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- Abteilung für Mikrobiologie und Molekularbiologie (131) (remove)
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Microbial infections can be either caused by a single species or complex multi-species consortia. One of the most prominent opportunistic human pathogens leading to mono- or mixed-species infections is the Gram-negative bacterium Pseudomonas aeruginosa. Understanding the molecular basis of its adaptation to infection-related stresses is an essential prerequisite for the prevention and treatment of P. aeruginosa infections. We therefore employed state-of-the-art proteomics approaches to elucidate the molecular adaptation mechanisms of P. aeruginosa to infection-related conditions. Moreover, structure, function and interaction of complex microbial consortia containing P. aeruginosa and causing catheter-associated urinary tract infections were investigated by metaproteomics analyses. Our investigations revealed that the adaptation of P. aeruginosa during infection is either based on gene expression changes caused by environmental signal integration or by gene mutations leading to a selective advantage in a particular host environment. In study I, investigating the proteome response of P. aeruginosa biofilms to the clinical relevant antibiotic ciprofloxacin, global changes in the protein profile were observed. Ciprofloxacin induced the expression of proteins involved in the Lex-induced SOS-response, drug efflux pumps and gene products of the ciprofloxacin-responsive prophage cluster and repressed the expression of porins and DNA-binding proteins. In study II the transcriptome and proteome of two clonal P. aeruginosa lineages during long-term colonization of cystic fibrosis (CF) patient’s lungs were analyzed. Point mutations in global regulator genes, i.e. retS, gacS, and gacA, were identified by genomic sequencing. Inactivation of RetS, found two years after the initial colonization, induced the expression of genes involved in chronic infections and coding for the type 6-secretion system (T6SS). Additional mutations in the GacS/GacA two-component regulatory system (TCS) were found to repress the expression of T6SS proteins and to induce the expression of proteins belonging to the type 3-secretion system (T3SS). In study III we elucidated the niche-specific adaptation of P. aeruginosa isolates from different infection sites by investigating their protein expression patterns and glucose metabolic fluxes. We could show that isolates from the urinary tract express a higher amount of proteins involved in the acquisition of micronutrients (i.e. iron) and carbohydrates compared to isolates from the CF lung. In study IV 16S rDNA sequencing and metaproteomics were employed to demonstrate that the investigated CAUTI-related biofilms consisted of two to five different species with one or two species dominating the mixed community. Following this line of research, we investigated in study V structure and function of a biofilm of a long-term catheterized patient, which was predominantly composed of P. aeruginosa and Morganella morganii, but also contained a minor proportion of the obligate anaerobe Bacteroides sp.. The comparison of in vivo and in vitro protein expression profiles of P. aeruginosa and M. morganii indicated that iron and carbohydrates are the major growth-limiting factors in the bladder. These results indicate different nutritional strategies of the two pathogens in the bladder environment. A comparison of urinary protein profiles of healthy persons and catheterized patients suggested that the human innate immune system is induced by CAUTIs. Moreover, numerous proteins involved in nutritional immunity, e.g. iron-, calcium- and magnesium-binding proteins, were found to be more abundant in the urine of catheterized patients. A follow-up (meta)proteomics study (study VI) aiming at the elucidation of interspecies interactions during multi-species infections indicated that the urease-positive uropathogen Proteus mirabilis induces the precipitation of metal ions by urine alkalization and thereby limits the availability of these important micronutrients for other co-infecting bacteria. This limitation seems to be sensed by the P. aeruginosa PhoP-PhoQ two-component system (TCS) leading to an increased resistance to antimicrobial peptides and biofilm-forming capacity of the pathogen. Also during co-cultivation of P. aeruginosa with Staphylococcus aureus a slight increase in the expression of the PhoP-PhoQ TCS and the alkaline protease could be observed (study VII). In study VIII a combined metagenomics and metaproteomics approach was employed to investigate structure and function of the lichen Lobaria pulmonaria, a complex consortium consisting of a fungus, an algal partner, cyanobacteria, and a highly diverse bacterial microbiome. The results presented in this work contribute to a better understanding of the manifold and complex bacterial adaptation mechanisms to infection-related and environmental stress and thereby foster the development of novel treatment and prevention strategies.
Swine are regarded as promising biomedical models, but the dynamics of theirgastrointestinal microbiome have been much less investigated than that of humans or mice. The aimof this study was to establish an integrated multi-omics protocol to investigate the fecal microbiomeof healthy swine. To this end, a preparation and analysis protocol including integrated samplepreparation for meta-omics analyses of deep-frozen feces was developed. Subsequent data integrationlinked microbiome composition with function, and metabolic activity with protein inventories, i.e.,16S rRNA data and expressed proteins, and identified proteins with corresponding metabolites.16S rRNA gene amplicon and metaproteomics analyses revealed a fecal microbiome dominated byPrevotellaceae,Lactobacillaceae,Lachnospiraceae,RuminococcaceaeandClostridiaceae.Similar microbiomecompositions in feces and colon, but not ileum samples, were observed, showing that feces can serveas minimal-invasive proxy for porcine colon microbiomes. Longitudinal dynamics in composition,e.g., temporal decreased abundance ofLactobacillaceaeandStreptococcaceaeduring the experiment,were not reflected in microbiome function. Instead, metaproteomics and metabolomics showed arather stable functional state, as evident from short-chain fatty acids (SCFA) profiles and associatedmetaproteome functions, pointing towards functional redundancy among microbiome constituents.In conclusion, our pipeline generates congruent data from different omics approaches on the taxonomyand functionality of the intestinal microbiome of swine.
