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  • Engelmann, Beatrice (1)
  • GĂłmez Mejia, Alejandro (1)
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  • ArcT peptidase (1)
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  • InterfakultĂ€res Institut fĂŒr Genetik und Funktionelle Genomforschung (9) (remove)

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Mechanisms involved in anti-viral immune response of European bats against Lyssaviruses (2019)
Zhu, Yaqing
Bats (Chiroptera) form the second largest order of mammals and with over 1,250 species, they represent about 20% of all mammalian species worldwide. They are the only mammals with true and sustained flight and distributed all over the world except the arctic regions. Moreover, bats entered specific ecological niches and with their food spectra, they reduce different arthropod populations as well as disperse seeds and pollen of plant species in various regions and habitats. Bats also have a crucial role in spreading high-pathogenic and zoonotic viruses, harbor in general more viruses (zoonotic and non-zoonotic), and, related to the species, number even more than rodents. However, clinical symptoms of viral diseases are rarely reported in bat communities. Also seroconversions after infection were not reported for a variety of viruses found in bats. Since the incidence of virus-positive bats estimated in passive surveillance studies is usually very low, it is a question how such viruses can use bats as reservoir hosts. There is obviously a special evolutionary relationship between the pathogens and bats as hosts, which are based on possibly physiologic adaptations also in resistance and immunity. In this thesis, the two lyssaviruses, European Bat Lyssavirus 1 and 2 (EBLV-1 and -2) were chosen as a model to investigate the immune response of European bats against viral infection in vitro. Lyssaviruses are the causative agents of rabies, a fatal zoonotic disease with neurotropic characteristics. One main question to investigate was in which way bats act as reservoir host and developed a high disease resistance. The present thesis is based on three hypotheses about innate immune response against lyssavirus infection: A) In bats specific peripheral resistance mechanisms evolved which reduce the risk of systemic viral infection after a hypothesized airborne transmission and infection via nasal epithelium supported by the social structure of and communication within bat communities. B) The co-evolution of EBLV and the innate resistance of bats resulted in a very effective type I interferon response to inhibit a systemic lyssavirus infection. C) The specific physiology of body temperature of bats with daily torpor depresses the viral replication but favours the type I interferon response. To analyze the interferon-based resistance mechanisms, the type I interferon (IFN) genes of two European bats species (Eptesicus serotinus and Myotis myotis) were cloned and sequenced. Using established cell lines from the respiratory nasal epithelium (MmNep), olfactory nasal epithelium (MmNol), and Bulbus olfactorius brain (MmBr), the type I IFN response along a possible airborne infection route was investigated. The anti-viral effects and induction of IFNs/interferon stimulated genes (ISGs) in each cell line were also investigated in detail after infection in vitro. Finally, the influence of different temperatures on lyssavirus replication was analyzed in cell culture experiments. The results indicated that (a) along the hypothesized airborne infection route the susceptibility for lyssavirus infections is decreased, (b) the type I IFN activity in contrast is increased contributing to a limitation of lyssavirus replication and (c) an obvious influences of varying cultivation temperatures on the resistance against lyssavirus infections, which favor the IFN response and repressing lyssavirus replication. The result from these in vitro studies supports the hypothesis of a special co-evolution between lyssaviruses and bats. However, in vivo studies on the relevance in infected animals are missing so far. This model could also explain the generally limited pathogenicity of bat-associated viruses.
Immunogenicity and protectivity of surface-localized lipoproteins of Streptococcus pneumoniae (2019)
Voß, Franziska
Steptococcus pneumoniae (pneumococcus) represents a common colonizer of the human upper respiratory tract (URT). However, under certain conditions, for example following viral infections, or in indiciduals with a weakened immune system, including young children, elderly and immunocompromised persons, it can cause a wide range of life-threatening diseases, such as pneumonia, meningitis or sepsis. Based on the polysaccharide capsule that surrounds the bacterium, pneumococci are classified into so far 98 different serotypes. Prevention of S. pneumoniae infections was achieved by the development of pneumococcal polysaccharide-based (PPSV) vaccines. However, these vaccines have important limitations, including high manufacturing costs and restricted serotype coverage facilitating replacement by non-vaccine serotypes. Aiming for the development of a serotype-independent vaccine, the potential of surface-exposed and highly conserved pneumococcal lipoproteins was evaluated for being targeted as a future protein-based vaccine. Therefore, selected lipoproteins were examined i) for their surface abundance and accessibility, ii) for their presence in clinically relevant S. pneumoniae strains, and iii) for their immunogenicity. Finally, based on these initial screenings, the most promising candidates were selected to analyze their protective efficacy in a moude model of colonization. DacB and PnrA were identified as highly abundant lipoproteins on the pneumococcal surface. They showed to be immunogenic both during natural infection using convalescent patient sera and when given to mice as a subunit vaccine formulation. Following intranasal immunization and challenge of mice with two heterologous S. pneumoniae strains, both proteins reduced the pneumococcal load in the nasopharynx. The protection correlated with increased production of IL-17A indicative for a Th17-mediated immunity, which is strongly suggested to play a critical role in preventing pneumococcal colonization and infection. Lipoproteins are triggering innate receptors on antigen-presenting cells, thereby linking innate with adaptive immune responses. Therefore, lipidated proteins were evaluated for their potential to be used as an adjuvant for vaccination. Lipidation clearly enhanced humoral immune responses to DacB and PnrA without the need of an additional adjuvant. However, an additional adjuvant was required to confer protection against pneumococcal colonization. In conclusion, Lipoproteins are interesting candidates for future protein-based vaccine strategies because they are highly conserved, abundant and immunogenic. PnrA and DacB were identified as potential candidates, since they induced protection against pneumococcal colonization, which in turn may lead to a decline in infections and transmission.
