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Protamine (PRT) is a positively charged protein, which is widely used in medicine as an adjunct to certain preparations of insulin and as a rapidly-acting antidote for heparin, particularly to neutralize the effects of high heparin concentrations needed for anticoagulation during cardiac surgical procedures using cardiopulmonary bypass. It has been demonstrated that PRT and heparin form multimolecular complexes and that these complexes have high immunogenicity in a mouse model. Studies in this thesis provide new insights into the pathophysiology of anti-PRT/heparin antibodies. The results of study I showed that the administration of PRT combined with heparin is responsible for high immunoglobulin G (IgG) immunization after cardiac surgery. A subset of these antibodies was able to induce platelet activation in a way similar to that observed by heparin-induced thrombocytopenia (HIT). Using an animal model, we demonstrated that anti-PRT/heparin antibodies are capable of platelet destruction in the presence of PRT and heparin. Moreover, our data suggests that platelet-activating anti-PRT/heparin antibodies at surgery are potentially associated with postoperative thrombocytopenia and an increased risk for thromboembolic events. In study II, the immune response against PRT/heparin complexes was investigated. This study showed a relatively fast development of IgG with no general preceding IgM formation. In addition, patients undergoing liver transplantation developed anti-PRT/heparin antibodies without previous exposure to PRT. These results suggest that a previous contact with the antigen(s) itself or other antigens with molecular mimicry induced this immune response. In fact, we were able to identify Neutral Protamine Hagedorn (NPH) insulin and core histones (DNA-binding proteins) as potentially antigenic candidates for a previous immunization. Furthermore, the findings of study III demonstrate the ability of anti-PRT/heparin antibodies to activate platelets in the presence of NPH insulin in a heparin-dependent way suggesting that diabetic patients may have an enhanced risk for thromboembolic complications if treated with NPH insulin and possibly while receiving prophylactic heparin. These observations justify further clinical investigations to assess the impact of the interaction between anti-PRT/heparin antibodies and PRT-mimicking antigens, such as NPH insulin or histones.
This thesis deals with thickness optimization of shells. The overall task is to find an optimal thickness distribution in order to minimize the deformation of a loaded shell with prescribed volume. In addition, lower and upper bounds for the thickness are given. The shell is made of elastic, isotropic, homogeneous material. The deformation is modeled using equations from Linear Elasticity. Here, a basic shell model based on the Reissner-Mindlin assumption is used. Both the stationary and the dynamic case are considered. The continuity and the Gâteaux-differentiability of the control-to-state operator is investigated. These results are applied to the reduced objective with help of adjoint theory. In addition, techniques from shape optimization are compared to the optimal control approach. In the following, the theoretical results are applied to cylindrical shells and an efficient numerical implementation is presented. Finally, numerical results are shown and analyzed for different examples.
This thesis draws a comprehensive picture about the radiation and diversification of truncatelloidean gastropods across the south pacific. It covers three more specifc studies focussing on the Truncelloideans from Fiji, Vanuatu and New Caledonia, respectively. And a conclusive analysis that combines the results of the three more specific studies and enhances them using species from the Austral Islands, Lord Howe Island, the Indonesian island Sulawesi as well as several species from New Zealand and Australia. Molecular phylogenies were calculated using four nuclear gene fragments (ITS2; 18S rRNA; 28S rRNA and Histone 3) besides the mitochondrial COI and 16S rRNA. Further molecuular data was used to calculate dated phylogenies, perform ancestral range reconstructions and develop a modified molecular barcoding approach.