The toluene-degrading and solvent-tolerant strain Pseudomonas putida DOT-T1E was investigated with respect to its suitability and economic efficiency as biocatalyst in aqueous-organic two-phase systems with aliphatic solvents as organic phase (Rojas et al. 2004, chapter 4 and 5) and to its adaptive responses to the solvent decanol. The adaptive changes on the level of cell morphology (chapter 2), membrane fatty acids and permeability (chapter 3), as well as energetics and surface properties (chapter 5) of P. putida DOT-T1E have been investigated in order to ascertain information about the strain's suitability for two-phase biotransformation systems (chapter 4). The morphological adaptation to the presence of solvents was observable in changes of the cell size of P. putida DOT-T1E. Those changes were dependent on the cellular activity and occurred only after addition of non-lethal solvent concentrations. The cells reacted to the presence of organic solvents by decreasing the ratio between surface and volume of the cells and therefore reducing their relative surfaces (chapter 2). The cell surface and especially the cytoplasmic membrane are the major targets for toxic effects of membrane-active compounds like solvents. The mechanism of the cis-trans isomerisation of unsaturated fatty acids counteracts the fluidizing effect of solvents by increase the ordering of the membrane and therefore its rigidity. By comparing the responses of the cells to a series of stress factors (like solvents), a direct correlation between the activation of this mechanism and the well investigated K+-uptake pumps was observed (chapter 3). Huertas et al. (1998) reported that this strain tolerated concentrations of heptane, propylbenzene, octanol, and toluene of at least 10 % (vol/vol). 1-decanol is, in comparison to toluene, less hazardous and volatile, and it possesses good extraction properties for the desired fine chemical products. In further investigations of possible biotechnological processes, it was discovered that decanol is also a more suitable solvent as organic phase (chapter 4). Although the cells of P. putida DOT-T1E needed additional energy for their adaptation to the presence of the solvent decanol, they were able to maintain or activate their electron transport phosphorylation allowing homeostasis of ATP level and energy charge in the presence of the solvent, at the price of a reduced growth yield. On the other hand, significantly enhanced cell hydrophobicities converging with more negative cell surface charges were observed in cells grown in the presence of 1-decanol (chapter 5). It is however important to note that all the cell’s properties observed are closely linked to each other since they are all part of the adaptive response of the cells. It can be concluded that the easy adaptability and good growth properties of Pseudomonas putida DOT-T1E in the presence of the organic solvent 1-decanol make this system an excellent candidate for two-phase fermentation processes. Moreover, the absence of differences in the energetics of the bacteria during exposure to 1-decanol as compared to bacteria that grew in the absence of 1-decanol, support that this organism can be used for the industrial production of fine chemicals in an economically sound manner.
Technological advances in light microscopy have always gone hand in hand with unprecedented biological insight. For microbiology, light microscopy even played a founding role in the conception of the entire discipline. The ability to observe pathogens that would otherwise evade human observation makes it a critical necessity and an indispensable tool to infectious disease research. Thus, the aim of this thesis was to optimize, extend, and functionally apply advanced light microscopy techniques to elucidate spatio-temporal and spatio-morphological components of bacterial and viral infection in vitro and in vivo.
Pathogens are in a constant arms race with the host’s immune system. By finding ways to circumvent host-mediated immune responses, they try to evade elimination and facilitate their own propagation. The first study (publication I) demonstrated that the obligate intracellular pathogen Coxiella burnetii is not just able to infect natural killer (NK) cells, but is actually capable of surviving the harsh degradative conditions in the cytotoxic lymphocyte’s granules. Using live-cell imaging of reporter-expressing Coxiella burnetii, the transient NK cell passage was closely monitored to provide detailed spatio-temporal information on this dynamic process in support of a range of static analyses. Bacterial release from NK cells was pinpointed to a time frame between 24 to 48 hours post-infection and the duration of release to about 15 minutes.
The second approach (publications II-V) aimed at shedding light on the greater spatio-morphological context of virus infection. Thus far, most studies investigating the distribution or tropism of viruses in vivo have used conventional immunohistochemistry in thin sections. Omitting the native spatial context of the infection site in vivo inherently bears the risk of incomplete description. While the microscopic tools and sample preparation protocols needed for volumetric 3D immunofluorescence imaging have recently been made available, they had not gained a foothold in virus research yet. An integral part of this thesis was concerned with the assessment and optimization of available tissue optical clearing protocols to develop an immunofluorescence-compatible 3D imaging pipeline for the investigation of virus infection inside its intact spatio-morphological environment (publication II). This formed the basis for all subsequent volumetric analyses of virus infection in vivo presented here. Consequently, this thesis provided a valuable proof of concept and blueprints for future virus research on the mesoscopic scale of host-pathogen interactions in vivo (publications II-V), using rabies virus (RABV; publications II-IV) and the newly-emerged severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2; publication V) as infection models for the nervous system and the respiratory tract, respectively.
Applying and further improving this volumetric 3D imaging workflow enabled unprecedented insights into the comprehensive in vivo cell tropism of RABV in the central (CNS) (publication III) and peripheral nervous system (PNS) (publication IV). Accordingly, differential infection of CNS-resident astrocytes by pathogenic and lab-attenuated RABV was demonstrated (publication III). While either virus variant showed equal capacity to infect neurons, as demonstrated by quantitative image analysis, only pathogenic field RABVs were able to establish non-abortive infection of astrocytes via the natural intramuscular inoculation route. A combined 3D LSFM-CLSM workflow further identified peripheral Schwann cells as a relevant target cell population of pathogenic RABV in the PNS (publication IV). This suggested that non-abortive infection of central and peripheral neuroglia by pathogenic RABV impairs their immunomodulatory function and thus represents a key step in RABV pathogenesis, which may contribute significantly to the establishment of lethal rabies disease.
Finally, utilizing the full volumetric acquisition power of LSFM, a further refined version of the established 3D imaging pipeline facilitated a detailed mesoscopic investigation of the distribution of SARS-CoV-2 in the respiratory tract of the ferret animal model (publication V). Particularly for this newly-emerged pathogen of global concern, in-depth knowledge of host-pathogen interactions is critical. By preserving the complete spatio-morphological context of virus infection in the ferret respiratory tract, this thesis provided the first specific 3D reconstruction of SARS-CoV-2 infection and the first report of 3D visualization of respiratory virus infection in nasal turbinates altogether. 3D object segmentation of SARS-CoV-2 infection in large tissue volumes identified and emphasized a distinct oligofocal infection pattern in the upper respiratory tract (URT) of ferrets. Furthermore, it corroborated a preferential replication of SARS-CoV-2 in the ferret URT, as only debris-associated virus antigen was detected in the lower respiratory tract of ferrets, thus providing crucial information on the spatial distribution of SARS-CoV-2.
African swine fever virus (ASFV) is one of the most threatening animal viruses which has dramatically expanded its distribution range within the last years. ASFV was first described and is endemic in sub-Saharan Africa where it is transmitted in a sylvatic cycle between indigenous suids and Ornithodoros soft ticks. Therefore, ASFV is the only known DNA-arbovirus and, in addition to that, the only member of the genus Asfivirus within the family Asfarviridae. Being highly infectious to domestic pigs and wild boar, the virus was introduced into Georgia in 2007 and has subsequently spread throughout eastern Europe reaching the European Union in 2014. Despite almost 100 years of intensive research and the occurrence of African swine fever (ASF) on four continents including Europe, many aspects of its epidemiology, vector dynamics and virus evolution are unknown. In our study, first evidence is presented on endogenous ASFV-like (EASFL)- elements which are integrated into the genome of ASFV natural vectors, O. moubata soft ticks. Through a series of experiments including next-generation sequencing, infection experiments, phylogenetic and BEAST analyses as well as PCR-screening, evidence is provided that these elements belong to an ancestral ASFV strain that might have existed 50,000 to 30,000 years BCE. Further results suggest that the EASFL-elements are involved in protecting ticks against ASFV infection and might belong to a generalised tick defence mechanism. In order to evaluate factors influencing ASFV epidemiology in eastern Europe, experiments were conducted on possible indigenous vector species and circulating virus isolates. In the absence of the natural tick vector, blow fly larvae were considered as possible mechanical vectors involved in ASFV transmission and persistence. Results are presented that even after feeding on highly infectious wild boar tissue, fly larvae and pupae showed no contamination with infectious virus. On the contrary, the maggots appeared to have inactivated the virus in the organ tissue through their salivary secretions. Further experiments conducted on an ASFV-strain isolated from northeastern Estonia resulted in the first report of an ASFV-strain with attenuated phenotype isolated in Eastern Europe. Results from NGS-analyses provided evidence for a major genome reorganisation in that strain that included a large deletion and a duplication of multiple ASFV genes.