Untersuchungen zur AufklÀrung der molekularen Ursachen erblich bedingter Erkrankungen des zentralen Nervensystems (2017)
van Diepen, Laura-Kristina
Geistige Behinderung ist eine der hĂ€ufigsten Formen von erblich bedingten kognitiven BeeintrĂ€chtigungen. Definiert wird sie durch einen Intelligenzquotienten unter 70 und obwohl ihre genetischen Ursachen sehr heterogen sein können, gibt es unter ihnen eine beachtliche Menge Gene, die am Aufbau der Glycocalyx beteiligt sind [1, 2]. Die Glycocalyx besteht aus Zuckerbausteinen, die Teil von Lipiden und Proteinen der ZelloberflĂ€che oder der extrazellulĂ€ren Matrix sind. Vor kurzem konnten wir belegen, dass Mutationen im ST3GAL3-Gen, welches fĂŒr die Golgi-lokalisierte ÎČ-Galactosid-α2,3-sialyltransferase-III codiert, zu verschiedenen klinischen Befunden fĂŒhrt. Zwei unabhĂ€ngige Mutationen (p.Ala13Asp and p.Asp370Tyr), gefunden in iranischen Familien, konnten mit relativ milden Formen nicht-syndromaler geistiger Behinderung (NSARID) in Verbindung gebracht werden [5]. Eine dritte Punktmutation (p.Ala320Pro), gefunden in einer palĂ€stinensischen Familie, verursachte hingegen eine schwere, altersabhĂ€ngige epileptische Enzephalopathie, das West-Syndrom. Dieses Syndrom ist mit einem Arrest der geistigen Entwicklung oder sogar, wie in unserem Fall, einer Regression assoziiert [3, 4]. ST3GAL3 bildet im Menschen unter anderem das Sialyl Lewis-a (sLea)-Epitop auf Proteinen. Exogene Expression der VolllĂ€ngen-c-MYC-Fusionsproteine, der Mutationsvarianten in LMTK—Zellen, zeigte, dass alle Varianten eine gestörte subzellulare Lokalisierung zeigen und zwei von ihnen (p.Ala13ASp und p.ALA320Pro) kaum mehr messbare AktivitĂ€t besitzen [5]. Um die molekularen und zellulĂ€ren Mechanismen nĂ€her zu beleuchten, die dem ST3GAL3-bedingten West-Syndrom zugrunde liegen, haben wir erfolgreich ein patientenspezifisches, induzertes pluripotentes Stammzellmodell etabliert. HierfĂŒr wurden Fibroblasten der Patientin, die eine Mutation im Exon 12 (c.958G>C, p.Ala320Pro) des ST3GAL3-Gens trĂ€gt, und einer gesunden Schwester mittels eines lentiviralen Vektorsystems reprogrammiert. Da ST3GAL3 die höchsten Expressionswerte im frontalen Kortex zeigte, und dies auch in Übereinstimmung mit dem vorgeschlagenen Ursprung epileptischer AnfĂ€lle steht, wurde ein Differenzierungsprotokoll fĂŒr kortikale Neuronen etabliert und erfolgreich fĂŒr beide Zelllinien durch gefĂŒhrt. Einer der grĂ¶ĂŸten Vorteile dieses Protokolls ist, dass hier die Neurogenese in vitro nach demselben temporalen Muster ablĂ€uft wie die Neurogenese in vivo. Die iPSC und die daraus differenzierten Neuronen wurden anschließend mittels Lectinblot, mRNA-Sequenzierung, AdhĂ€renzassays und FACS untersucht. WĂ€hrend keine Unterschiede zwischen den iPSC und den Fibroblasten festgestellt wurden, konnten fĂŒr die kortikalen Neuronen der Patientin eine zusĂ€tzliche Bande im Lektinblot (70 kDa), ein verĂ€ndertes AdhĂ€renzverhalten auf poly-L-Orinithin/Laminin-beschichteter OberflĂ€che und eine deutlich reduzierte Menge T-box-transcription factor-brain-1-exprimierende Neuronen festgestellt werden. Unsere Ergebnisse zeigen, dass die ST3GAL3-AktivitĂ€t wichtig fĂŒr die normale Entwicklung und Funktion des Gehirns ist.