All types of muscles use Ca2+ as their main intracellular messenger. In skeletal muscle fibers abnormal levels of intracellular calcium result in altered contractile properties, altered energy metabolism, and altered gene expression. Moreover, long term failure of normal Ca2+ homeostasis can lead to cell death of muscle fibers by necrosis and apoptosis. Elevations of intracellular Ca2+ levels are more and more regarded as the reason for pathological changes and muscle fiber damage in Duchenne Muscular Dystrophy (DMD). DMD is a severe recessive x-linked muscle disease caused by mutations in the dystrophin gene. The characteristics of DMD are muscle tissue wasting and fibrosis. Both muscle wasting and intracellular Ca2+ are to be reflected in changes of muscle force. Several Ca2+ conducting channels including transient receptor potential (TRP) channels are supposed to account for the abnormal Ca2+ homeostasis in DMD. Gene expressions of TRP channels have been studied in human and mouse skeletal muscle and among others TRPC3, TRPC6 and TRPV4 channels were found to occur in skeletal muscles. The present study followed the hypothesis that TRPC3, TRPC6 and TRPV4 are functional in skeletal muscle fibers and that they contribute to muscular Ca2+ homeostasis. Further, it was assumed that dysfunction of the mentioned TRP channels contributes to abnormal contractile properties and pathology and of dystrophin-deficient muscle. To study Ca2+ changes in mouse skeletal muscle fibers the fluorescent calcium indicator Fura-2 was used. Further, the technique of Mn2+ quench of Fura-2 fluorescence was applied. Muscle force measurements of mouse soleus and diaphragm strips were performed. To elucidate abnormalities of TRP channel function in dystrophin-deficient muscle, muscles and muscle fibers of mdx mice were studied. Hyperforin, an activator of TRPC6 channels elicited increases of calcium levels in wildtype muscle fibers. These increases were partly inhibited by the TRPC6 inhibitor 1-(5-chloronaphthalenesulfonyl) homopiperazine hydrochloride (ML-9). The TRPC3/TPRC6 activator 1-oleoyl-2-acetyl-sn-glycerol (OAG) resulted in increased calcium entry, which was attenuated by ML-9. 2-aminoethoxydiphenylborane (2-APB), an unspecific TRP channel inhibitor, suppressed calcium entry in muscle fibers under basal conditions. In addition, the specific TRPC3 inhibitor Pyr3, strongly inhibited background calcium entry. The TRPV4 activator 4α-phorbol 12,13-didecanoate (4α-PDD) induced significant increased calcium entry and this increase could be inhibited by the TRPV4 inhibitor HC 067047. During muscle force recordings ML-9 significantly inhibited twitches and tetani and accelerated muscle fatigue during sustained repetitive stimulation. The results indicate that TRPC3, TRPC6 and TRPV4 are functionally expressed in mouse muscle fibers. TRPC3 stays active under the basal conditions and contributes to background calcium entry. In contrast, TRPC6 and TRPV4 did not seem to be active at resting conditions, but could be pharmacologically activated. TRPC6 may play a role to counteract the calcium loss under long-term muscle fatigue. Though TRPC3 and C6 play a role for muscular Ca2+ homeostasis, it is unclear whether and how the two channels associate and cross-talk with each other in skeletal muscle cells. In mdx fibers Pyr3 inhibited background calcium influx stronger that in WT fibers, implying a possible over-activation of TRPC3 channels in mdx muscle fibers. At later stages mdx muscle showed marked decrease in force reflecting muscle wasting. Soleus showed moderate decrease and diaphragm showed severe decrease (more than 60%) in force. Resistance to muscle fatigue was shown in mdx soleus muscle when compared with WT soleus muscle. Diaphragm segments of mdx mice showed very strong resistance to muscle fatigue. The results indicate a substantial loss of muscle mass, an increase in oxidative fiber types and a reduction of fast fatigable muscle fibers. It is concluded that the hypothesis of functional expression of TRPC3, TRPC6 and TRPV4 in mouse skeletal muscle has been confirmed. The results give improved knowledge about the relation of Ca2+ homeostasis, mdx pathology and TRP channels. Diaphragms of old mdx mice show severe muscle weakness but the remaining fibers of the diaphragm showed strong fatigue-resistance. The application of a TRPC3 inhibitor may be a promising treatment to prevent high Ca2+ mediated muscle damage in muscular dystrophy.
