Altered immune proteome of Staphylococcus aureus under iron‐restricted growth conditions

Staphylococcus aureus is one of the major causative agents of severe infections, and is responsible for a high burden of morbidity and mortality. Strains of increased virulence have emerged (e.g. USA300) that can infect healthy individuals in the community and are difficult to treat. To add to the knowledge about the pathophysiology of S. aureus, the adaption to iron restriction, an important in vivo stressor, was studied and the corresponding immune response of the human host characterized. Using a combination of 1D and 2D immune proteomics, the human antibody response to the exoproteomes of S. aureus USA300Δspa grown under iron restriction or with excess iron was compared. Human antibody binding to the altered exoproteome under iron restriction showed a 2.7‐ to 6.2‐fold increase in overall signal intensity, and new antibody specificities appeared. Quantification of the secreted bacterial proteins by gel‐free proteomics showed the expected strong increase in level of proteins involved in iron acquisition during iron‐restricted growth compared to iron access. This was accompanied by decreased levels of superantigens and hemolysins. The latter was corroborated by functional peripheral blood mononuclear cell proliferation assays. The present data provide a comprehensive view of S. aureus exoproteome adaptation to iron restriction. Adults have high concentrations of serum antibodies specific for some of the newly induced proteins. We conclude that iron restriction is a common feature of the microenvironment, where S. aureus interacts with the immune system of its human host.     

Profiling the surfacome of Staphylococcus aureus

Staphylococcus aureus is a widespread opportunistic pathogen that can cause a wide variety of life‐threatening diseases. Especially for the colonization of human tissues and the development of invasiveness, surface‐exposed proteins are of major importance. In the present studies, we optimized a proteolytic shaving approach to identify those surface‐exposed protein domains – the surfacome – of S. aureus that are accessible to extracellular bio‐macromolecules, for example in the host milieu. Subsequently, this approach was applied to define the surfacomes of four strains with different genetic backgrounds. This resulted in the identification of 96 different proteins. Surprisingly, the overlap between the surfacomes of the four different strains was below 10% and each strain displayed its own characteristic set of surface‐exposed proteins. The data were also evaluated at the peptide level and here we observed a similar phenomenon. From 190 unique peptides only five were commonly found in the four strains. Besides well known cell wall proteins, we also identified some essential proteins, several yet uncharacterized exported proteins and predicted intracellular proteins. These results show for the first time that the cell surface of different S. aureus strains is not only highly variable, but also that the displayed proteins are very heterogeneous.     

Comparative Proteomic Profiling of Methicillin‐Susceptible and Resistant Staphylococcus aureus

Staphylococcus aureus is a highly successful human pathogen responsible for a wide range of infections. This study provides insights into the virulence, pathogenicity, and antimicrobial resistance determinants of methicillin‐susceptible and methicillin‐resistant S. aureus (MSSA; MRSA) recovered from non‐healthcare environments. Three environmental MSSA and three environmental MRSA are selected for proteomic profiling using isobaric tag for relative and absolute quantitation tandem mass spectrometry (iTRAQ MS/MS). Gene Ontology annotation and Kyoto Encyclopedia of Genes and Genomes pathway annotation are applied to interpret the functions of the proteins detected. 792 proteins are identified in MSSA and MRSA. Comparative analysis of MRSA and MSSA reveals that 8 of out 792 proteins are upregulated and 156 are downregulated. Proteins that have differences in abundance are predominantly involved in catalytic and binding activity. Among 164 differently abundant proteins, 29 are involved in pathogenesis, antimicrobial resistance, stress response, mismatch repair, and cell wall synthesis. Twenty‐two proteins associated with pathogenicity including SPA, SBI, CLFA, and DLT are upregulated in MRSA. Moreover, the upregulated pathogenic protein ENTC2 in MSSA is determined to be a super antigen, potentially capable of triggering toxic shock syndrome in the host. Enhanced pathogenicity, antimicrobial resistance, and stress response are observed in MRSA compared to MSSA.     