Between adaptation and virulence: A proteomics view on Staphylococcus aureus Infections (2019)
Palma Medina, Laura Marcela
Staphylococcus aureus is one of the commonly encountered bacteria of the human microbiome. Although mostly a seemingly harmless commensal microbe, S. aureus can act as an invasive pathogen with seriously devastating effects on its host’s health and wellbeing. A wide range of infections caused by this bacterium has been reported to affect diverse parts of the human body, including the skin, soft tissues and bones, as well as important organs like the heart, kidneys and lungs. Particularly, S. aureus is infamous for being a major causative agent of respiratory tract infections that may escalate up to necrotizing pneumonia. Due to its clinical relevance, this pathogen has been intensively studied for many years. Nonetheless, further research in this field is still needed, because of the high capacity of S. aureus to evolve drug resistance, its high genomic plasticity and adaptability and, not in the last place, the plethora of niches within the human body where it can thrive and survive. In this regard, there are still many uncertainties concerning the specific adaptations carried out by S. aureus during colonization and infection of the human body, the transition between both stages, and upon the invasion of different types of host cells. To shed more light on some of these adaptations, the research described in this thesis has employed in vitro models of infection that mimic particular conditions during the infectious process with special focus on the lung epithelium. The adaptations displayed by S. aureus were monitored using advanced proteomics. Furthermore, the analyses documented in this thesis included S. aureus strains with diverse backgrounds and epidemiology to take into account the genetic diversity encountered in this species.
The cellular context of Rabies virus replication - cell culture adaptation, intra-neuronal virus transport and development of host gene targeting vectors (2018)
Nemitz, Sabine
Rabies virus (RABV) is an ancient, highly neurotropic rhabdovirus that causes lethal encephalitis. Most RABV pathogenesis determinants have been identified with laboratory-adapted or attenuated RABVs, but details of natural RABV pathogenesis and attenuation mechanisms are still poorly understood. To provide a deeper insight in the cellular mechanism of pathogenies of field RABV, this work was performed to assess virus strain specific differences in intra-neuronal virus transport, to identify cell culture adaptive mutations in recombinant field viruses and to explore shRNA-expressing RABVs as research tools for targeted host manipulation in infected cells. Comparison of chimeric RABVs with glycoprotein (G) ecto-domains of different lyssaviruses, together with field RABVs from dog and fox in dorsal root ganglion (DRG) neurons revealed no detectable differences in the axonal accumulation of the viruses. This indicates that previously described G-dependent transport of newly formed RABV in axons can occur both in laboratory-adapted and field RABV. Moreover, partial overlap of nucleoprotein (N) and G protein particles in field virus infected DRG axons supported the hypothesis of the “separate model” for anterograde RABV transport. Serial passages of recombinant dog and fox field clones in different cell lines led to the identification of general (D266N) and cell line specific (K444N) adaptive mutations in the G ecto-domain of both viruses. In BHK cells, synergistic effects of D226N, K444N and A417T on field dog virus G protein surface localization led to the loss of endoplasmic reticulum (ER) retention of G and increased virus titers in the supernatant, indicating that limited virus release by ER retention is a major bottleneck in cell culture adaptation. In addition, selection of mutations within the C-terminus of the RABV phosphoprotein (P) (R293H and R293C in fox and dog viruses, respectively) led to the hypothesis of altered binding affinities to nucleoprotein and RNP complexes. Identification of the above mentioned amino acid substitutions together with alterations in a suboptimal transcription stop signal in the P/M gene border indicated that adaptation to cell culture replication occurs on both levels, RNA transcription/replication and virus release. To evaluate the possibility of an expression of a functional microRNA-adapted short-hairpin RNAs (miR-shRNA) expressing RABV, recombinant RABVs encoding miR-shRNAs against cellular Dynein Light Chain 1 (DYNLL1) and Acidic Nuclear Phosphoprotein 32 family member B (ANP32B) were generated. In spite of cytoplasmic transcription of the respective mRNAs, downregulation of DYNLL1 and ANP32B mRNA and respective protein levels in infected cells revealed correct processing to functional shRNAs. Specific downregulation of the cellular genes at 2, 3 and 4 days post infection further demonstrated feasibility of the approach in standard cell lines. However, it remained open whether miR-shRNA expressing RABV can be used to study neuro-infection in vivo. Since first attempts in primary rat neuron cultures failed, it has to be clarified in further experiments whether this strategy can be used in mature, non-dividing neurons or whether breakdown of the nucleus in the course of cell division is a requirement for the processing of cytoplasmically expressed miR-RNA by nuclear RNases. By providing novel insights in axonal RABV transport and cell culture adaptive mutations this work extends the current understanding of RABV pathogenesis in natural and non-natural cell environments. Moreover, it provides a basis for further pathogenicity studies in which the impact of cell culture adaptation through increased virus release on RABV virulence can be investigated. With successful expression of functional miR-shRNAs from RABV vectors, this work also provides a tool for RABV gene targeting in infected cell lines and thus may contribute to the further investigation of RABV-host-cell-interactions.