Interactions between bacteria and the human body are manifold and happen constantly. Most parts of the skin and gastrointestinal tract, the saliva, the oral mucosa, the conjunctiva and the vaginal mucosa are colonized with a multitude of bacterial species forming the human microbiota. Strikingly, the estimated amount of bacterial cells outnumbers the human body by 10 to 1. However, most of these bacteria colonize the human body without positive or negative effects and are regarded as commensals. Staphylococcus aureus a Gram positive bacterium is such a commensal bacterium of 25 % to 30 % of the world population. It is also an opportunistic pathogen and is able to cause infections in the lung, skin and heart and to induce sepsis. Its pathogenicity is mainly facilitated by the secretion of a broad spectrum of virulence factors which interact with the host. Some are distracting the immune system, others are targeting the host cell membrane or degrade macromolecular structures of the host in order to provide nutrients. Furthermore S. aureus is able to invade the host cell and to survive and replicate in the host cell cytosol or other compartments. The Gram negative proteobacterium Burkholderia pseudomallei is an environmental bacterium but still has the ability to enter the human body via body orifices or skin wounds. In a very efficient way it penetrates the host cell, replicates intracellular and the uses host structures to spread from cell to cell thereby causing the disease melioidosis often with fatal outcomes. Since the natural habitats of B. pseudomallei are wet soils, the change to the environment in the human body is drastic and requires a high degree of flexibility of the bacterium. Environmental stress conditions such as temperature, pH, nutrient limitation or presence of antibiotics induce a switch of colony morphology which is a special characteristic of this bacterium. Since it is assumed, that changes in colony morphology are connected to adaptive processes to the environmental changes, these morphology switches might also be important during infection. The host organism and the host cell on the other side try to kill and remove the bacterial threat by activating the immune system and cellular defence mechanisms. This includes generation of reactive oxygen and nitrogen species, production of antimicrobial peptides and cellular processes such as phagocytosis, autophagy, apoptosis and activation of the immune response. The actions and reactions on both, the pathogen side and the host side, are summarized as host-pathogen interactions. In the field of functional genomics, methods were developed to understand various levels of host-pathogen interactions. The holistic analysis of the mRNA (the transcriptome) or translated proteins (the proteome) were already very useful tools to describe important cellular processes on the host and the pathogen site. The level of metabolites with regard to host-pathogen interactions however, has been neglected so far. In this dissertation the metabolic composition in the intracellular and extracellular space of the host and the pathogen was analyzed. For this matter biochemical analytical tools were used such as 1H-nuclear magnetic resonance spectroscopy and chromatographic methods (GC and HPLC) coupled to mass spectrometry. The combination of these methods allows a broad coverage of physicochemical diverse metabolites. In accordance to the above mentioned biological levels like mRNA and proteins, the sum of all metabolites is referred as the metabolome. Consequently to transcriptomics and proteomics the analysis of the metabolome is referred as metabolomics. To gain insights into the infection relevant metabolome of the host-pathogen relationship between S. aureus and human lung cells several approaches were developed. First the distribution of the recently identified bacillithiol in different S. aureus strains was investigated with regard to its role during the infection. For that matter a HPLC-methodology was used with fluorescence based detection of labelled low molecular weight thiols (article I: Distribution and infection-related functions of bacillithiol in Staphylococcus aureus). After that the next aim was to reveal the effect of S. aureus on the host cell metabolism. To reduce the complexity of effects on the host cells an artificial model was chosen in a first approach. The lung cells were treated with the staphylococcal virulence factor alpha-hemolysin, a pore forming toxin and a holistic metabolomics approach was performed (article II: Staphylococcus aureus Alpha-Toxin Mediates General and Cell Type-Specific Changes in Metabolite Concentrations of Immortalized Human Airway Epithelial Cells). Using this approach, a protocol for cell culture metabolomics was established and first changes in the host cell metabolome that could be caused by S. aureus were described. However, this only describes specific changes caused by one single virulence factor and does not necessarily describes the reality during a S. aureus infection. Therefore in a next approach, an infection model using a human lung epithelial cell line and the S. aureus strain USA300 was established and used for metabolome analysis. Furthermore a combination of inhibitor treatment and metabolic labelling was used to clarify the metabolic activity in the host cell after exposure to S. aureus (article III: Metabolic features of a human airway epithelial cell line infected with Staphylococcus aureus revealed by a metabolomics approach). Finally this thesis deals with the host-pathogen interaction of B. pseudomallei and its host with a focus on the role of the switch in colony morphology in basic metabolism. Various morphotypes of two strains were generated by nutrient limitation and their uptake of nutrients was monitored. Furthermore the morphotypes were used in in vitro and in vivo infections and subsequently isolated out of the cell line and mice respectively. After isolation, the colony morphology was determined and again the nutrient uptake profile was monitored (article IV: Burkholderia pseudomallei morphotypes show a synchronized metabolic pattern after acute infection). The information provided by this thesis adds a new complexity to the knowledge about the host-pathogen interactions of S. aureus and B. pseudomallei and their hosts. It furthermore lays the groundwork for future studies, which will deal with these and other bacterial host-pathogen interactions in order to understand the interdependencies of infection and metabolism.