Taken together, this study provides novel insights into the epidemiology of ASF and evolution of ASFV one of the major threats to animal health worldwide and therefore does not only contribute significantly to basic research but possibly also to specific knowledge necessary for future disease management.
An Innovative Protocol for Metaproteomic Analyses of Microbial Pathogens in Cystic Fibrosis Sputum
(2021)
Hallmarks of cystic fibrosis (CF) are increased viscosity of mucus and impaired mucociliary clearance within the airways due to mutations of the cystic fibrosis conductance regulator gene. This facilitates the colonization of the lung by microbial pathogens and the concomitant establishment of chronic infections leading to tissue damage, reduced lung function, and decreased life expectancy. Although the interplay between key CF pathogens plays a major role during disease progression, the pathophysiology of the microbial community in CF lungs remains poorly understood. Particular challenges in the analysis of the microbial population present in CF sputum is (I) the inhomogeneous, viscous, and slimy consistence of CF sputum, and (II) the high number of human proteins masking comparably low abundant microbial proteins. To address these challenges, we used 21 CF sputum samples to develop a reliable, reproducible and widely applicable protocol for sputum processing, microbial enrichment, cell disruption, protein extraction and subsequent metaproteomic analyses. As a proof of concept, we selected three sputum samples for detailed metaproteome analyses and complemented and validated metaproteome data by 16S sequencing, metabolomic as well as microscopic analyses. Applying our protocol, the number of bacterial proteins/protein groups increased from 199-425 to 392-868 in enriched samples compared to nonenriched controls. These early microbial metaproteome data suggest that the arginine deiminase pathway and multiple proteases and peptidases identified from various bacterial genera could so far be underappreciated in their contribution to the CF pathophysiology. By providing a standardized and effective protocol for sputum processing and microbial enrichment, our study represents an important basis for future studies investigating the physiology of microbial pathogens in CF in vivo – an important prerequisite for the development of novel antimicrobial therapies to combat chronic recurrent airway infection in CF.
Summary
The susceptibility of Candida albicans biofilms to a non‐thermal plasma treatment has been investigated in terms of growth, survival and cell viability by a series of in vitro experiments. For different time periods, the C. albicans strain SC5314 was treated with a microwave‐induced plasma torch (MiniMIP). The MiniMIP treatment had a strong effect (reduction factor (RF) = 2.97 after 50 s treatment) at a distance of 3 cm between the nozzle and the superior regions of the biofilms. In addition, a viability reduction of 77% after a 20 s plasma treatment and a metabolism reduction of 90% after a 40 s plasma treatment time were observed for C. albicans. After such a treatment, the biofilms revealed an altered morphology of their cells by atomic force microscopy (AFM). Additionally, fluorescence microscopy and confocal laser scanning microscopy (CLSM) analyses of plasma‐treated biofilms showed that an inactivation of cells mainly appeared on the bottom side of the biofilms. Thus, the plasma inactivation of the overgrown surface reveals a new possibility to combat biofilms.
Background: Methanogenic archaea represent a less investigated and likely underestimated part of the intestinal tract microbiome in swine.
Aims/Methods: This study aims to elucidate the archaeome structure and function in the porcine intestinal tract of healthy and H1N1 infected swine. We performed multi-omics analysis consisting of 16S rRNA gene profiling, metatranscriptomics and metaproteomics.
Results and discussion: We observed a significant increase from 0.48 to 4.50% of archaea in the intestinal tract microbiome along the ileum and colon, dominated by genera Methanobrevibacter and Methanosphaera. Furthermore, in feces of naïve and H1N1 infected swine, we observed significant but minor differences in the occurrence of archaeal phylotypes over the course of an infection experiment. Metatranscriptomic analysis of archaeal mRNAs revealed the major methanogenesis pathways of Methanobrevibacter and Methanosphaera to be hydrogenotrophic and methyl-reducing, respectively. Metaproteomics of archaeal peptides indicated some effects of the H1N1 infection on central metabolism of the gut archaea.
Conclusions/Take home message: Finally, this study provides the first multi-omics analysis and high-resolution insights into the structure and function of the porcine intestinal tract archaeome during a non-lethal Influenza A virus infection of the respiratory tract, demonstrating significant alterations in archaeal community composition and central metabolic functions.
In food chain, Pseudomonas spp. cause spoilage by reducing shelf life of fresh products, especially during cold storage, with a high economic burden for industries. However, recent studies have shed new light on health risks occurring when they colonize immunocompromised patient tissues. Likewise to P. aeruginosa, they exhibit antibiotic resistance and biofilm formation, responsible for their spread and persistence in the environment. Biofilm formation might be induced by environmental stresses, such as temperature fluctuations causing physiological and metabolic changes exacerbating food spoilage (by protease and pigment synthesis), and the production of adhesion molecules, chemotactic or underestimated virulence factors. In order to provide a new insight into phenotypic biodiversity of Pseudomonas spoilers isolated from cold stored cheese, in this work 19 Pseudomonas spp. were investigated for biofilm, pigments, exopolysaccharide production and motility at low temperature. Only nine strains showed these phenotypic traits and the blue pigmenting cheese strain P. fluorescens ITEM 17298 was the most distinctive. In addition, this strain decreased the survival probability of infected Galleria mellonella larvae, showing, for the first time, a pathogenic potential. Genomic and proteomic analyses performed on the ITEM 17298 planktonic cells treated or not with lactoferrin derived antibiofilm peptides allowed to reveal specific biofilm related-pathways as well as proteins involved in pathogenesis. Indeed, several genes were found related to signaling system by cGMP-dependent protein kinases, cellulose, rhamnolipid and alginate synthesis, antibiotic resistance, adhesion and virulence factors. The proteome of the untreated ITEM 17298, growing at low temperature, showed that most of the proteins associated with biofilm regulation, pigmentation motility, antibiotic resistance and pathogenecity were repressed, or decreased their levels in comparison to that of the untreated cultures. Thus, the results of this work shed light on the complex pathways network allowing psychrotrophic pseudomonads to adapt themselves to food-refrigerated conditions and enhance their spoilage. In addition, the discovery of virulence factors and antibiotic resistance determinants raises some questions about the need to deeper investigate these underestimated bacteria in order to increase awareness and provide input to update legislation on their detection limits in foods.
