@phdthesis{KolbMaeurer2001,
  author    = {Kolb-M{\"a}urer, Annette},
  title     = {Interaktion humaner dendritischer Zellen mit Listeria monocytogenes},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-1638},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2001},
  abstract  = {Dendritische Zellen (DZ) aktivieren naive CD4+ und CD8+ T-Lymphozyten und spielen daher die entscheidende Rolle bei der Ausl{\"o}sung einer Immunantwort gegen{\"u}ber pathogenen Mikroorganismen. In dieser Arbeit wurde die Interaktion von DZ mit Listeria monocytogenes untersucht. Es konnte gezeigt werden, dass L. monocytogenes effizient in unreife, humane DZ aufgenommen wird. Die Phagozytoserate von L. monocytogenes unter Zugabe von humanem Plasma war wesentlich h{\"o}her als im Plasma-freien Medium oder Medium mit f{\"o}talem K{\"a}lberserum (FCS). Die Zugabe von Immunglobulinen f{\"u}hrte zu einem konzentrationsabh{\"a}ngigen Anstieg der Phagozytose von L. monocytogenes in humane DZ, der mit der Phagozytoserate bei Zugabe von humanem Plasma vergleichbar war. Plasma von gesunden Spendern enthielt Antik{\"o}rper gegen das listerielle Oberfl{\"a}chenprotein p60. Durch die Verwendung einer p60 Deletionsmutante konnte gezeigt werden, dass der p60 Antik{\"o}rper das Haupt-Opsonin f{\"u}r die Aufnahme von L. monocytogenes in Mo-DZ darstellt. Die Aufnahmerate dieser Mutante zeigte nur geringe Differenzen bei An- oder Abwesenheit von humanem Plasma w{\"a}hrend der Inkubationszeit, was den Schluss zul{\"a}sst, dass Immunglobuline gegen das Oberfl{\"a}chenprotein p60 von L. monocytogenes und anderen apathogenen Listerien, f{\"u}r die effiziente Phagozytose verantwortlich sind. Nach Aufnahme der Listerien befanden sich die meisten (> 95 Prozent) DZ in Membran-umgrenzten Phagosomen und sehr selten frei im Zytosol. Die Mehrzahl der Listerien wurde im Phagosom der humanen DZ effizient lysiert. L. monocytogenes-infizierte DZ entwickelten sich ph{\"a}notypisch zu reifen DZ. Die durch Listerien ausgel{\"o}ste Maturation der DZ ließen sich durch die Zugabe von listerieller Lipoteichons{\"a}ure (LTA) nachahmen. Obwohl bekannt ist, dass eine Listerieninfektion in anderen Zellkulturen Zelltod induziert, f{\"u}hrte die Infektion humaner DZ lediglich in weniger als 20 Prozent der infizierten DZ zur Nekrose. Apoptotischer Zelltod konnte nicht nachgewiesen werden. Die Interaktion humaner DZ mit L. monocytogenes k{\"o}nnte somit eine Verbreitung der Bakterien im Organismus verhindern. Langfristig gesehen ergeben die in dieser Arbeit gewonnenen Daten zur Interaktion DZ mit L. monocytogenes Erkenntnisse zur Entwicklung neuer DNA-Vakzinierungsstrategien mit L. monocytogenes als DNA-Tr{\"a}ger.},
  subject      = {Mensch},
  language  = {de}
}
@phdthesis{Ng2001,
  author    = {Ng, Eva Yee Wah},
  title     = {How did Listeria monocytogenes become pathogenic?},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-1752},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2001},
  abstract  = {Listeriae are Gram positive, facultative, saprophytic bacteria capable of causing opportunistic infections in humans and animals. This thesis presents three separate lines of inquiries that can lead to the eventual convergence of a global view of Listeria as pathogen in the light of evolution, genomics, and function. First, we undertook to resolve the phylogeny of the genus Listeria with the goal of ascertaining insights into the evolution of pathogenic capability of its members. The phylogeny of Listeriae had not yet been clearly resolved due to a scarcity of phylogenetically informative characters within the 16S and 23S rRNA molecules. The genus Listeria contains six species: L. monocytogenes, L. ivanovii, L. innocua, L. seeligeri, L. welshimeri, and L. grayi; of these, L. monocytogenes and L. ivanovii are pathogenic. Pathogenicity is enabled by a 10-15Kb virulence gene cluster found in L. seeligeri, L. monocytogenes and L. ivanovii. The genetic contents of the virulence gene cluster loci, as well as some virulence-associated internalin loci were compared among the six species. Phylogenetic analysis based on a data set of nucleic acid sequences from prs, ldh, vclA, vclB, iap, 16S and 23S rRNA genes identified L. grayi as the ancestral branch of the genus. This is consistent with previous 16S and 23S rRNA findings. The remainder 5 species formed two groupings. One lineage represents L. monocytogenes and L. innocua, while the other contains L. welshimeri, L. ivanovii and L. seeligeri, with L. welshimeri forming the deepest branch within this group. Deletion breakpoints of the virulence gene cluster within L. innocua and L. welshimeri support the proposed tree. This implies that the virulence gene cluster was present in the common ancestor of L. monocytogenes, L. innocua, L. ivanovii, L. seeligeri and L. welshimeri; and that pathogenic capability has been lost in two separate events represented by L. innocua and L. welshimeri. Second, we