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ABSTRACT: In previous studies we demonstrated that the staphylococcal α-toxin inhibits adhesion and invasion of S. aureus by epithelial cells through binding to α5β1 integrin, a receptor of fibronectin. Moreover, we revealed that a H35A mutation abolishes the cytotoxicity of α-toxin completely. These findings led us to hypothesize that the H35A mutated α-toxin may be explored as a potential inhibitor for bacterial adhesion and invasion of epithelial cells. In this study, we examined the impact of the H35A α-toxin on staphylococcal capacity of adhering to and invading into epithelial cells and found that the addition of H35A α-toxin in the culture medium dramatically inhibited S. aureus' ability to adhere to and internalize into epithelial cells. Importantly, we demonstrated that both the staphylococcal α-toxin and H35A mutated α-toxin are capable of retarding the adhesion and invasion of epithelial cells by Streptococcus pyogenes. These findings suggest that the H35A toxoid has the potential to be utilized as an inhibitor of S. aureus and S. pyogenes ability to adhere to and invade epithelial cells.
Virulence 01/2013; 4(1):77-81. · 2.26 Impact Factor
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ABSTRACT: In this study, we characterized the essentiality of enolase for growth of Staphylococcus aureus in vitro by using a TetR-regulated antisense RNA expression technology. The induced enolase antisense RNA dramatically decreased
the production of enolase, which in turn inhibited the growth of S. aureus. In addition, we found that the down-regulation of eno expression can effectively inhibit Triton X-100-induced lysis and alleviate penicillin-caused cell lysis. To further confirm
the specific effect of enolase on autolysis, we constructed an enolase over-expression system and demonstrated that the over-expression
of enolase enhances both Triton X-100 and penicillin-induced cell lysis without increasing cell growth rate. We also performed
hydrolase induced autolysis and zymographic assays and found that enolase had no impact on either bacterial sensitivity to
hydrolase or hydrolase activity. Moreover, we found that the down-regulating expression of enolase selectively increased bacterial
sensitivity to phosphomycin. Taken together, the above results suggest that the enolase is essential for S. aureus and involved in the process of bacterial autolysis.
Keywords
S. aureus
–Enolase (eno)–Autolysis–Antisense
World Journal of Microbiology and Biotechnology 04/2012; 27(4):897-905. · 1.53 Impact Factor
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ABSTRACT: Our previous studies revealed that the staphylococcal protein Gcp is essential for bacterial growth; however, the essential function of Gcp remains undefined. In this study, we demonstrated that Gcp plays an important role in the modulation of the branched-chain amino acids biosynthesis pathway. Specifically, we identified that the depletion of Gcp dramatically elevated the production of key enzymes that are encoded in the ilv-leu operon and responsible for the biosynthesis of the branched-chain amino acids isoleucine, leucine, and valine (ILV) using proteomic approaches. Using qPCR and promoter-lux reporter fusions, we established that Gcp negatively modulates the transcription of the ilv-leu operon. Gel-shift assays revealed that Gcp lacks the capacity to bind the promoter region of ilv. Moreover, we found that the depletion of Gcp did not influence the transcription level of CodY, a known repressor of the ilv-leu operon, while induced the transcription of CcpA, a known positive regulator of the ilv-leu operon. In addition, the depletion of Gcp decreased the biosynthesis of N(6)-threonylcarbamoyladenosine (t6A). To elucidate whether the essentiality of Gcp is attributable to its negative modulation of ILV biosynthesis, we determined the impact of the ilv-leu operon on the requirement of Gcp for growth, and revealed that the deletion of the ilv-leu operon did not affect the essentiality of Gcp. Taken together, our results indicate that the essentiality of Gcp isn't attributable to its negative regulation of ILV biosynthesis in S. aureus. These findings provide new insights into the biological function of the staphylococcal Gcp.