Untersuchungen zum Einfluss der Rho-AktivitÀt auf die Expression SaeRS-abhÀngiger Virulenzfaktoren in Staphylococcus aureus (2018)
Nagel, Anna
Staphylococcus aureus ist ein Gram-positives pathogenes Bakterium, welches bei ca. 30 % der gesunden Bevölkerung zur kommensalen Flora der Nasenschleimhaut gehört. Jedoch zĂ€hlt S. aureus auch zu den hĂ€ufigsten Erregern bakterieller Infektionen beim Menschen. Aus diesem Grund wurden S. aureus-StĂ€mme in zahlreichen Studien untersucht, um die Pathophysiologie und Virulenz der Bakterien sowie die zugrundeliegenden Regulationsmechanismen zu verstehen. Die Expression von Virulenzfaktoren wird direkt oder indirekt durch verschiedene Regulatoren beeinflusst. Zu diesen zĂ€hlen beispielsweise das Quorum-Sensing-System Agr, der alternative Sigma-Faktor SigB und das Zweikomponentensystem SaeRS. Bei der Regulation der Genexpression spielt neben Mechanismen, die die Transkriptionsinitiation beeinflussen, auch die Transkriptions-termination eine Rolle. Bei Bakterien unterscheidet man zwischen der Rho-unabhĂ€ngigen und der Rho-abhĂ€ngigen Transkriptionstermination. In bisherigen Studien wurde die Rolle des Transkriptionsterminationsfaktors Rho in Escherichia coli, Bacillus subtilis und Mycobacterium tuberculosis untersucht. Hierzu zĂ€hlt unter anderem das Silencing von horizontal erworbenen Genen, die Verhinderung von DNA-DoppelstrangbrĂŒchen und die UnterdrĂŒckung der persistierenden Antisense-Transkripten. Besonders die erhöhte Antisense-Transkription konnte auch in einer Tiling Array-Studie des S. aureus Wildtypstammes HG001 und einer isogenen Δrho-Mutante ST1258 festgestellt werden. In dieser Transkriptom-Analyse wurden die S. aureus-StĂ€mme in RPMI- und TSB-Medium in der exponentiellen und stationĂ€ren Wachstumsphase untersucht. Es konnten insgesamt 416 chromosomale Regionen identifiziert werden, deren Transkriptmenge in einer der vier Bedingungen in der Δrho-Mutante im Vergleich zum Wildtyp wenigstens 4-fach erhöht waren. Von diesen Regionen ließen sich nur 11 % annotierten Genen zuordnen, wĂ€hrend eine massive Erhöhung der Menge solcher Transkripte festgestellt wurde, die vom Gegenstrang kodierender Gene stammen. Ausgehend von diesen Befunden wurde in dieser Studie das zellulĂ€re und extrazellulĂ€re Proteom des S. aureus Wildtyps HG001 und der Δrho-Mutante ST1258 verglichen, um die Auswirkungen der Abwesenheit von Rho auf das Proteom zu untersuchen. Dabei lag die Mehrheit der relativ quantifizierten Proteine in erhöhten Mengen in der Δrho-Mutante im Vergleich zum Wildtyp vor. Viele dieser Proteine konnten dem SaeRS-Zweikomponentensystem von S. aureus zugeordnet werden. In der Proteomanalyse konnten 34 von 39 Proteinen, die durch SaeR reguliert werden, quantifiziert werden. Von diesen wiesen 29 erhöhte Proteinmengen in der Δrho-Mutante auf. Durch das Sae-System werden Gene reguliert, von denen die meisten fĂŒr Virulenzfaktoren, wie AdhĂ€sine, Toxine und immune evasion-Proteine, kodieren. Die Daten der Proteomanalyse zeigen, dass in S. aureus-Zellen, denen die AktivitĂ€t von Rho fehlt, das Sae-System aktiviert wird und dadurch die Induktion des SaeR-Regulons zu beobachten ist. Die Relevanz dieser Ergebnisse wurde durch ein in vivo-Infektionsexperiment untersucht. In einem BakteriĂ€mie-Modell fĂŒhrte die Inaktivierung von Rho zu einer signifikant erhöhten Virulenz von S. aureus, welche sich in einer signifikant reduzierten Überlebensrate der MĂ€use Ă€ußerte. Zwischen dem Wildtyp und dem Komplementationsstamm konnte kein signifikanter Unterschied in der Überlebensrate der infizierten MĂ€use gezeigt werden. Es ist bekannt, dass SaeRS-abhĂ€ngige Virulenzfaktoren auch fĂŒr die Invasion in Epithel- und Endothelzellen entscheidend sind. Anhand der Zahl der internalisierten S. aureus-Bakterien nach Infektion von humanen Lungenepithelzellen konnten in dieser Arbeit keine Unterschiede zwischen dem Wildtyp HG001 und ∆rho-Mutante ST1258 im zeitlichen Verlauf festgestellt werden. Dabei konnten weder Unterschiede im Überleben in 16HBE14o- Zellen noch in der Internalisierungsrate in A549-Zellen zwischen den beiden