction. The amplified plasmids did not show autocatalytic runaway replication but rather established stable elevated copy numbers, indicating the existence of a secondary level of regulation. These results suggest that RepC is rate limiting for pT181 replication and support the hypothesis that pT181 replication is regulated at the level of RepC synthesis. The nature of the secondary regulation is unknown

Incompatibility between autonomous plasmids has been attributed, for the most part, to interaction between plasmids' negative control systems and/or partitioning systems. In this report it is shown that indirectly regulated plasmids with non-interactive negative control systems are incompatible on the basis of their shared initiator protein. This principle was demonstrated for a family of Staphylococcus aureus plasmids whose copy number is regulated by inhibitory RNAs that control the production of a rate-limiting, trans-active, initiator protein. We have constructed a pair of plasmids that have the same regulation systems and different initiator proteins and another pair with different regulation systems and the same initiators. Both of these pairs of plasmids were shown to be incompatible

Elimination of plasmids from regenerating S. aureus protoplasts occurred when the regeneration medium contained sucrose but not when it contained sodium succinate. This difference was caused by the occurrence of cell division prior to regeneration of the cell wall on sucrose but not on succinate. Coexisting compatible plasmids were cured independently; coexisting incompatible plasmids were cured jointly. These results support the hypothesis that plasmid pools exist as physically sequestered units in protoplasts and that curing is a consequence of the segregation of such units during abnormal division of wall-less organisms.

Highly purified toxic-shock syndrome toxin 1 (TSST-1) was prepared by differential precipitation with ethanol and resolubilization in water followed by successive electrofocusing in pH gradients of 3-10, 6-8, and 6.5-7.5. TSST-1, thus isolated, migrated as two distinct protein bands with isoelectric points of 7.08 (TSST-1a) and 7.22 (TSST-1b). When tested by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, both toxins migrated as homogeneous bands with molecular weights of 22 000. The gel bands were visualized by silver staining. The two toxins have nearly identical amino acid compositions and are immunologically identical as shown by Ouchterlony reactivity against TSST-1 hyperimmune serum. TSST-1a and TSST-1b have the same biological activities as TSST-1: the capacity to induce fever, enhancement of host susceptibility to lethal endotoxin shock, nonspecific T lymphocyte mitogenicity, and suppression of immunoglobulin M synthesis against sheep erythrocytes. These two proteins have been isolated from several different TSS-associated Staphylococcus aureus strains. The data suggest that the differences in isoelectric point result either from the presence of a cofactor or from alternative conformations. Since only two bands appear, microheterogeneity as a result of deamination or acetylation is unlikely

Insertion of the erythromycin-resistance transposon Tn551 into the Staphylococcus aureus chromosome at a site which maps between the purB and ilv loci has a pleiotrophic effect on the production of a number of extracellular proteins. Production of alpha, beta and delta hemolysin, toxic shock syndrome toxin (TSST-1) and staphylokinase was depressed about fifty-fold while protein A production was elevated twenty-fold. Hybridization analysis showed that the defect in expression of TSST-1 and alpha hemolysin was at the transcriptional level. Inability of the mutant strain to express either a cloned TSST-1 gene or the chromosomal gene indicates that the transposon has inactivated a trans-active positive control element. This element has been designated agr for accessory gene regulator