PLoS ONE 01/2012; 7(10):e46836. · 4.09 Impact Factor
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ABSTRACT: Our previous studies suggested that the essential two-component signal transduction system, YhcSR, regulates the opuCABCD operon at the transcriptional level, and the Pspac-driven opuCABCD partially complements the lethal effects of yhcS antisense RNA expression in Staphylococcus aureus. However, the reason why yhcSR regulon is required for growth is still unclear. In this report, we present that the lac and opuC operons are directly transcriptionally regulated by YhcSR. Using real-time RT-PCR we showed that the down-regulation of yhcSR expression affected the transcription of lacA encoding galactose-6-phosphotase isomerase subunit LacA, and opuCA encoding a subunit of a glycine betaine/carnitine/choline ABC transporter. Promoter-lux reporter fusion studies further confirmed the transcriptional regulation of lac by YhcSR. Gel shift assays revealed that YhcR binds to the promoter regions of the lac and opuC operons. Moreover, the Pspac-driven lacABC expression in trans was able to partially complement the lethal effect of induced yhcS antisense RNA. Likewise, the Pspac-driven opuCABCD expression in trans complemented the growth defect of S. aureus in a high osmotic strength medium during the depletion of YhcSR. Taken together, the above data indicate that the yhcSR system directly regulates the expression of lac and opuC operons, which, in turn, may be partially associated with the essentiality of yhcSR in S. aureus. These results provide a new insight into the biological functions of the yhcSR, a global regulator.
PLoS ONE 01/2012; 7(11):e50608. · 4.09 Impact Factor
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ABSTRACT: Our previous studies revealed that a novel two-component signal transduction system, YhcSR, is essential for the survival of Staphylococcus aureus; however, the biological function of YhcSR remains unknown. In this study, we demonstrated that YhcSR plays an important role in the modulation of the nitrate respiratory pathway under anaerobic conditions. Specifically, we determined that nitrate induces yhcS transcription in the early log phase of growth under anaerobic conditions and that the downregulation of yhcSR expression eliminates the stimulatory effect of nitrate on bacterial growth. Using semiquantitative real-time reverse transcription-PCR (qPCR) and promoter-lux reporter fusions, we established that YhcSR positively modulates the transcription of the narG operon, which is involved in the nitrate respiratory pathway. Our gel shift assays revealed that YhcR binds to the promoter regions of narG and nreABC. Collectively, the above data indicate that the yhcSR system directly regulates the expression of both narG and nreABC operons, which in turn positively modulate the nitrate respiratory pathway of S. aureus under anaerobic conditions. These results provide a new insight into the biological functions of the essential two-component YhcSR system.
Journal of bacteriology 02/2011; 193(8):1799-805. · 3.94 Impact Factor
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ABSTRACT: The virulence factor α-toxin (hla) is needed by Staphylococcus aureus in order to cause infections in both animals and humans. Although the complicated regulation of hla expression has been well studied in human S. aureus isolates, the mechanisms of of hla regulation in bovine S. aureus isolates remain undefined. In this study, we found that many bovine S. aureus isolates, including the RF122 strain, generate dramatic amounts of α-toxin in vitro compared with human clinical S. aureus isolates, including MRSA WCUH29 and MRSA USA300. To elucidate potential regulatory mechanisms, we analyzed the hla promoter regions and identified predominant single nucleotide polymorphisms (SNPs) at positions -376, -483, and -484 from the start codon in α-toxin hyper-producing isolates. Using site-directed mutagenesis and hla promoter-gfp-luxABCDE dual reporter approaches, we demonstrated that the SNPs contribute to the differential control of hla expression among bovine and human S. aureus isolates. Using a DNA affinity assay, gel-shift assays and a null mutant, we identified and revealed that an hla positive regulator, SarZ, contributes to the involvement of the SNPs in mediating hla expression. In addition, we found that the bovine S. aureus isolate RF122 exhibits higher transcription levels of hla positive regulators, including agrA, saeR, arlR and sarZ, but a lower expression level of hla repressor rot compared to the human S. aureus isolate WCUH29. Our results indicate α-toxin hyperproduction in bovine S. aureus is a multifactorial process, influenced at both the genomic and transcriptional levels. Moreover, the identification of predominant SNPs in the hla promoter region may provide a novel method for genotyping the S. aureus isolates.
