Faculty Bibliography

The molecular basis of the non-expression of coagulase was investigated for 14 coagulase-negative isolates of Staphylococcus aureus obtained from different clinical samples. These isolates had typical S. aureus characteristics such as production of clumping factor, DNAase and protein A, but, with one exception, failed to produce detectable amounts of alpha-haemolysin. All 14 strains had DNA homologous to the coagulase gene (coa), but a coa-specific transcript was found in only seven of them. alpha-Haemolysin mRNA was detected in only eight strains without direct correlation to coa-mRNA expression. Thus, coagulase and alpha-haemolysin deficiencies in S. aureus may involve either transcriptional or post-transcriptional alterations although additional regulatory factors may influence the expression of both genes

The rolling circle plasmids of Staphylococcus aureus regulate their replication by controlling initiator (Rep) protein synthesis. It was demonstrated recently that the pT181 initiator protein RepC is inactivated during pT181 replication by the addition of an oligodeoxynucleotide, giving rise to a new form, RepC* (A. Rasooly and R. P. Novick, Science, 262:1048-1050). We establish here that this initiator modification occurs with four other members of the pT181 family and that it occurs in Bacillus subtilis as well as S. aureus. These results suggest that Rep conversion to Rep* is probably universal among plasmids of the pT181 family and is not host dependent

Toxic shock syndrome (TSS) is a multisystem illness caused mainly by Staphylococcus aureus producing TSS toxin-1 (TSST-1). A variant of TSST-1 has been isolated from ovine mastitis S. aureus. This toxin, TSST-ovine (TSST-O) is only weakly T cell mitogenic, is nonpyrogenic, does not enhance endotoxin shock, and does not cause TSS in the miniosmotic pump model. The sequence of the ovine gene (tstO) differs from the TSST-1 gene (tstH) by 14 nucleotides that change seven amino acids in the mature protein of which two are in the C-terminal half. A gene fusion containing half of both tstH and tstO was made and cloned into S. aureus. The fusion protein contained the two C-terminal amino acid differences that are in TSST-O at residues 132 and 140. The fusion protein was not T cell mitogenic and did not elicit TSS in two rabbit models. Additional experiments used mutagenesis to change the lysine residue at position 132 of TSST-O to glutamate (TSST-OK132E), as exists in TSST-1, and to change the lysine residue of the human-ovine fusion at position 132 to glutamate (TSST-11140T). Both mutants were pyrogenic, enhanced endotoxin shock, and caused TSS in the miniosmotic pump model. However, the proteins were only partially T cell mitogenic. The restoration of lethality of TSST-O and the human-ovine fusion by changing the lysine to glutamate, as exists in TSST-1, indicates that residue 132 is important in lethality. The failure to regenerate complete T cell mitogenicity of the same mutants indicates that residues 132 and 140 are important for that activity

The three-dimensional structure of toxic shock syndrome toxin 1 (TSST-1) from Staphylococcus aureus has been determined and refined to an R value of 0.226 for data between 8- and 2.5-A resolution. Overall, the structure of TSST-1 is similar to that of another superantigen, staphylococcal enterotoxin B (SEB). The key differences between these molecules are in the amino termini and in the degree to which a long central helix is covered by surface loops. The region around the carboxyl end of this central helix is proposed to govern the superantigenic properties of TSST-1. An adjacent region along this helix is proposed to be critical in the ability of TSST-1 to induce toxic shock syndrome

Replication of the Staphylococcus aureus plasmid pT181, which occurs by the rolling circle mechanism, is accompanied by the covalent attachment of a approximately 12-residue oligodeoxy-nucleotide to one subunit of the dimeric plasmid-coded initiator protein, RepC. This oligonucleotide represents the plasmid sequence immediately 3' to the initiating nick site. The resulting heterodimeric protein lacks the topoisomerase and replication activities of unmodified RepC, suggesting that the regulation of plasmid DNA replication requires post-replicational inactivation of the initiator protein as well as control of its synthesis