Ebolaviruses are dependent on host cell proteins for almost all steps in their viral life cycle. While some cellular factors with crucial roles in the ebolavirus life cycle have been identified, many of them remain to be identified or fully characterised. This thesis focuses on the characterisation and identification of host cell interactions of the highly pathogenic Ebola virus (EBOV), probing host-virus interaction at various stages of the viral life cycle. Beginning with viral budding, the function of a recently proposed late domain motif within the EBOV matrix protein VP40 was examined using an EBOV transcription and replication-competent virus-like particle (trVLP) system. Although this motif has been suggested to interact with the endosomal sorting complex required for transport (ESCRT), we could show that this late domain motif does not contribute to EBOV budding.
While many host cell proteins have been identified so far that are important for viral budding, only a few proteins are known that are necessary for EBOV RNA synthesis. Thus, to identify host proteins that are involved in viral replication and transcription, we performed a genome-wide siRNA screen in the context of an EBOV minigenome assay. Using this approach, we identified several proteins that appear to be important for viral RNA synthesis or protein expression. Two of the most prominent hits in our screen were CAD (Carbamoyl-phosphate synthetase 2, aspartate transcarbamylase and dihydroorotase) and NXF1 (nuclear RNA export factor 1). CAD catalyses the first three steps in the de novo pyrimidine biosynthesis, while NXF1 is the main nuclear export protein for cellular mRNAs. In subsequent characterisation studies, using a range of life cycle modelling systems as well as molecular analyses, we could demonstrate that the canonical function of CAD during the pyrimidine biosynthesis is necessary for EBOV replication and transcription. In contrast to this, for NXF1 we discovered a so-far unknown function: Again, by applying different life cycle modelling alongside with molecular assays, we provided evidence that the EBOV nucleoprotein recruits NXF1 into inclusion bodies, the site of EBOV RNA synthesis, where it binds viral mRNAs to export them from these structures. Importantly, for both CAD and NXF1 we were able to recapitulate key data in the context of live EBOV infection, confirming their roles in the viral life cycle.
Both of these identified host factors are promising targets for antiviral therapies and indeed de novo pyrimidine synthesis is emerging as a possible antiviral target for a number of viruses. Similarly, as we could show NXF1 to be important in the life cycle of the highly pathogenic Junín virus, this raises the possibility that disruption of this interaction may result in broad-spectrum antiviral activity. Moreover, for an increasing number of negative-sense RNA viruses inclusion bodies as site of viral RNA synthesis are described to have a liquid organelle character. Therefore, our findings on NXF1 also provide an intriguing model to explain how negative-sense RNA viruses in general overcome this obstacle and export viral mRNAs from inclusion bodies.
Staphylococcus aureus is a pathogenic bacterium infecting the human host. It’s multifaced adaptation to various environmental conditions is mediated by a tight regulation of the virulence factors influencing the host’s immune system. In this thesis two regulators of gene expression were analysed: (i) the global influence of the two-component system SaePQRS and (ii) the regulation of superantigen gene expression by the alternative sigma factor σB. At the outset of this thesis, single target genes induced by SaeRS were known (hla, hlb, cap5, fnbA, coa). In order to get a general idea of the Sae-regulon, the influence of SaePQRS on gene-expression was analysed in two strain backgrounds by proteomics and transcriptomics aproaches. Recapitulatory, expression of at least 18 secreted and two covalently cell-wall bound proteins was decreased following inactivation of the Sae-system. Sae-dependently expressed were, amongst others, well decribed virulence factors like the y-hemolysins HlgA, HlgB, HlgC, LukM and LukF, the innate immune system modulating proteins Efb, CHIPS and SCIN-B as well as the enterotoxin SEB. SaeR acts as an activator of its target genes. Some proteins were detected in increased amounts in the extracellular proteome of the Sae-deficient strain. However, these changes did not occur at the transcriptional level. The expression of virulence factors is determined by other global regulators. No influence of SaePQRS on the transcription of five substancial regulators, namely the Agr-system and its effector molecule RNAIII, the alternative sigma factor σB, the two-component system ArlRS and the DNA-binding protein SarA, could be shown. In the second part of this thesis the issue was broached to the regulation of gene-expression of a subgroup of virulence factors, the superantigens (SAgs) of S. aureus by SaePQRS and σB. In contrast to their well described molecule structure and function, the regulation of their gene expression was largely unknown. Six different S. aureus strains (two laboratory strains and four clinical isolates) encoding one to seven SAg-genes each, were used for analysis of a total of twelve SAgs regarding their transcription and mitogenic activity. The transcriptional units were characterized using Northern-Blotting. The expression of SAgs could be correlated to the respective growth phase. While egc-SAgs were expressed mainly at low optical densities, seb was induced during late growth phase. In contrast, the transcription of sea, seh, sek, tst and sep remained constant and growth-phase independent. The transcriptional dataset was verified using T-cell proliferation assays. The expression of seh, tst and the egc-operon was dependent on σB. A potential σB-dependent promotor could be identified preceeding seo, the first gene of the egc-operon. In contrast, the expression of seb was increased in sigB-deficient background. This might be due to indirect effects. Expression of seb required SaePQRS. Transcriptional datasets were verified by Immuno-Blotting and T-cell-proliferation assays. In conclusion, the same mutation in sigB but in different strain backgrounds could result in opposite phenotypes with respect to their mitogenic activity. Besides well characterized virulence factors, some secreted proteins with so far unknown function belong to the Sae-regulon. Given that the influence of SaePQRS was restricted to virulence factors and induced especially modulators of the innate immune system, it can be assumed, that these proteins potentially play a role in virulence of S. aureus. In the third part of this thesis, one of these potential new virulence factors, namely SACOL0908, was analysed in detail. In cooperation with the group of Prof. Stehle, Tübingen, the crystal structure was solved. The protein folding of SACOL0908 is new with only minor similarities to described protein structures. Recombinantly expressed SACOL0908 binds to granulocytes. These cells belong to the innate immune system, incorporate bacteria by phagocytosis and kill them. The receptor for SACOL0908 on the surface of granulocytes could not be identified using immunoprecipitation, antibody-blocking assays and functional assays in cooperation with the group of Prof. Peschel, Tübingen. The gene encoding SACOL0908 was deleted in two S. aureus strain backgrounds (COL and Newman). These mutants are currently in use to characterize their phenotype in mouse-infection studies.