Changing the phospholipid composition of Staphylococcus aureus causes distinct changes in membrane proteome and membrane‐sensory regulators

The dynamic lipid composition of bacterial cytoplasmic membranes has a profound impact on vital bacterial fitness and susceptibility to membrane‐damaging agents, temperature, or osmotic stress. However, it has remained largely unknown how changes in lipid patterns affect the abundance and expression of membrane proteins. Using recently developed gel‐free proteomics technology, we explored the membrane proteome of the important human pathogen Staphylococcus aureus in the presence or absence of the cationic phospholipid lysyl‐phosphatidylglycerol (Lys‐PG). We were able to detect almost half of all theoretical integral membrane proteins and could reliably quantify more than 35% of them. It is worth noting that the deletion of the Lys‐PG synthase MprF did not lead to a massive alteration but a very distinct up‐ or down‐regulation of only 1.5 or 3.5% of the quantified proteins. Lys‐PG deficiency had no major impact on the abundance of lipid‐biosynthetic enzymes but significantly affected the amounts of the cell envelope stress‐sensing regulatory proteins such as SaeS and MsrR, and of the SaeS‐regulated proteins Sbi, Efb, and SaeP. These data indicate very critical interactions of membrane‐sensory proteins with phospholipids and they demonstrate the power of membrane proteomics for the characterization of bacterial physiology and pathogenicity.     

Genomic and proteomic characterization of Staphylococcus aureus mastitis isolates of bovine origin

Staphylococcus aureus colonizes and infects humans as well as animals. In the present study, 17 S. aureus strains isolated from cows suffering from mastitis were characterized. The well-established multilocus sequence typing (MLST) technique and a diagnostic microarray covering 185 S. aureus virulence and resistance genes were used for genetic and epidemiological analyses. Virulence gene expression studies were performed by analyzing the extracellular protein pattern of each isolate on 2-D gels. By this way, a pronounced heterogeneity of the extracellular proteome between the bovine isolates has been observed which was attributed to genome plasticity and variation of gene expression. Merely 12 proteins were expressed in at least 80% of the isolates, i.e. Atl, Aur, GlpQ, Hla, LtaS, Nuc, PdhB, SAB0846, SAB2176, SAB0566, SspA, and SspB forming the core exoproteome. Fifteen extracellular proteins were highly variably expressed and only present in less than 20% of the isolates. This includes the serine proteases SplB, C, and F, and the superantigens SEC-bov, SEL and TSST-1. Compared to human isolates we identified at least six proteins with significantly different expression frequencies. While SAB0846 was expressed more frequently in bovine isolates, LytM, EbpS, Spa, Geh, and LukL1 were seen less frequently in these isolates.     

Improved accuracy of cell surface shaving proteomics in Staphylococcus aureus using a false‐positive control

Proteolytic treatment of intact bacterial cells is an ideal means for identifying surface‐exposed peptide epitopes and has potential for the discovery of novel vaccine targets. Cell stability during such treatment, however, may become compromised and result in the release of intracellular proteins that complicate the final analysis. Staphylococcus aureus is a major human pathogen, causing community and hospital‐acquired infections, and is a serious healthcare concern due to the increasing prevalence of multiple antibiotic resistances amongst clinical isolates. We employed a cell surface “shaving” technique with either trypsin or proteinase‐K combined with LC‐MS/MS. Trypsin‐derived data were controlled using a “false‐positive” strategy where cells were incubated without protease, removed by centrifugation and the resulting supernatants digested. Peptides identified in this fraction most likely result from cell lysis and were removed from the trypsin‐shaved data set. We identified 42 predicted S. aureus COL surface proteins from 260 surface‐exposed peptides. Trypsin and proteinase‐K digests were highly complementary with ten proteins identified by both, 16 specific to proteinase‐K treatment, 13 specific to trypsin and three identified in the control. The use of a subtracted false‐positive strategy improved enrichment of surface‐exposed peptides in the trypsin data set to approximately 80% (124/155 peptides). Predominant surface proteins were those associated with methicillin resistance–surface protein SACOL0050 (pls) and penicillin‐binding protein 2′ (mecA), as well as bifunctional autolysin and the extracellular matrix‐binding protein Ebh. The cell shaving strategy is a rapid method for identifying surface‐exposed peptide epitopes that may be useful in the design of novel vaccines against S. aureus.     