PLoS ONE 01/2011; 6(4):e18428. · 4.09 Impact Factor
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ABSTRACT: Previous studies have demonstrated that the novel protein Gcp is essential for the viability of various bacterial species including Staphylococcus aureus; however, the reason why it is required for bacterial growth remains unclear. In order to explore the potential mechanisms of this essentiality, we performed RT-PCR analysis and revealed that the gcp gene (sa1854) was co-transcribed with sa1855, yeaZ (sa1856) and sa1857 genes, indicating these genes are located in the same operon. Furthermore, we demonstrated that Gcp interacts with YeaZ using a yeast two-hybrid (Y2H) system and in vitro pull down assays. To characterize the Gcp-YeaZ interaction, we performed alanine scanning mutagenesis on the residues of C-terminal segment of Gcp. We found that the mutations of the C-terminal Y317-F322 region abolished the interaction of Gcp and YeaZ, and the mutations of the D324-N329 and S332-Y336 regions alleviated Gcp binding to YeaZ. More importantly, we demonstrated that these key regions of Gcp are also necessary for the bacterial survival since these mutated Gcp could not complement the depletion of endogenous Gcp. Taken together, our data suggest that the interaction of Gcp and YeaZ may contribute to the essentiality of Gcp for S. aureus survival. Our findings provide new insights into the potential mechanisms and biological functions of this novel essential protein.
PLoS ONE 01/2011; 6(5):e20163. · 4.09 Impact Factor
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ABSTRACT: Anthrax lethal toxin (LeTx) is an important virulence factor of Bacillus anthracis and causes illness and lethality for both animals and humans. Because species demonstrate varied sensitivity to anthrax intoxication, we investigated signaling pathways involved in anthrax LeTx cytotoxicity using a bovine macrophage cell line (BoMac). We found that bovine macrophages are sensitive to LeTx as displayed by a concentration-dependent increase in cell death. LeTx induced the degradation of I-κB and increased the nuclear translocation of NF-κB in BoMac cells. Blocking NF-κB activation with either chemical inhibitors or a dominant negative super-repressor I-κBαm eliminated LeTx-induced cell death. LeTx-induced production of TNF-α that contributed dramatically to cellular cytotoxicity. Inhibiting NF-κB activation eliminated TNF-α release and decreased cytotoxicity. The caspase pathway was also important for cytotoxicity as specific inhibitors abrogated LeTx-induced cell death. Taken together, our results show that activation of the NF-κB pathway and TNF-α production contribute to the cytotoxicity of anthrax LeTx in bovine macrophages.
Veterinary Microbiology 11/2010; 146(1-2):111-7. · 3.33 Impact Factor
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ABSTRACT: We describe the construction of a series of shuttle vectors for Staphylococcus aureus. In order to determine transcriptional regulation by essential regulators, we constructed promoterless luxABCDE reporter system using a TetR-regulated antisense RNA expression vector, pJYJ909, which is composed of S. aureus plasmid pE194, the Gram(-) plasmid pUC18, a TetR regulatory cassette, and Pxyl/teto-driven yhcS antisense expression construct. The reformed shuttle vector was utilized to construct an opuCA promoter-luxABCDE fusion and simultaneously examine transcriptional regulation by measuring bioluminescence intensity during down-regulating yhcSR. In addition, we utilized the same plasmid, pJYJ909, and constructed a Pspac-driven constant expression system, which allows us to determine the complementary effect of overexpression of opuCA operon modulated by yhcSR. These plasmids provide important tools for elucidating regulatory mechanisms for genes that are essential for bacterial growth in S. aureus.