StĂ€mmen gezeigt werden. Das Antibiotikum Bicyclomycin ist ein spezifischer Inhibitor des Transkriptionsterminationsfaktors Rho und wird in Studien zur Rho-abhĂ€ngigen Transkriptionstermination in Gram-negativen Bakterien eingesetzt, da in diesen Rho ein essentielles Protein ist. In Transkriptom- und Proteomanalysen konnten vergleichbare Effekte durch die Behandlung des Wildtyps mit Bicyclomycin wie in der ∆rho-Mutante hervorgerufen werden. Die Antisense-Transkription und die Expression SaeRS-abhĂ€ngigen Gene waren im Wildtyp nach Gabe von Bicyclomycin deutlich erhöht. Es konnte gezeigt werden, dass die Aktivierung des Sae-Systems unter Rho-defizienten Bedingungen direkt mit der TranskriptionsterminationsaktivitĂ€t von Rho verbunden ist und eine neue Verbindung zwischen antibiotischer Wirkung und schĂ€dlicher Virulenzgenexpression in S. aureus herstellt werden konnte. In anderen Studien konnten Effekte von Antibiotika auf die Expression von Virulenzfaktoren in S. aureus gezeigt werden, jedoch wurden in diesen Studien die Effekte von Anti-Staphylokokken-Wirkstoffen untersucht. Im Gegensatz dazu ist im Fall von Bicyclomycin ein Antibiotikum verwendet worden, das gegen Gram-negative Bakterien wirksam ist und dennoch die Expression von Virulenzfaktoren in S. aureus beeinflusst. Diese Untersuchungen haben damit auch klinische Relevanz, nicht nur fĂŒr Patienten, die an gemischten Infektionen mit verschiedenen Bakterienarten leiden, sondern auch fĂŒr Patienten mit einer Gram-negativen bakteriellen Infektion, die jedoch TrĂ€ger von S. aureus sind.
Deciphering the influence of Streptococcus pneumoniae global regulators on fitness and virulence (2019)
Kakar, Niamatullah
Streptococcus pneumoniae (S. pneumoniae; the pneumococcus) is a Gram-positive, aerotolerant, and opportunistic bacteria, which colonizes the upper respiratory tract of human. S. pneumoniae can further migrate to other sterile parts of the body, and causes local as well as fatal infections like, pneumonia, septicaemia and meningitis. Due to incomplete amino acid pathways, pneumococci are auxotrophic for eight different amino acids including glutamine and arginine. The pneumococcus has adapted to the various host environmental conditions and a number of systems are dedicated for the transport and utilization of nutrients such as monosaccharides, amino acids and oligopeptides. In this study the amino acid metabolism was characterised by 15N-isotopologue profiling in two different pneumococcal strains, D39 and TIGR4. Efficient uptake of a labelled amino acids mixture of 15N-labelled amino acids showed that S. pneumoniae has a preference for the amino acids transport instead of a de novo biosynthesis. It is known that glutamine (Gln) serves as main nitrogen source for S. pneumoniae. The 15N-labelled Gln used in this study demonstrated an efficient 15N-enrichment of Glu, Ala, Pro and Thr. Minor enrichment was seen for the amino acids Asp, Ile, Leu, Phe, Tyr, and Val. Remarkably, labelled Gly and Ser could be determined in strain TIGR4, whereas for strain D39 these two labelled amino acids were not detected. This confirms earlier studies with 13C-labelled glucose, which showed the biosynthesis of Ser out of Gly. Strain TIGR4 was able to grow in chemically-defined medium depleted of Gly confirming that Gly can be synthesized out of serine by the action of the enzyme serine hydroxymethyltransferase (SHMT). The transcriptional regulator GlnR controls the Gln and Glu metabolism in S. pneumoniae. Hence, the impact of the repressor GlnR on amino acids metabolism was also studied. An increased 15N-enrichment was determined for Ala and Glu in both used pneumococcal strains, while an increased level of Pro was only measured in the isogenic glnR-mutant of non-encapsulated D39. Arginine can also serve as nitrogen source in strain TIGR4. The arginine deiminase system metabolizes Arg into ornithine, carbamoyl phosphate and CO2 by the generation of 1 ATP and 2 mol NH3. Because of the truncation of the arcA gene strain D39 lacks arginine deiminase activity and has thus no functional ADS system. When 