2008-2010年舟山某院金黄色葡萄球菌的分布及耐药性变迁

目的 分析舟山医院三年来金黄色葡萄球菌分布及耐药性变迁,并对耐甲氧西林金黄色葡萄球菌(MRSA)与甲氧西林敏感金黄色葡萄球菌(MSSA)的耐药性差异做对比.方法 用ATB Expression半自动微生物分析仪进行菌株鉴定及药敏试验,用K-B法测红霉素、克林霉素、头孢西丁、苯唑西林直径,比较耐甲氧西林金黄色葡萄球菌(MRSA)与甲氧西林敏感金黄色葡萄球菌(MSSA)的耐药性差异.结果 金黄色葡萄球菌对苯唑西林、庆大霉素、红霉素、四环素和克林霉素的耐药率有上升的趋势;MRSA对苯唑西林、庆大霉素、复方新诺明、克林霉素、红霉素、青霉素、喹奴普汀-达福普汀、利福平和四环素的耐药率都明显高于MSSA的耐药率,二者间差异有统计学意义(P＜0.01),D-试验阳性71株,占72.45％.结论 金黄色葡萄球菌的耐药性逐渐升高,特别是对MRSA应引起临床的重视,检测克林霉素诱导型耐药具有重要的临床应用价值.     

Caspase‐1 inflammasome activity in patients with Staphylococcus aureus bacteremia

The inflammasome is a multiprotein complex that mediates caspase‐1 activation with subsequent maturation of the proinflammatory cytokines IL‐1β and IL‐18. The NLRP3 inflammasome is known to be activated by Staphylococcus aureus, one of the leading causes of bacteremia worldwide. Inflammasome activation and regulation in response to bacterial infection have been found to be of importance for a balanced host immune response. However, inflammasome signaling in vivo in humans initiated by S. aureus is currently sparsely studied. This study therefore aimed to investigate NLRP3 inflammasome activity in 20 patients with S. aureus bacteremia (SAB), by repeated measurement during the first week of bacteremia, compared with controls. Caspase‐1 activity was measured in monocytes and neutrophils by flow cytometry detecting FLICA (fluorescent‐labeled inhibitor of caspase‐1), while IL‐1β and IL‐18 was measured by Luminex and ELISA, respectively. As a measure of inflammasome priming, messenger RNA (mRNA) expression of NLRP3, CASP1 (procaspase‐1), and IL1B (pro‐IL‐1β) was analyzed by quantitative PCR. We found induced caspase‐1 activity in innate immune cells with subsequent release of IL‐18 in patients during the acute phase of bacteremia, indicating activation of the inflammasome. There was substantial interindividual variation in caspase‐1 activity between patients with SAB. We also found an altered inflammasome priming with low mRNA levels of NLRP3 accompanied by elevated mRNA levels of IL1B. This increased knowledge of the individual host immune response in SAB could provide support in the effort to optimize management and treatment of each individual patient.     

The nucleotide sequence of a small cryptic plasmid found in Staphylococcus aureus and its relationship to other plasmids

The nucleotide sequence of a small (1273 bp) plasmid (pOX1000) of Staphylococcus aureus has been determined and compared with similar plasmids. The sequence includes a single open reading frame; two large palindromes and a 22 bp palindrome that is contiguously repeated three times upstream of the open reading frame. Composite plasmids of pE194ts and pOX1000 were constructed with pUC18 separately inserted into five different sites on pOX1000 and used to analyse the replication functions of the cryptic plasmid.     

金黄色葡萄球菌荚膜多糖研究进展

金黄色葡萄球菌作为引起人和动物发病的一种主要的致病菌,已严重影响到人们的身体健康和畜牧业的发展。致病性金黄色葡萄球菌多数含有荚膜成分,并且这种荚膜成分与金黄色葡萄球菌的毒力和抗噬菌作用有关。主要从金黄色葡萄球菌荚膜多糖的5型和8型血清学分类、分子结构、影响因素、表达调控等方面简要介绍了目前国内外关于金黄色葡萄球菌荚膜多糖的研究进展。     

Alteration of Bacteriolytic Enzyme Profile of Staphylococcus aureus during Growth

Profiles of cell-associated bacteriolytic activities and those in the culture supernatant of Staphylococcus aureus FDA209P at various stages of growth were analyzed using sodium dodecyl sulfate-polyacrylamide gels containing Micrococcus luteus or S. aureus. In the logarithmic growth phase, the cell-associated bacteriolytic activities extracted with Triton X-100 contained a number of bacteriolytic proteins, the profiles of which were similar to those we reported elsewhere (Sugai, M., Akiyama, T., Komatsuzawa, H., Miyake, Y., and Suginaka, H.(1990) J. Bacteriol., 172, 6494-6498). The proteins include P1, P2, P7, P9, PX, P13, P18 and other minor components. At the stationary growth phase, the bacteriolytic band-profile of the Triton X-100 extract changed dramatically. P1, P7 and P9 disappeared, and the other minor bands had markedly decreased band intensities. On the other hand, P2, PX, P13, and P18 retained their band intensities during the stationary growth phase. The band intensities of P7, P13, PX, and P18 increased in the supernatant during the logarithmic growth phase. These results indicated that the bacteriolytic band-profile changes during growth.     