Plasmid 03/2009; 61(3):188-92. · 1.52 Impact Factor
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ABSTRACT: Staphylococcal alpha-toxin is an important virulence factor for Staphylococcus aureus to cause severe infections. In this study, we explored whether the toxoid of alpha-toxin may be utilized to block the toxicity of wild-type alpha-toxin. We created a series of H35A mutated alpha-toxin expression strains and revealed that the H35A mutation eliminates the activity of alpha-toxin using a human lung epithelial cell line (A549). More importantly, we found that either the pretreatment or simultaneous treatment of the epithelial cells with alpha-toxin-H35A completely disrupted the cytotoxicity of alpha-toxin. Specifically, we demonstrated that alpha-toxin-H35A can effectively interfere with the pore formation and the internalization of alpha-toxin using cytotoxicity and immunofluorescence assays. In addition, we found that the removal of either the 30-amino-acid (aa) or 99-aa C-terminal region of alpha-toxin-H35A reactivated its cytotoxicity, indicating that interactions between the alanine residue at position 35 and these C-terminal regions may be associated with interrupting the toxic activity of alpha-toxin-H35A. Taken together, these results suggest that the alpha-toxin-H35A protein may be developed as a potential alternative therapeutic agent for treating early stages of S. aureus infections.
Infection and immunity 01/2009; 77(3):977-83. · 4.21 Impact Factor
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ABSTRACT: Antisense RNA technology has been used effectively to downregulate gene expression in a variety of bacterial systems. Regulated antisense RNA strategy provides an important approach to identify and characterize essential genes critical to bacterial growth in vitro and in vivo. This strategy allows selective genes to be turned on or off and to be expressed at certain levels. The availability of the Staphylococcus aureus (S. aureus) genome sequence makes it feasible to generate a gene-specific antisense RNA library. The combination of regulated antisense RNA technology and the gene-specific antisense RNA library allows for genome-wide analyses of functions of staphylococcal gene products for growth in culture and survival during infection.
Methods in molecular biology (Clifton, N.J.) 02/2008; 416:297-305.
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ABSTRACT: Staphylococcus aureus causes suppurative infections which are often associated with tissue destruction and cell death. In the present study, we investigated the molecular and cellular basis of S. aureus-induced apoptosis and death in a human lung epithelial cell line (A549). We found that staphylococcal alpha-toxin is an important mediator of cytotoxicity in these epithelial cells. Specifically, we found that downregulating alpha-toxin production eliminated the cytotoxicity of S. aureus, whereas the addition of alpha-toxin to the cell culture medium significantly increased cell death in a dose-dependent manner. Importantly, we found that alpha-toxin-mediated cell death may partially function through alpha5beta1-integrin, because both the beta1-integrin antibody and the ligand fibronectin inhibited the cytotoxicity of alpha-toxin. Furthermore, we found that the overexpression of the inflammatory cytokine interferon (TNF)-alpha is associated with alpha-toxin-induced cell death, because both the TNF-alpha release inhibitor and antibody effectively inhibited the cytotoxicity of alpha-toxin. In contrast, the cytotoxicity of alpha-toxin was enhanced by the inhibition of the MAPK p38 and NF-kappaB pathways. Taken together, our results suggest that the activation of the MAPK p38 and NF-kappaB pathways are stress responses for survival, rather than direct contributes to alpha-toxin-induced cell death, and that the interaction of alpha-toxin with alpha5beta1-integrin and overproduction of TNF-alpha may contribute to destruction of epithelial cells during S. aureus infection.