15N-Arg was added for growth, only in strain TIGR4, thirteen (13) labelled amino acids were detected with the highest enrichment for Ala, Glu and Thr. Genes coding for the enzymes of the arginine metabolism and for arginine uptake are regulated by the activator ArgR2 in strain TIGR4. Inactivation of ArgR2 was not accompanied by an enrichment of labelled amino acids, when the argR2-mutant was grown with 15N-labelled Arg indicative of the important role of ArgR2. The bicistronic operon arcDT encoding the arginine/ornithine transporter ArcD and a putative peptidase ArcT belong to the peptidase family M20. The in silico comparison of structures revealed a significant homology of ArcT to PepV of L. delbrueckii and to Sapep of S. aureus known as carboxypeptidase. ArcT was heterologously expressed in E. coli and purified under reducing conditions. An enzymatic reaction was established and several dipeptides like Ala-Arg, Arg-Ala, and Ala-Asp were used as substrates. In addition, the dependency on divalent cations was analysed. Cleavage of the dipeptide Ala-Arg was detected in the presence of Mn2+ as cofactor under reducing conditions. Reduced peptidase activity was observed when Zn2+ was added. No cleavage of the tripeptide Ala-Ala-Arg could be shown indicating that ArcT acts as dipeptidase with the preference to the Arg residue at the C-terminal end. Bacterial meningitis caused by S. pneumoniae was studied in an in vivo proteomic analysis. In a mouse meningitis model S. pneumoniae was isolated from the cerebrospinal fluid (CSF) by a filter extraction step. The MS analysis identified AliB and ComDE only from CSF isolated pneumococci indicating that these proteins are expressed under infection conditions. Mice infected with D39 wild-type and isogenic aliB, comDE and aliB-comDE double knockout mutants showed significantly less number of pleocytosis in the CSF and lower bacterial load in the blood compared to the wild-type. The results indicate that AliB and ComDE play an important role during meningitis. Phenotypic characterization was carried out to identify differences between the wild-type and the aliB-, comDE- and aliB-comDE double mutants. Oxidative stress conditions were induced by the application of hydrogen peroxide or paraquat during growth in a chemically-defined medium similar to the CSF. No alteration in growth and survival of these mutants compared to the wild-type was observed suggesting that oxygen radicals play not an important role during the progression of meningitis. In addition, no differences of AliB expression was detected in the ComDE deficient D39. No impact of aliB and comDE-mutation on the expression of different virulence factors like pneumolysin or proteins involved in capsular biosynthesis was detected. In vitro proteome analysis was performed to compare the wild-type to the AliB, and ComDE deficient D39 in the early and mid logarithmic growth phase. More than 70 % of theoretically expressed proteins were identified. In the aliB-mutant 33 proteins were differentally expressed in the early growth phase and 50 proteins differed during mid log growth. For the comDE mutant 24 and 11 proteins differed in expression in these two growth phases. Interestingly, high level of AliA expression was identified in all samples. The aliB-mutant had a decreased abundance of the proteins resembling an oligopeptide ABC transporter (AmiA, AmiC, AmiD, AmiE). In addition, another ABC transporter for iron transport encoded by spd_1607 to spd_ 1610 was higher expressed in the aliB-mutant. In the ComDE deficient mutant lower abundance of the Ami transporter sytem was identified. An increased abundance of proteins involved in the pyrimidine metabolism (PyrF, PyrE, PyrDb, PyrB and PyrR) was recognized only in the early growth phase of the comDE-mutant. These analyses demonstrate the marginal changes in protein synthesis during growth of S. pneumoniae. These studies demonstrated the adaptation of the proteome of S. pneumoniae to different growth conditions and the impact of regulatory proteins on the availability of carbon and nitrogen sources.
