TY - JOUR A1 - Tuchscherr, Lorena A1 - Bischoff, Markus A1 - Lattar, Santiago M. A1 - Noto Llana, Mariangeles A1 - Pförtner, Henrike A1 - Niemann, Silke A1 - Geraci, Jennifer A1 - Van de Vyver, Hélène A1 - Fraunholz, Martin J. A1 - Cheung, Ambrose L. A1 - Herrmann, Mathias A1 - Völker, Uwe A1 - Sordelli, Daniel O. A1 - Peters, Georg A1 - Loeffler, Bettina T1 - Sigma factor SigB is crucial to mediate Staphylococcus aureus adaptation during chronic infections JF - PLoS Pathogens N2 - Staphylococcus aureus is a major human pathogen that causes a range of infections from acute invasive to chronic and difficult-to-treat. Infection strategies associated with persisting S. aureus infections are bacterial host cell invasion and the bacterial ability to dynamically change phenotypes from the aggressive wild-type to small colony variants (SCVs), which are adapted for intracellular long-term persistence. The underlying mechanisms of the bacterial switching and adaptation mechanisms appear to be very dynamic, but are largely unknown. Here, we analyzed the role and the crosstalk of the global S. aureus regulators agr, sarA and SigB by generating single, double and triple mutants, and testing them with proteome analysis and in different in vitro and in vivo infection models. We were able to demonstrate that SigB is the crucial factor for adaptation in chronic infections. During acute infection, the bacteria require the simultaneous action of the agr and sarA loci to defend against invading immune cells by causing inflammation and cytotoxicity and to escape from phagosomes in their host cells that enable them to settle an infection at high bacterial density. To persist intracellularly the bacteria subsequently need to silence agr and sarA. Indeed agr and sarA deletion mutants expressed a much lower number of virulence factors and could persist at high numbers intracellularly. SigB plays a crucial function to promote bacterial intracellular persistence. In fact, \(\Delta\)sigB-mutants did not generate SCVs and were completely cleared by the host cells within a few days. In this study we identified SigB as an essential factor that enables the bacteria to switch from the highly aggressive phenotype that settles an acute infection to a silent SCV-phenotype that allows for long-term intracellular persistence. Consequently, the SigB-operon represents a possible target to develop preventive and therapeutic strategies against chronic and therapy-refractory infections. KW - gene regulator agr KW - endothelial cells KW - modulates virulence KW - death pathway sar locus KW - factor B KW - small-colony variants KW - alpha-toxin KW - epithelial cells KW - in vitro Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143419 VL - 11 IS - 4 ER - TY - JOUR A1 - Afonso-Grunz, Fabian A1 - Hoffmeier, Klaus A1 - Müller, Sören A1 - Westermann, Alexander J. A1 - Rotter, Björn A1 - Vogel, Jörg A1 - Winter, Peter A1 - Kahl, Günter T1 - Dual 3'Seq using deepSuperSAGE uncovers transcriptomes of interacting Salmonella enterica Typhimurium and human host cells JF - BMC Genomics N2 - Background: The interaction of eukaryotic host and prokaryotic pathogen cells is linked to specific changes in the cellular proteome, and consequently to infection-related gene expression patterns of the involved cells. To simultaneously assess the transcriptomes of both organisms during their interaction we developed dual 3'Seq, a tag-based sequencing protocol that allows for exact quantification of differentially expressed transcripts in interacting pro-and eukaryotic cells without prior fixation or physical disruption of the interaction. Results: Human epithelial cells were infected with Salmonella enterica Typhimurium as a model system for invasion of the intestinal epithelium, and the transcriptional response of the infected host cells together with the differential expression of invading and intracellular pathogen cells was determined by dual 3'Seq coupled with the next-generation sequencing-based transcriptome profiling technique deepSuperSAGE (deep Serial Analysis of Gene Expression). Annotation to reference transcriptomes comprising the operon structure of the employed