Cellular Microbiology 08/2007; 9(7):1809-21. · 5.46 Impact Factor
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ABSTRACT: Our previous studies demonstrated that a putative Staphylococcus aureus glycoprotease (Gcp) is essential for bacterial survival, indicating that Gcp may be a novel target for developing antibacterial agents. However, the biological function of Gcp is unclear. In order to elucidate the reason that Gcp is required for growth, we examined the role of Gcp in bacterial autolysis, which is an important biological process for bacterial growth. Using both a spacp-regulated gcp expression strain and a TetR-regulated gcp antisense expression strain, we found that the down-regulation of gcp expression can effectively inhibit Triton X-100-induced lysis, eliminate penicillin- and vancomycin-caused cell lysis, and dramatically increase tolerance to hydrolases. Moreover, we determined whether resistance to lysis is due to a defect in murein hydrolase activity by using a zymogram analysis. The results showed that the cell lysate of a down-regulated gcp expression mutant displayed several bands of decreased murein hydrolytic activity. Furthermore, we explored the potential mechanism of Gcp's involvement in autolysis and demonstrated that Gcp may function independently from several key autolysins (Atl, LytM, and LytN) and regulators (ArlRS, Mgr/Rat, and CidA). Taken together, the above results indicate that the essential Gcp is involved in the modification of substrates of murein hydrolases as well as in the regulation of expression and/or activity of some murein hydrolases, which, in turn, may play important roles in bacterial viability.
Journal of Bacteriology 05/2007; 189(7):2734-42. · 3.83 Impact Factor
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ABSTRACT: Staphylococcus aureus causes suppurative infections which are often associated with tissue destruction and cell death. In the present study, we investigated the molecular and cellular basis of S. aureus-induced apoptosis and death in a human lung epithelial cell line (A549). We found that staphylococcal α-toxin is an important mediator of cytotoxicity in these epithelial cells. Specifically, we found that downregulating α-toxin production eliminated the cytotoxicity of S. aureus, whereas the addition of α-toxin to the cell culture medium significantly increased cell death in a dose-dependent manner. Importantly, we found that α-toxin-mediated cell death may partially function through α5β1-integrin, because both the β1-integrin antibody and the ligand fibronectin inhibited the cytotoxicity of α-toxin. Furthermore, we found that the overexpression of the inflammatory cytokine interferon (TNF)-α is associated with α-toxin-induced cell death, because both the TNF-α release inhibitor and antibody effectively inhibited the cytotoxicity of α-toxin. In contrast, the cytotoxicity of α-toxin was enhanced by the inhibition of the MAPK p38 and NF-κB pathways. Taken together, our results suggest that the activation of the MAPK p38 and NF-κB pathways are stress responses for survival, rather than direct contributes to α-toxin-induced cell death, and that the interaction of α-toxin with α5β1-integrin and overproduction of TNF-α may contribute to destruction of epithelial cells during S. aureus infection.
Cellular Microbiology 02/2007; 9(7):1809 - 1821. · 5.46 Impact Factor
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Yinduo Ji
Methods in molecular biology (Clifton, N.J.) 02/2007; 391:v.
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ABSTRACT: Multiple drug resistance to antibiotics is a major public health problem. Many mechanisms may be involved in such resistance. Increasing data have shown that Staphylococcus aureus can invade different types of nonphagocytic cells, which, in turn, may contribute to evasion of the toxicity of certain antibiotics. The fibronectin-binding proteins are required for S. aureus to adhere to and internalize into the host cells. We have shown that a two-component signal transduction system, SaeRS, is essential for bacterial adhesion and invasion of the epithelial cells.
Methods in molecular biology (Clifton, N.J.) 02/2007; 391:145-51.
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ABSTRACT: The microarray has shown tremendous potential for investigating gene expression profiles and expression levels in comparative biology; exploring the regulation mechanisms of gene expression; and evaluating target gene for developing new chemotherapeutic agents, vaccine, and diagnostic methods. In this chapter, we provide a detailed protocol for scientists who wish to investigate gene expression profiles by performing a microarray analysis, including different methods of RNA purification, decontamination, cDNA synthesis, fragmentation, and biotin labeling for hybridization using Affymetrix Staphylococcus aureus chips.