Tackling the Regulation of Pneumococcal Fitness and Virulence Factors (2018)
GĂłmez Mejia, Alejandro
Streptococcus pneumoniae is a commensal of the human upper respiratory tract and the etiological agent of several life-threatening diseases. This pathogen is the model bacterium for natural competence. Furthermore, the pneumococci played an important role in the identification of DNA as the main molecule involved in bacterial transformation. As a result, studies on the pneumococcal genome provided an initial overview of the genetic potential of this pathogen. The pneumococcus is a highly versatile bacterium possessing a high rate of uptake and recombination of exogenous DNA from neighboring bacteria. As such, a significant diversity in the genome content among the different pneumococcal strains has been reported. The capsular polysaccharide, an important pneumococcal virulence factor, is the best example on the pneumococcal diversity. There are over 98 serotypes characterized to date presenting differences in their capsule (cps) locus. Additional to the cps locus, the pneumococcus also presents 13 genomic islets annotated as regions of diversity (RD) encoded in the auxiliary genome. Remarkably, 8 of the pneumococcal RD studied so far have been associated with virulence. Furthermore, the ongoing sequencing of over 4000 pneumococcal genomes have shed light on the conservation level of well-known pneumococcal virulence factors. Interestingly, important pneumococcal virulence determinants show variations in the gene and protein sequence among the different strains. Prototypes are for example the pneumococcal surface protein C (PspC) and pneumococcal adherence and virulence factor B (PavB). Conversely, gene regulation in S. pneumoniae is carried out by highly conserved and genome- wide distributed transcriptional factors. Overall, the pneumococci interplays with its environment with 4 major regulatory systems: quorum sensing (QS), stand-alone transcriptional regulators, small RNAs (sRNAs) and two-component regulatory systems (TCS). Some of these systems are multifaceted and share more than one feature. Furthermore, there is crosstalk among the different systems, requiring the activation of a signaling cascade to function properly. A comprehensive analysis of the distribution and conservation of pneumococcal virulence factors and TCS was obtained in this study. The results are summarized as a simplified variome in which 25 pneumococcal strains with a complete sequenced genome were analyzed. Interestingly, the genes encoding the glycolytic protein enolase and the toxin pneumolysin were the most conserved virulence determinants. Additionally, the high level of conservation was confirmed for the pneumococcal TCS regulators, especially for WalKR, CiaRH and TCS08. The main focus of this study was on the regulatory functions of pneumococcal TCS. With this in mind, an extensive and detailed systematic review of the 13 pneumococcal TCS and its orphan RR was undertaken. For this purpose, every pneumococcal TCS was analyzed for its reported functional and structural information along with its contribution to the main pathophysiology of the pneumococci. In brief, S. pneumoniae can utilize its TCS for the regulation of important cellular processes and the sensing of detectable signals in the environment. Additionally, the role of TCS in pneumococcal processes and signal sensing can be divided further. In the first place, pneumococcal TCS regulate competence and fratricide, the production of bacteriocins and host-pathogen interaction processes, while the detectable signals include cell-wall perturbations, environmental stress, and nutrients. As a conclusion from this section, it is possible to analyze the pneumococcal TCS in a comprehensive manner. There is a complex network among the different pneumococcal regulators and the TCS play an important role. Moreover, these systems are highly conserved and essential for the proper functioning of the pneumococcus as a pathogen. Following up on pneumococcal TCS, this study focused especially on the TCS08. Interestingly, the pneumococcal TCS08 has been previously associated with the regulation of the cellobiose metabolism. Furthermore, this system has also been reported to regulate the expression of genes encoded in the RD4 (Pilus-1). Remarkably, the pneumococcal TCS08 was shown to be highly homologous to the SaeRS system of Staphylococcus aureus. Initially, mutant strains lacking a single (Δrr08 or Δhk08) or both components (Δtcs08) of the TCS08 were generated in pneumococcal D39 and TIGR4 strains. Transcriptomics and functional assays showed a downregulation of the PI-1 in the absence of the complete tcs08, while PavB presented an upregulation in the Δhk08 knockout. Moreover, an important number of genes coding for intermediary metabolism proteins were also found to be differentially expressed by microarray analysis. As such, the TIGR4Δhk08 strain presented a downregulation for the cellobiose operon (cel). In contrast, an upregulation was reported for the fatty acid biosynthesis (fab) and arginine catabolism (arc) operons. Conversely, a decrease in gene expression was seen in the TIGR4Δrr08 strain for the arc operon. Finally, in vivo murine pneumonia and sepsis models highlighted an involvement of TCS08 in pneumococcal virulence. Remarkably, the different TCS08 mutants presented a strain dependent effect on their virulence severity. The TIGR4Δrr08, and all TCS08 mutants in D39 showed a decrease in virulence in the pneumonia model, with no changes in sepsis. Conversely, the absence of HK08 in TIGR4 presented a highly virulent phenotype in both pneumonia and sepsis models. To sum up, the pneumococcal TCS08 influenced the expression of genes involved in fitness and colonization. Specifically, those coding for the adhesins PavB and PI-1 and fitness proteins from the cel, arc and fab operons. Remarkably, the highest changes in expression were observed in the strains lacking the HK08. Additionally, TCS08 has a strain dependent impact on pneumococcal virulence as showed by murine pneumonia and sepsis models when comparing the effects in D39 and TIGR4.