The here presented dissertation investigated the molecular mechanisms, by which the food industry model bacteria Pseudomonas fluorescens and Listeria monocytogenes, grown either as planktonic cultures, were inhibited by plasma treated water (PTW) produced by a microwave-induced plasma source (MidiPLexc). As a starting point, optimal operating parameters were determined with 5 standard liters per minutes(slm)compressed air during the treatment of 10 ml deionized water within a treatment time of up to 15 min (pre-treatment time). Treatment times of 1, 3 and 5 min were selected (post-treatment time). In addition to physical parameters, i.e. temperature measurements at different spots at the plasma source during the production of the PTW, the chemical composition of PTW was determined by pH measurements, chronoamperometry (determination of the H2O2 concentration), ion chromatography (determination of the NO2-, NO3- and ONOO- concentrations) and mass spectrometry (qualitative determination of the molecules). In addition, concentration changes of reactive species over a period of 3 h indicated a decrease of the NO2- concentration as well as an increase of the NO3- and ONOO- concentration in the PTW. Microbiological assays, i.e. quantification of colony-forming units (CFU), fluorescence and XTT assays, revealed a significant reduction of the proliferation ability of the cells, membrane damages and metabolic activity have been demonstrated for planktonic cultures as well as mono- and multispecies biofilms. PTW effects on biofilm structures were investigated using microscopic methods such as fluorescence microscopy, confocal laser scanning microscopy (CLSM), atomic force microscopy (AFM), and scanning electron microscopy (SEM), as well as physical methods such as contact angle measurements. Significant changes in the biofilm structure have been shown, which indicate an ablation of the biofilm mass from top to bottom by approximately 2/3 of the biofilm mass and a destruction of the extracellular matrix (ECM) by the reactive species within the PTW. Subsequently, fresh-cut lettuce has been treated with PTW produced by up-scaled plasma sources. Apart from qualitative parameters of the lettuce after PTW treatment such as texture and color, the concentration of PTW reactive species have been determined. These experiments showed that the composition of the reactive species were slightly different from that of the laboratory-scaled plasma source MidiPLexc. Notably, the PTW treatment did not cause significant changes in texture and color of the fresh-cut lettuce. Finally, a synergistic effect of PTW treatment followed by plasma-processed air (PPA) drying was demonstrated application-specific.
The respiratory epithelium acts as both, a barrier of the respiratory tract to Nipah virus (NiV) entry and at the same time as a significant determinant of virus shedding. Both, for humans and pigs, replication in the respiratory tract epithelia is considered a major factor in transmission to other hosts. To understand why the virus constitutes a high-risk pathogen for livestock and humans, knowledge about
viral replication and host responses in relevant cells and tissues is crucial. Most in vitro studies, however, have been performed in conventional cell lines or non-differentiated lung cells. Only a few examples exist where Henipavirus infections have been investigated in fully-differentiated lung
epithelial cell models.
Thus, one aim of this thesis was to investigate infection, replication, spread and host protein dynamics of NiV in primary bronchial epithelial cells (BEC) cultivated at the air-liquid-interphase (ALI). By
immunofluorescence imaging, the NiV infection dynamics in BEC-ALI cultures were monitored over a 12 day time course, in order to provide detailed information about the infection process in the
respiratory epithelium of pigs and ferrets. Compared to undifferentiated primary BEC, the specific infectivity of NiV in BEC-ALI cultures was low. Infections remained focal and complete infection of the
cultures was not observed, even at 12 dpi. Analysis of viral titers and viral mRNA indicated a limited
virion release from the infected ALI-cultures while most of the newly synthesized NiV-RNA remained
cell associated. Immunofluorescence analysis of cross sections from infected ALI-cultures revealed
large infected areas that exhibited a strong cytopathic effect (CPE). Disruption of the epithelium
resulted in apical release of virus antigen-positive cell detritus while ciliated areas and basal cells were
less affected. From these data it was concluded, that NiV transmission could be supported by
exhalation of cell debris associated NiV and thus may contribute to rapid spread of infection in swine
populations.
A second aim was to explore the dynamics of host responses to NiV infection in differentiated BEC-ALI
culture and to assess whether this differs to conventional cell line data available from literature. Even
though strong CPE appeared in later phases of NiV infection, at least the porcine PBEC-ALI cultures
remained robust enough to allow protein sampling over 12 days infection course. Subsequent MS-based proteomics enabled unprecedent insight in complex cell culture response upon NiV infection.
Previous reports indicated a lack of efficient interferon type I induction in non-differentiated pig or
human BEC which were considered a prerequisite for efficient replication in the respiratory epithelium
and virusspread. In contrast to non-differentiated pig BEC (PBEC), in PBEC-ALI cultures multiple factors
involved in interferon responses were upregulated upon NiV infection. Thereby it was demonstrated
that NiV infection induced a robust innate immune response upon infection with elevated components of antigen processing and presentation resulting in the conversion from the constitutive proteasome to the immunoproteasome. In contrast to previous reports about NiV-infected non-differentiated
PBEC or endothelial cells, incomplete immunoproteasome formation and limitations in interferon
response could be excluded. Thus, a model is proposed in which NiV infection and spread in differentiated PBECs is slowed by potent innate immune responses to the virus infection. Overall, the
findings highlight the important role of the respiratory epithelium not only as a physical barrier to virus
infections but also indicate itsrole as a primary site of adaptive immune induction through NiV induced
antigen processing and MHC I presentation.
Finally, to allow functional studies of Henipaviruses at the BSL-2 biosafety level a recombinant CedPV
was generated and rescued. An imaging based screening and quantitative analysis pipeline was established to investigate the role of cellular factors and to screen for potential virus and host gene
directed inhibitory factors. Accordingly, different host and viral genes were targeted with a siRNA-pool
either targeting virus or selected cellular mRNAs followed by the infection with the CedPV and the
quantification of infected cells. With proof of concept of the siRNA screening pipeline, the recombinant
CedPV clone was used as a backbone to insert variousfluorescence reporter genesin order to optimize
the analysis workflow by allowing direct virus quantification in live, unstained samples. Consequently,
this thesis provides a valuable proof for future approaches related to the function of virus proteins,
influence of host-factors and virusreplication and Henipavirus-inhibitorscreens at low biosafety levels.