Native toxic shock syndrome toxin 1 (TSST-1) purified from Staphylococcus aureus has been crystallized in four different forms. The highest resolution data (2.05 A) was collected from orthorhombic crystals belonging to the space group C222(1). The unit cell dimensions are a = 108.7 A, b = 177.5 A, c = 97.6 A. Rotation function analysis of this form indicates that there is trimer of toxin molecules in the asymmetric unit with a local 3-fold axis parallel to the crystallographic c axis. Crystals of a double mutant of TSST-1 have been grown which has a single molecule in the asymmetric unit and diffract to 1.9 A. The space group is P2(1) with unit cell parameters of a = 44.4 A, b = 34.0 A, c = 55.2 A, beta = 93.0 degrees

The production of most toxins and other exoproteins in Staphylococcus aureus is controlled globally by a complex polycistronic regulatory locus, agr. Secretory proteins are up-regulated by agr whereas surface proteins are down-regulated. agr contains two divergent promoters, one of which directs the synthesis of a 514 nucleotide (nt) transcript, RNAIII. In this report, we show that the cloned RNAIII determinant restores both positive and negative regulatory functions of agr to an agr-null strain and that the RNA itself, rather than any protein, is the effector molecule. RNAIII acts primarily on the initiation of transcription and, secondarily in some cases, at the level of translation. In these cases, translation and transcription are regulated independently. RNAIII probably regulates translation directly by interacting with target gene transcripts and transcription indirectly by means of intermediary protein factors

We have prepared and analyzed two types of gene fusion between the replication initiator gene, repC, and the reporter gene, blaZ, in order to investigate the relationship between pT181 plasmid copy number and RepC initiator protein production. A series of pT181 copy mutant plasmids, with copy numbers ranging from 70 to 800 copies per cell, were analyzed. In one type of gene fusion used in this study, blaZ was translationally coupled to the C-terminal end of the repC coding sequence such that native forms of both proteins were produced. This gene fusion arrangement, which permitted monitoring of RepC production (as BlaZ activity) by plasmids using the protein for their own replication, demonstrated a linear relationship, with one exception, between RepC production and plasmid copy number over a 20-fold range. In the second type of fusion, blaZ was translationally fused to the C-terminal end of repC. As the translational fusion did not produce active RepC protein, the fusion-containing pT181 derivatives were maintained in a strain which provided RepC in trans, and were thus analyzed at constant copy number. In contrast to previous analyses of this type, our translational fusion constructs expressed repC at levels proportional to the copy numbers of the plasmids from which the fusions were prepared. Using these data, we have calculated a minimum figure for the number of RepC molecules synthesized per replication event

Sequences related to the Staphylococcus aureus accessory gene regulator (agr) were demonstrated in S. lugdunensis by Southern blot analysis of 13 strains and sequencing of the S. lugdunensis agr-like locus (agr-sl). Northern blot analysis of cellular RNA revealed the presence of a transcript having homology with the agr-P3 transcript (RNAIII) for three of the six strains tested. The three strains containing this transcript produce a hemolysin with phenotypic properties similar to that of S. aureus delta-hemolysin. Nevertheless, unlike agr-P3 from S. aureus, agr-sl does not encode any potential peptide homologous to S. aureus delta-hemolysin, suggesting that the hemolytic activity detected in S. lugdunensis is encoded elsewhere and may be controlled by agr-sl

Soon after methicillin was introduced into clinical practice in the early 1960s, resistant strains of Staphylococcus aureus (MRSA) appeared, bearing a newly acquired resistance gene, mecA, that encodes a penicillin binding protein, PBP2a. MRSA have spread throughout the world, and an investigation of the clonality of 472 isolates by DNA hybridization was performed. All 472 isolates could be divided into six temporally ordered mecA hybridization patterns, and three of these were subdivided by the chromomosomal transposon Tn554. Each Tn554 pattern occurred in association with one and only one mecA pattern, suggesting that mecA divergence preceded the acquisition of Tn554 in all cases and therefore that mecA may have been acquired just once by S. aureus