Das alpha‐Toxin von Staphylococcus aureus

Colonisation of the body surface of healthy subjects by Staphylococcus aureus is mostly harmless because the immune system limits bacterial growth. Under as yet unknown circumstances, however, previously commensal bacteria may become pathogenic by rapid proliferation and density‐dependent generation of virulence factors that negatively affect the surrounding eukaryotic host cells. One of the most problematic virulence factors of Staphylococcus aureus is alpha‐toxin (hemolysin A, Hla). This toxin forms transmembrane pores in the plasma membranes of eukaryotic host cells. The inner diameter of the pore allows ions and small organic molecules to pass from the extracellular space to the cytosol or vice versa. The resulting dissipation of ion gradients as well as loss of energy‐rich molecules like ATP from the cells heavily disturbs host cell functions and signal transduction processes. In epithelial cells, these changes severely affect the polarized phenotype of the epithelial cells by restructuring of the actin cytoskeleton, inducing changes in cell shape and loosening cell‐cell adhesion which ultimately compromises the barrier function of the cell sheet. These effects of alpha‐toxin may provide an explanation why it is particularly Staphylococcus aureus that is involved in the onset of many cases of lung infections (pneumonia).     

Iron depletion and virulence in Staphylococcus aureus

Abstract Staphylococcus aureus is able to grow in the presence of extremely low iron concentrations (0.04 μM). In iron-limiting conditions, this species develops alternative metabolic strategies such as highly efficient iron-uptake mechanisms which are only partially shared with S. epidermidis . Here we summarize the mechanisms induced by iron starvation in S. aureus in order to elucidate the virulence characteristics of this bacterium.     

Epidemiology of Staphylococcus aureus during space flight

Abstract Staphylococcus aureus was isolated over 2 years from Space Shuttle mission crewmembers to determine dissemination and retention of bacteria. Samples before and after each mission were from nasal, throat, urine, and feces and from air and surface sampling of the Space Shuttle. DNA fingerprinting of samples by digestion of DNA with Sma I restriction endonuclease followed by pulsed-field gel electrophoresis showed S. aureus from each crewmember had a unique fingerprint and usually only one strain was carried by an individual. There was only one instance of transfer between crewmembers. Strains from interior surfaces after flight matched those of crewmembers, suggesting microbial fingerprinting may have forensic application.     

Successful selection of an infection‐protective anti‐Staphylococcus aureus monoclonal antibody and its protective activity in murine infection models

Recent clinical trials to develop anti‐methicillin‐resistant Staphylococcus aureus (MRSA) therapeutic antibodies have met unsuccessful sequels. To develop more effective antibodies against MRSA infection, a panel of mAbs against S. aureus cell wall was generated and then screened for the most protective mAb in mouse infection models. Twenty‐two anti‐S. aureus IgG mAbs were obtained from mice that had been immunized with alkali‐processed, deacetylated cell walls of S. aureus. One of these mAbs, ZBIA5H, exhibited life‐saving effects in mouse models of sepsis caused by community‐acquired MRSA strain MW2 and vancomycin‐resistant S. aureus strain VRS1. It also had a curative effect in a MW2‐caused pneumonia model. Curiously, the target of ZBIA5H was considered to be a conformational epitope of either the 1,4‐β‐linkage between N‐acetylmuramic acid and N‐acetyl‐D‐glucosamine or the peptidoglycan per se. Reactivity of ZBIA5H to S. aureus whole cells or purified peptidoglycan was weaker than that of most of the other mAbs generated in this study. However, the latter mAbs did not have the protective activities against S. aureus that ZBIA5H did. These data indicate that the epitopes that trigger production of high‐yield and/or high‐affinity antibodies may not be the most suitable epitopes for developing anti‐infective antibodies. ZBIA5H or its humanized form may find a future clinical application, and its target epitope may be used for the production of vaccines against S. aureus infection.