S. enterica Typhimurium strain allowed for in silico separation of the interacting cells including quantification of polycistronic RNAs. Eighty-nine percent of the known loci are found to be transcribed in prokaryotic cells prior or subsequent to infection of the host, while 75% of all protein-coding loci are represented in the polyadenylated transcriptomes of human host cells. Conclusions: Dual 3'Seq was alternatively coupled to MACE (Massive Analysis of cDNA ends) to assess the advantages and drawbacks of a library preparation procedure that allows for sequencing of longer fragments. Additionally, the identified expression patterns of both organisms were validated by qRT-PCR using three independent biological replicates, which confirmed that RELB along with NFKB1 and NFKB2 are involved in the initial immune response of epithelial cells after infection with S. enterica Typhimurium. KW - complete genome sequence KW - secretion systems KW - RNA-Seq KW - deepSuperSAGE KW - transcriptome KW - gene expression KW - serovar Typhimurium KW - human macrophages KW - epithelial cells KW - infection KW - SuperSAGE KW - receptors KW - Dual 3'seq KW - MACE KW - tag based KW - simultaneous KW - genome wide KW - gene expression profiling KW - host pathogen interaction KW - Salmonella enterica Typhimurium strain SL1344 Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143230 VL - 16 IS - 323 ER - TY - JOUR A1 - Nguyen, Minh Thu A1 - Kraft, Beatrice A1 - Yu, Wenqi A1 - Demicrioglu, Dogan Doruk A1 - Hertlein, Tobias A1 - Burian, Marc A1 - Schmaler, Mathias A1 - Boller, Klaus A1 - Bekeredjian-Ding, Isabelle A1 - Ohlsen, Knut A1 - Schittek, Birgit A1 - Götz, Friedrich T1 - The vSa\(\alpha\) Specific Lipoprotein Like Cluster (lpl) of S. aureus USA300 Contributes to Immune Stimulation and Invasion in Human Cells JF - PLoS Pathogens N2 - All Staphylococcus aureus genomes contain a genomic island, which is termed vSa\(\alpha\) and characterized by two clusters of tandem repeat sequences, i.e. the exotoxin (set) and 'lipoprotein-like' genes (lpl). Based on their structural similarities the vSa\(\alpha\) islands have been classified as type I to IV. The genomes of highly pathogenic and particularly epidemic S. aureus strains (USA300, N315, Mu50, NCTC8325, Newman, COL, JH1 or JH9) belonging to the clonal complexes CC5 and CC8 bear a type I vSa\(\alpha\) island. Since the contribution of the lpl gene cluster encoded in the vSa\(\alpha\) island to virulence is unclear to date, we deleted the entire lpl gene cluster in S. aureus USA300. The results showed that the mutant was deficient in the stimulation of pro-inflammatory cytokines in human monocytes, macrophages and keratinocytes. Purified lipoprotein Lpl1 was further shown to elicit a TLR2-dependent response. Furthermore, heterologous expression of the USA300 lpl cluster in other S. aureus strains enhanced their immune stimulatory activity. Most importantly, the lpl cluster contributed to invasion of S. aureus into human keratinocytes and mouse skin and the non-invasive S. carnosus expressing the lpl gene cluster became invasive. Additionally, in a murine kidney abscess model the bacterial burden in the kidneys was higher in wild type than in mutant mice. In this infection model the lpl cluster, thus, contributes to virulence. The present report is one of the first studies addressing the role of the vSa\(\alpha\) encoded lpl gene cluster in staphylococcal virulence. The finding that the lpl gene cluster contributes to internalization into non-professional antigen presenting cells such as keratinocytes high-lights the lpl as a new cell surface component that triggers host cell invasion by S. aureus. Increased invasion in murine skin and an increased bacterial burden in a murine kidney abscess model suggest that the lpl gene cluster serves as an important virulence factor. KW - resistant Staphylococcus-aureus KW - bacterial lipoproteins KW - internalization KW - evolution KW - fibronectin-binding protein KW - toll-like receptor 2 KW - epithelial cells KW - genome sequence KW - activation KW - mechanisms Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-151856 VL - 11 IS - 6 ER -