Orthohantaviruses are rodent-borne pathogens distributed all over the world, which do not cause visible disease in their reservoir host. Puumala orthohantavirus (PUUV) causes most human hantavirus disease cases in Europe and is transmitted by the bank vole (Clethrionomys glareolus). Hantaviruses have a tri-segmented genome consisting of the large (L) segment, coding for the RNA-dependent RNA polymerase (RdRP), the medium (M) segment, encoding the glycoproteins, and the small (S) segment. The S-segment contains two major overlapping open reading frames (ORF) coding for the nucleocapsid (N) protein and a non-structural (NSs) protein, a putative type I interferon (IFN-I) antagonist. To date, pathogenesis and reservoir host adaptation of hantaviruses are poorly understood due to missing adequate cell culture and animal models.
In contrast to previous studies, in this work, data from spring and summer 2019 indicated a high vole abundance, a high PUUV prevalence in voles and high human incidence for some endemic regions in Germany, but elsewhere values were low to moderate. Regional and local human health institutions need to be aware about the heterogeneous distribution of human PUUV infection risk.
For a better understanding of virus-host associations, two novel cell lines from bank voles and common voles each were generated and their susceptibility and replication capacities for a variety of zoonotic and non-zoonotic viruses were analyzed. The PUUV strain Vranica/Hällnäs showed efficient replication in a new bank vole kidney cell line, but not in four other cell lines of bank and common voles. Vice versa, Tula orthohantavirus (TULV) replicated in the kidney cell line of common voles, but was hampered in its replication in other cell lines. Several viruses, such as Cowpox virus, Vaccinia virus, Rift Valley fever virus, and Encephalomyocarditis virus 1 replicated in all four cell lines. West Nile virus, Usutu virus, Sindbis virus and Tick-borne encephalitis virus replicated only in a part of the cell lines. These results indicate a tissue or species specific tropism for many of the tested viruses and the potential value of vole cell lines to address such questions in detail.
Using one of these new cell lines, the first German PUUV strains were isolated from bank voles caught in the highly endemic region around Osnabrück. Complete genomes were determined by target-enrichment-mediated high-throughput sequencing from original lung tissue, after isolation and after additional passaging in VeroE6 cells and a bank vole-derived kidney cell line. Different single amino acid substitutions were observed in the RdRP of the two stable PUUV isolates. The PUUV strain isolated on VeroE6 cells showed a lower titer when propagated on bank vole cells compared to VeroE6 cells. Additionally, glycoprotein precursor (GPC)-derived virus-like particles of a German PUUV strain from the same region allowed the generation of monoclonal antibodies that reacted with the isolated PUUV strains.
To investigate the role of PUUV and other vole-borne hantavirus NSs proteins, the evolution of the NSs and N encoding sequences was investigated by a field study in bank voles and the NSs sequences were characterized in vitro for their inhibitory effect on the human interferon-β promoter. Analysis of blood and lung samples of 851 bank voles trapped during 2010-2014 in Baden-Wuerttemberg and North Rhine-Westphalia resulted in detection of 27.8% PUUV-specific antibody positive bank voles, whereas in 22.3% PUUV-specific RNA was detected. In the hantavirus outbreak years 2010 and 2012 PUUV prevalence in bank voles was higher compared to 2011, 2013 and 2014. Sequences of the S segment of all positive bank voles showed amino acid and nucleotide sequence types of the NSs-ORF with temporal and/or local variation, whereas the N-ORF was highly conserved. One sequence type persisted over the whole observation period in both regions. The NSs coding sequence was highly divergent among regional bank vole populations in the outbreak year 2012.
Transfection experiments resulted in the detection of different products of the NSs-ORF of PUUV, TULV, Prospect Hill and Khabarovsk orthohantaviruses, due to translation initiation at different methionine codons along the coding sequence. Using luciferase reporter assays, the NSs proteins of PUUV, TULV, Prospect Hill and Khabarovsk orthohantaviruses showed inhibition of IFN-I induction of up to 70%, whereas Sin Nombre and Andes orthohantavirus NSs proteins showed a reduced effect compared to the other NSs proteins. The first 20 amino acids of the N-terminal region of PUUV NSs were found to be crucial for IFN-I promoter inhibition.
In conclusion, the newly established cell lines, antibodies, reporter assays and PUUV isolates are highly valuable tools for future hantavirus research. The activity of PUUV NSs protein in human cells contributes to our understanding of virus-host interactions and highlights the importance of corresponding future reservoir host studies. Hantavirus surveillance studies showed the necessity for timely information of the potential human PUUV infection risk to public health institutions in endemic areas to initiate appropriate actions.
In recent years, negative impact of pharmaceutical products on natural environment became an issue of high public interest. Pharmaceutical residues are detected in various ecosystems worldwide. Due to increasing production and consumption of medicines this problem is intensified. Therefore, an efficient way to restrain release into the world’s water system is required.
This work presents an enzymatic approach for the degradation of pharmaceuticals in wastewater treatment plants, using laccase and cytochrome P450 — two enzymes of high biotechnological and industrial potential. Laccase genes from fungi Trametes versicolor and Pycnoporus cinnabarinus were isolated and overexpressed in the non-conventional yeast Arxula adeninivorans. This organism served also as cytochrome P450 gene donor.
Recombinant laccase Tvlcc5 was purified by immobilized-metal ion affinity chromatography and biochemically characterized using 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) as substrate for enzyme activity assays. The optimal temperature and pH were found to be 50 °C and 4.5–5.5, respectively. The half-life of Tvlcc5 at 60 °C was around 20 min. It was demonstrated that the presence of copper ions is essential for the synthesis of active protein. Moreover, negative impact of chloride anions on laccase activity was shown.
Cultivation conditions for the Tvlcc5 producing strain A. adeninivorans G1212/YRC102-TEF1-TVLCC5-6H were optimized. It was found that maintaining the pH at a constant level between pH 6.0 and 7.0 is essential for the production of active enzyme. Optimal cell growth and laccase accumulation were reached at 20 °C and in medium supplemented with 0.5 mM CuSO4. Performed fed-batch cultivation resulted in a laccase activity of 4986.3 U L-1.
Factors influencing the synthesis of Tvlcc5 leading to increased production of this protein were investigated. It was found that using three non-native signal peptides (cutinase 2 from A. adeninivorans (ACut2), α-mating factor from S. cerevisiae (MFα), and acid phosphatase from P. pastoris (PHO1) signal peptides) enhances the secretion of active enzyme by 20–80%. Besides that, additional overexpression of copper transporters positively affects laccase production.
Finally, it was proven that recombinant Tvlcc5 is a promising agent for the degradation of certain pharmaceuticals. After 24 h of incubation, the concentration of diclofenac and sulfamethoxazole decreased to 46.8% and 51.1%, respectively. Furthermore, it was shown that the addition of the redox mediator ABTS significantly shortens the degradation time of these substances.