Plasma Proteome Analyses of Experimental Human and Murine Thyroid Disease Models (2017)
Engelmann, Beatrice
The thyroid as the largest endocrine gland mainly produces and secretes the thyroid hormones (TH): 3,3’,5-triiodo-L-thyronine (T3) and its pro-hormone L-thyroxine (T4). Besides the impact on growth, normal development, bone marrow structure, the cardiovascular system, body weight and thermogenesis, TH play a vivid role in many metabolic regulatory mechanisms in almost all tissues. Thyroid diseases are relatively prevalent and cause, due to the resulting TH imbalances, a broad spectrum of effects. Many of them manifest in pathologically increased or decreased TH levels defined as hyperthyroidism or hypothyroidism, respectively. Routinely, determination of the thyroid state is based on the assessment of the classical markers TSH and free T4. However, this practice has several drawbacks. Moreover, elucidation of the pleiotropic effects of TH on multiple molecular pathways is mostly based on cell culture, tissue and rodent models. Analysis of animal biofluids like serum and urine using metabolomics approaches demonstrated the extensive impact of TH on other body compartments. In contrast, proteome profiling has not been exploited for the comprehensive characterization of the general metabolic effects of TH. Plasma as a large and diverse compartment of the human proteome provides a great opportunity to identify novel protein markers of thyroid function as well as to characterize metabolic effects of TH in humans. Therefore, a study of experimental thyrotoxicosis was performed with 16 male volunteers treated with 0.25 mg/d levothyroxine (L-T4) for 8 weeks to induce a hyperthyroid state. Plasma samples were collected before the L-T4 application started, two times during the treatment and additionally two times after withdrawal. Proteome analysis revealed remarkable alterations including increased levels of two known proteins known to correlate with TH levels (sex hormone-binding globulin and cystatin C). The correlation with free T4 levels revealed 76 out of 437 detected proteins with a Pearson correlation coefficient of r ≄ |0.9|. One prominent signature included 10 coagulation cascade proteins exhibiting significantly increased plasma levels during thyrotoxicosis, thereby revealing a trend towards a hypercoagulative state in hyperthyroidism. To overcome the statistical drawbacks of the Pearson correlation analysis, additionally a mixed-effect linear regression model using serum free T4 concentrations as exposure and protein abundances as outcome while controlling for age, BMI, and batch was implemented. Application of this model resulted in the detection of 63 proteins with significant associations to free T4 levels. Besides the already mentioned augmented coagulation, a significant drop in the amounts of three apolipoproteins (ApoD, ApoB-100 and ApoC3) was observed. Furthermore, an increased abundance of proteins assigned to the complement system was detected. Experimental studies in humans were complemented by corresponding analyses in murine models. In the current work, plasma samples of two murine studies including male C57BL/6 wildtype mice were analyzed to elucidate the impact of thyroid dysfunction on the plasma proteome. The first study was similarly designed as the human model of experimentally induced thyrotoxicosis and assigned the animals to three groups: a control group, a T4 treatment group, and a T4 recovery group, whereupon the latter first received T4 followed by a subsequent TH normalization period. A high proportion of plasma proteins exhibited significantly different protein levels during T4 application (n = 120), where 90 of these also showed a corresponding reverse trend after T4 withdrawal (T4 recovery vs. T4), thereby displaying transient alterations. The molecular pattern of hyperthyroidism in the murine model indicated, as in the human study, a pronounced decrease in apolipoproteins. However, in clear contrast to the human data, the levels of proteins related to the coagulation cascade and complement system were also transiently decreased in mice, while being increased in humans. The second murine analysis focused on the impact of hyper- and hypothyroidism caused by T3 or T4 treatment and MMI/KClO4 application, respectively. In general, compared to the first murine study less clear alterations of protein levels were detected. Proteins related to the complement system revealed fewer changes in the T3 group and only marginal changes after T4 induction. Unexpectedly, the MMI/KClO4-induced hypothyroidism caused a reduction of the levels of several proteins assigned to the complement system, although different components and factors were affected. Generally, rodent studies partially provided a divergent picture of TH action as compared to human studies. However, in spite of inconsistent results in studies regarding the effects of TH that are possibly due to species-specific differences, an important role of TH on several metabolic and other pathways, e.g. in the process of blood coagulation and apolipoprotein regulation, is evident. The results from both murine and human studies presented here provide novel insights into changes in the plasma proteome in the context of thyroid diseases which might contribute to a better understanding of TH action on metabolism and other pathways.
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