Methods in molecular biology (Clifton, N.J.) 02/2007; 391:169-78.
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ABSTRACT: The two-component signal transduction system plays an important role for bacteria to adapt to diverse niches by sensing the environmental stimuli and modulating gene expression. In Staphylococcus aureus, at least 16 pairs of two-component systems have been discovered and some of them coordinate with different regulators to modulate the expression of virulence factors. The availability of complete genome sequences, and transcriptome and proteome, enables us to identify the genes mediated by different regulators. The RT-PCR-based method and microarray technology have made it feasible for high throughput screening of genomewide transcription profiles. These techniques have been used to investigate different TCS in S. aureus and to identify the regulons of regulators in different bacterial systems. Therefore, combined with the inactivation of gene expression, microarray technology should be more useful to identify genes transcriptionally controlled by the TCS system. We propose that similar approaches can be used to understand the regulon of ArlRS two-component signaling by the comparison of gene expression profiles between wild type and arlR mutant. This chapter provides detailed protocols for identification of arlRS regulon using Affymetrix S. aureus chips and describes general considerations of microarray assay.
Methods in Enzymology 02/2007; 423:502-13. · 2.04 Impact Factor
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ABSTRACT: Our laboratory has previously identified the staphylococcal respiratory response (SrrAB), a Staphylococcus aureus two-component system that acts in the global regulation of virulence factors. In strain RN4220, SrrAB downregulated production of agr RNAIII, protein A, and TSST-1, particularly under low-oxygen conditions. Work by another group showed that SrrAB regulates energy metabolism genes and indicated that SrrAB may regulate energy transduction in response to changes in oxygen availability. In this study we investigate the role of SrrAB in regulating RNAIII, tst, spa, icaR, and icaA in a clinical isolate of S. aureus, MN8. We employ an inducible antisense vector, pYJY4, in order to repress transcription of srrAB. Transcript levels were assessed by reverse transcription followed by quantitative PCR. Repression of srrAB in rich media under aerobic growth conditions shows that SrrAB is required for expression of tst, spa, and icaR transcripts at wild-type levels. Comparisons made between rich media under aerobic conditions vs low-oxygen conditions show that srrAB transcript levels are not altered by oxygen alone. Previous studies performed on strain RN4220 under low-oxygen conditions indicate that SrrAB represses tst and spa transcript when the amount of oxygen is limited. We propose that, under aerobic conditions, SrrAB enhances the levels of tst, spa, and icaR, while under low-oxygen conditions, SrrAB decreases the levels of these three transcripts.
Biochemistry 02/2007; 46(1):314-21. · 3.42 Impact Factor
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ABSTRACT: Staphylococcus aureus is an important human and animal pathogen. During infection, this bacterium is able to attach to and enter host cells by using its cell surface-associated factors to bind to the host's extracellular matrix (ECM) proteins. In this study, we determined that a protein exported by S. aureus, alpha-toxin, can interfere with the integrin-mediated adhesion and internalization of S. aureus by human lung epithelial cells (A549). The downregulation of alpha-toxin production significantly increased bacterial adhesion and invasion into the epithelial cells. In contrast, bacterial adhesion and invasion was inhibited by both overproduction of alpha-toxin and the addition of alpha-toxin to the culture medium. Moreover, our results showed that the quantitative effects on invasion closely parallel those of adherence. This suggests that the effect on invasion is probably secondary to, and a consequence of, the reduced adherence caused by alpha-toxin exposure. Specifically, we demonstrated that alpha-toxin interacts with the hosts' ECM protein's receptor, beta1-integrin, which indicates that beta1-integrin may be a potential receptor of alpha-toxin on epithelial cells. Taken together, our results indicate that exported alpha-toxin inhibits the adhesion and internalization of S. aureus by interfering with integrin-mediated pathogen-host cell interactions.
Cellular Microbiology 11/2006; 8(10):1656-68. · 5.46 Impact Factor