The aim of this work was to characterize the distribution of TULV in European common vole populations, to clarify the host association of TULV and to investigate correlations between host population dynamics and changes in TULV prevalence. Furthermore, the potential of common voles as reservoir for other rodent-borne pathogens was examined in comparison to other rodent species.
Molecular and serological analysis of rodents captured at 87 locations in Germany, France, Luxembourg, and Austria revealed TULV infections at 53.6 % of all trapping locations. The seroprevalence in common voles was low with a mean of 8.5 % (range: 0 – 19 %). TULV RNA was more often detected (mean: 15.3 %, range 0 - 37.5 %). Field voles (Microtus agrestis) and water voles (Arvicola amphibius) were less often tested positive for TULV: mean seroprevalence was 7 % for field voles and 6.7 % for water voles. RNA could be detected in 5.4 % of all tested field voles and 3.2 % of water voles and with exception of a single field vole only when TULV-RNA-positive common voles were trapped at the same location. Those results indicate that TULV infections of field and water voles are spillover infections from sympatric TULV-infected common voles. Phylogenetic analysis revealed distinct genetic differences between TULV sequences of regions of greater geographical distance which were associated with different evolutionary common vole lineages. Furthermore, we could detect genetic differences between TULV strains from trapping sites close to each other (ca. 10 km).
In a capture-mark-recapture study 1042 common voles captured in live traps in Germany were sampled as well as 225 captured in snap traps. When analyzing the seroprevalence of fluctuating common vole populations over several years and seasons we found a negative correlation between prevalence and population density in the current season but a delayed density-dependent positive correlation between the current population density and seroprevalence in the next season. However, this trend varied geographically between the four trapping locations. Usually, population density as well as seroprevalence peaked at the end of the reproductive period in autumn with the exception of Weissach (2010-2012), Jeeser (2010) and Gotha (2012) where population peaks in summer were observed.
In a pilot study in Austria common voles were captured as well as three other rodent species. They were investigated not only for presence of different viruses (TULV, Dobrava- Belgrade orthohantavirus (DOBV), Puumala orthohantavirus (PUUV), Lymphocytic choriomeningitis mammarenavirus (LCMV), Cowpox virus (CPXV)) but also pathogenic bacteria and endoparasites (Leptospira spp., Toxoplasma gondii, Borrelia afzelii, Coxiella burnetii, Rickettsia spp. und Bartonella spp.). Of all four captured species, common voles were most often infected with at least one pathogen (66.7 %), followed by wood mice (Apodemus sylvaticus) (57.7 %), bank voles (Myodes glareolus) (35 %) and yellow-necked field mice (Apodemus flavicollis) (34.5 %). Common voles were also exceptionally susceptible to multiple infections: 66.7 % of them were infected with two or three different pathogens, compared to 6.9 % of yellow-necked field mice and 2.5 % of bank voles. No multiple infections could be detected in wood mice.
The broad geographic distribution of TULV in its reservoir host is in contrast to the rare reports of human infection but might be explained with a low pathogenicity for humans or with the low prevalence in host populations. In addition, the rare detection of human TULV infections could be a result of the used diagnostic methods. Since the reservoir population is known for its dramatic changes in population density and recurring superabundances which facilitates frequent contact to humans, TULV should more often be considered as cause for human disease in future analysis. In
addition, several other zoonotic pathogens could be detected in common voles which could influence TULV infections in the reservoir host but also TULV transmission to humans and therefore deserve more attention in future research.
This thesis will discuss the different fields of application of the two soft ionization techniques ESI and MALDI in microbial proteomics and their importance for a better understanding of bacteria physiology. The general development in the past 25 years coming from 2D-gel analysis and protein identification by peptide mass fingerprint analysis via MALDI-TOF to genome wide quantitative LC-ESI-MS experiments with fast and sensitive ESI instruments is exemplary shown for the Gram-positive bacterium Bacillus subtilis in article I. Even though 2D-PAGE in conjunction with MALDI-MS is still an important tool in proteomic research, the more recently established global quantitative LC-ESI-MS workflows gain more and more relevance as they overcome 2D-PAGE based protein restrictions and enable the acquisition of higher accurate protein quantities. In article II such a workflow was used to analyze the physiological adaptation of Staphylococcus aureus to vancomycin treatment on a global-scale. Also post-translational modifications of proteins, that are important for regulation of their activity and allow rapid adaption to changed environmental conditions, could be analyzed by LC-ESI-MS workflows using special enrichment strategies (article III and IV). Despite the mentioned discrimination and less accurate quantification of proteins, 2D-PAGE analyses are still advantageous when analyzing large-scale time series experiments. To gain highly time resolved data but also very accurate relative quantities on a global-scale, 2D-PAGE-MALDI-MS and LC-ESI-MS techniques have been combined to investigate dynamic proteome adaptations of B. subtilis during nutrition shift as part of a global systems biology approach (article V). Also absolute quantities of proteins are of high interest for systems biology, but are still challenging to obtain on large-scale as well as with sufficient accuracy. In article VI a method that again combined 2D-PAGE-MALDI-MS and LC-ESI-MS was introduced to gain absolute protein quantities on global-scale. Utilizing the complementarity of 2D-PAGE and LC-ESI-MS this new workflow enabled fast and cost efficient data acquisition on absolute scale. In article VII we described for the first time a global quantitative LC-MALDI-MS workflow. Cross validation with an LTQ Orbitrap proofed that LC-MALDI-MS is able to process complex samples and obtain highly reliable quantities. The comparative analysis of data gained with both instrument types revealed biases for certain biochemical properties of MALDI as well as ESI instruments, resulting in a general complementarity of both ionization techniques. Article I Becher, D., Büttner, K., Moche, M., Hessling, B., Hecker, M., 2011. From the genome sequence to the protein inventory of Bacillus subtilis. Proteomics 11, 2971–2980. Article II Hessling,B., Bonn,F., Herbst,F.-A., Rappen,G.-M., Bernhardt,J., Hecker,M. and Becher,D. Global proteome analysis of vancomycin stress in Staphylococcus aureus. Submitted to Mol. Cell Proteomics. Article III Elsholz, A.K.W., Turgay, K., Michalik, S., Hessling, B., Gronau, K., Oertel, D., Mäder, U., Bernhardt, J., Becher, D., Hecker, M., Gerth, U., 2012. Global impact of protein arginine phosphorylation on the physiology of Bacillus subtilis. Proc. Natl. Acad. Sci. U.S.A. 109, 7451–7456. Article IV Chi, B.K., Gronau, K., Mäder, U., Hessling, B., Becher, D., Antelmann, H., 2011. S-bacillithiolation protects against hypochlorite stress in Bacillus subtilis as revealed by transcriptomics and redox proteomics. Mol. Cell Proteomics 10, M111.009506. Article V Buescher,J.M., Liebermeister,W., Jules,M., Uhr,M., Muntel,J., Botella,E., Hessling,B., Kleijn,R.J., Le Chat,L., Lecointe,F., et al. (2012) Global network reorganization during dynamic adaptations of Bacillus subtilis metabolism. Science, 335, 1099–1103. Article VI Maass, S., Sievers, S., Zühlke, D., Kuzinski, J., Sappa, P.K., Muntel, J., Hessling, B., Bernhardt, J., Sietmann, R., Völker, U., Hecker, M., Becher, D., 2011. Efficient, global-scale quantification of absolute protein amounts by integration of targeted mass spectrometry and two-dimensional gel-based proteomics. Anal. Chem. 83, 2677–2684. Article VII Hessling,B., Büttner,K., Hecker,M. and Becher,D. Global relative quantification with LC-MALDI – cross-validation with LTQ-Orbitrap proves reliability and reveals complementary ionization preferences. Submitted to Mol. Cell Proteomics.