attempted to reconstitute L. innocua of its deleted virulence gene cluster, in its original chromosomal location, from the L. monocytogenes 12 Kb virulence gene cluster. This turned out particularly difficult because of the limits of genetic tools presently available for the organism. The reconstitution was partially successful. The methods and approaches are presented, and all the components necessary to complete the constructs are at hand for both L. innocua and the parallel, positive control of L. monocytogenes mutant deleted of its virulence gene cluster. Third, the sequencing of the entire genome of L. monocytogenes EGDe was undertaken as part of an EU Consortium. Our lab was responsible for 10 per cent of the labor intensive gap-closure and annotation efforts, which I helped coordinate. General information and comparisons with sister species L. innocua and a close Gram positive relative Bacillus subtilis are presented in context. The areas I personally investigated, namely, sigma factors and stationary phase functions, are also presented. L. monocytogenes and L. innocua both possess surprisingly few sigma factors: SigA, SigB, SigH, SigL, and an extra-cytoplasmic function type sigma factor (SigECF). The stationary phase genes of L. monocytogenes is compared to the well-studied, complex, stationary phase networks of B. subtilis. This showed that while genetic competence functions may be operative in unknown circumstances, non-sporulating Listeria opted for very different approaches of regulation from B. subtilis. There is virtually no overlap of known, stationary phase genes between Listeria and Gram negative model organism E. coli.},
  subject      = {Listeria monocytogenes},
  language  = {en}
}
@phdthesis{Raffelsbauer2001,
  author    = {Raffelsbauer, Diana},
  title     = {Identification and characterization of the inlGHE gene cluster of Listeria monocytogenes},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-1180595},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2001},
  abstract  = {In the present study, a new gene cluster of Listeria monocytogenes EGD containing three internalin genes was identified and characterized. These genes, termed inlG, inlH and inlE, encode proteins of 490, 548 and 499 amino acids, respectively, which belong to the class of large, surface-bound internalins. Each of these proteins contains a signal peptide, two regions of repeats (Leucine-rich repeats and B repeats), an inter-repeat region and a putative cell wall anchor sequence containing the sorting motiv LPXTG. PCR analysis revealed the presence of the inlGHE gene cluster in most L. monocytogenes serotypes. A similar gene cluster termed inlC2DE localised to the same position on the chromosome was described in a different L. monocytogenes EGD isolate. Sequence comparison of the two clusters indicates that inlG is a new internalin gene, while inlH was generated by a site-specific recombination leading to an in-frame deletion which removed the 3'-terminal end of inlC2 and a 5'-portion of inlD. The genes inlG, inlH and inlE seem to be transcribed extracellularly and independent of PrfA. To study the function of the inlGHE gene cluster several in-frame deletion mutants were constructed which lack the genes of the inlGHE cluster individually or in combination with other inl genes. When tested in the mouse model, the inlGHE mutant showed a significant reduction of bacterial counts in liver and spleen in comparison to the wild type strain, indicating that the inlGHE gene cluster plays an important role in virulence of L. monocytogenes. The ability of this mutant to invade non-phagocytic cells in vitro was however two- to three-fold higher than that of the parental strain. To examine whether deletion of the single genes from the cluster has the same stimulatory effect on invasiveness as deletion of the complete gene cluster, the single in-frame deletion mutants inlG, inlH and inlE were constructed. These mutants were subsequently reverted to the wild type by introducing a copy of the corresponding intact gene into the chromosome by homologous recombination using knock-in plasmids. To determine a putative contribution of InlG, InlH and InlE in combination with other internalins to the entry of L. monocytogenes into mammalian cells, the combination mutants inlA/GHE, inlB/GHE, inlC/GHE, inlA/B/GHE, inlB/C/GHE, inlA/C and inlA/C/GHE were constructed. Transcription of the genes inlA, inlB and inlC in these mutants was studied by RT-PCR. Deletion of inlGHE enhances transcription of inlA and inlB, but not of inlC. This enhancement is not transient but can be observed at different time-points of the bacterial growth curve. Deletion of inlA also increases transcription of inlB and vice-versa. In contrast, the amounts of inlA and inlB transcripts in the single deletion mutants inlG, inlH and inlE were similar to those from the wild type.},
  subject      = {Listeria monocytogenes},
  language  = {en}
}