The thyroid gland is of crucial importance in human metabolism. Its main secretion products, L-thyroxine (T4) and 3,3’,5-triiodo-L-thyronine (T3), are essential for proper development of multiple tissues and organs as well as for their functioning in the adult organism. The secretion of thyroid hormones (TH) is stimulated by thyrotropin (TSH) released from the pituitary gland. This tight connection between both hormones is of crucial importance for the clinical diagnosis of thyroid dysfunction. During the last two decades the concept of TH action developed to increased complexity. However, most of the recent advances in the field of TH research are based either on cell culture, tissue or animal models or stem from studies investigating specific hypotheses in humans. Thus, experimental approaches for the comprehensive, hypothesis-free characterization of metabolic effects of classical and non-classical TH in human are urgently needed. This holds true in particular for the TH derivative 3,5-diiodothyronine (3,5-T2). It was described to alleviate the typical detrimental metabolic consequences of a high-fat diet and even reversed hepatic steatosis. To replicate these experimental findings from rodents in humans, comprehensive data from the population-based Study of Health in Pomerania (SHIP) was analyzed in the present work. Based on a euthyroid, diabetes-free SHIP-subsample (N=761), non-linear associations between the serum concentrations of 3,5-T2 and glucose as well as TSH were detected. In contrast, no significant 3,5-T2 associations with several anthropometric markers or blood lipid parameters were observed, partially questioning the transferability of the beneficial metabolic 3,5-T2 effects reported for pharmacological intervention studies on rodents to humans. Recent advances in technological development now allow for the use of high-throughput spectrometric platforms to characterize the small molecule content (metabolome) of blood and urine samples. The detected metabolome constituents can be associated with any relevant parameters of interest, thereby extending the scope of classical association studies. Therefore, in the second part of the present thesis, the metabolic fingerprints of FT4, TSH as well as the ratio log(TSH)/FT4 as markers of thyroid function were profiled. Strong differences between the metabolic fingerprints of FT4 and TSH were observed, partially alleviated by the log(TSH)/FT4 ratio. These findings not only emphasize the high diagnostic value of the combined evaluation of TSH and FT4 in the assessment of thyroid function but additionally argue for a holistic approach in the diagnosis of thyroid function. More moderate endogenous effects of 3,5-T2 were evaluated by comparing its urinary metabolic fingerprint with that of the classical TH. A number of associations became apparent, indicating a function of endogenous 3,5-T2 in intermediary metabolism. Besides partially confirming associations with respect to the presented findings in animal studies, the strongest 3,5-T2-association was observed with trigonelline, a metabolite described earlier to exhibit similar beneficial effects as 3,5-T2 on glucose metabolism when used as a pharmacological agent in animal studies. An association towards hippurate indicated a partial overlap with the metabolic profile of TSH and hence consolidated results from the first two projects in the sense of a thyromimetic role of 3,5-T2 in the feedback regulation of TH. The diagnosis of thyroid disorders based on the classical markers TSH and FT4 suffers from restricted sensitivity in the subclinical range as both parameters have broad reference ranges in the general population. Therefore, in an approach to detect novel peripheral biomarkers of thyroid function, sixteen healthy young men were challenged with 250 µg of levothyroxine (L-T4) over a period of eight weeks in the fourth project presented here as part of this thesis. Monitoring of the volunteers over a period of sixteen weeks allowed delineation of the metabolic shifts first towards thyrotoxicosis and later in the context of the restoration of euthyroidism. The use of mass spectrometry for the comprehensive characterization of the metabolite as well as the protein content of samples taken at the different time points revealed profound molecular alterations, despite the lack of any clinical symptoms in the volunteers. Molecular signatures of thyrotoxicosis indicated increased energy expenditure, pronounced defense against systemic oxidative stress, a general drop in apolipoproteins, as well as increased abundances of proteins related to the coagulation cascade and the complement system. Good and robust classification of the thyroid state independent of TSH and FT4 was achieved using random forest analysis with a subset of fifteen metabolites and proteins, indicating new options in the individualized diagnosis of thyroid disorders.
Type I interferonopathies cover a phenotypically heterogeneous group of rare genetic diseases including the recently described proteasome-associated autoinflammatory syndromes (PRAAS). By definition, PRAAS are caused by inherited and/or de novo loss-of-function mutations in genes encoding proteasome subunits such as PSMB8, PSMB9, PSMB7, PSMA3, or proteasome assembly factors including POMP and PSMG2, respectively. Disruption of any of these subunits results in perturbed intracellular protein homeostasis including accumulation of ubiquitinated proteins which is accompanied by a type I interferon (IFN) signature. The observation that, similarly to pathogens, proteasome dysfunctions are potent type I IFN inducers is quite unexpected and, up to now, the underlying molecular mechanisms of this process remain largely unknown. One promising candidate for triggering type I IFN under sterile conditions is the unfolded protein response (UPR) which is typically initiated in response to an accumulation of unfolded and/or misfolded proteins in the endoplasmic reticulum (ER) (also referred to as ER stress). The recent observation that the UPR is engaged in subjects carrying POMP mutations strongly suggests its possible implication in the cause-and-effect relationship between proteasome impairment and interferonopathy onset. The purpose of this present review is therefore to discuss the possible role of the UPR in the pathogenesis of PRAAS. We will particularly focus on pathways initiated by the four ER-membrane proteins ATF6, PERK, IRE1-α, and TCF11/Nrf1 which undergo activation under proteasome inhibition. An overview of the current understanding of the mechanisms and potential cross-talk between the UPR and inflammatory signaling casacades is provided to convey a more integrated picture of the pathophysiology of PRAAS and shed light on potential biomarkers and therapeutic targets.