Comprehensive study of the discharge mode transition in inductively coupled radio frequency plasmas
(2016)
In this contribution, the mode transition of an inductively coupled radio frequency plasma at low pressure is investigated. Therefore, a comprehensive set of plasma diagnostics were applied to determine plasma and processing parameters. Therewith, the plasma kinetics and especially the important elementary processes were studied. Hence, the reason for the mode transition was identified.
Staphylococcus aureus is present in around a third of the human population as a constant commensal in the anterior nares, in a third as an intermittent commensal, and a third are non-carriers. However, S. aureus is also a dangerous pathogen, responsible for many types of infections. Recently, the emerging of methicillin-resistant S. aureus strains has aggravated the health problem. Treating infections caused by the invasive strains has become ineffective with conventional antibiotics. Noticeably, transmission of S. aureus has occurred not only in healthcare settings but also in the community; furthermore, transmission between humans and domestic animals has been reported. Although studies about host-pathogen interactions of S. aureus have advanced our knowledge in the last decades, we still have not fully understood mechanisms of the immune system in responses to S. aureus. The aim of this study is to unravel interactions of the human adaptive immune system to selected S. aureus virulence factors. In particular, the study focuses on two aspects: the reaction of human antibodies to the bacterial extracellular proteins in S. aureus-induced furunculosis with an emphasis on Panton-Valentine Leukocidin and responses of the adaptive immune system to membrane-bound lipoproteins of S. aureus. Furunculosis is a variety of hair follicle infection in which S. aureus is one of the chief causal pathogens involved. The corresponding bacterial strains are generally capable of producing of a pore-forming toxin, known as Panton-Valentine Leukocidin (PVL). Recently, the emerging of pvl-positive methicillin-resistant S. aureus has become a problem for treating the bacterially caused furuncles. Colonization with the bacteria is a risk factor for development of chronic or recurrent boils. It is not yet known why furunculosis patients are largely infants or young adults. In this context, we untangled the responses of antibody IgG antibodies to S. aureus extra-cellular factors, notably the PVL toxin, in families in which the patients were children. Multiplex PCR demonstrated that S. aureus clones, isolated from the patients’ wounds but also from the nares of family members, harbored genes coding for PVL toxin. Spa-typing highlighted that bacterial genotypes were very similar in each family. This suggests that transmission of pvl-positive S. aureus took place between family members. The finding also raises the question why only the young patients but not family members who were colonized by the same S. aureus clones suffered from furunculosis. 2D immune proteomics procedures showed a tendency of higher IgG titers against bacterial virulence factors in family healthy members than in patients. PVL-specific antibodies were measured using ELISA, in which patients’ PVL-specific IgG titers were low. This supports the idea that antibodies, probably in conjunction with T cells, might contribute to clinical protection in furunculosis. This research will serve as a foundation for future studies, in which our results should be validated in a larger cohort. Among S. aureus’ virulence factors are lipoproteins, which are anchored in the bacterial cell membrane. Lipoproteins perform various functions in colonization, immune evasion, and immunomodulation. These proteins are potent activators of the complex of innate immune receptors termed Toll-like receptors (TLR) 2 and 6. This study addressed the specific B-cell and T-cell responses to lipoproteins in human S. aureus carriers and non-carriers. 2D immune proteomics and ELISA approaches revealed that titers of serum antibody (IgG) binding to the S. aureus lipoproteins were very low or even unmeasurable in healthy individuals except for the lipoprotein SaeP. Only patients with cystic fibrosis or epidermolysis bullosa who were heavily exposed to the bacteria, generated an antibody response also to lipoproteins. Proliferation assays and cytokine profiling data showed only subtle responses of T cells in healthy individuals; three out of eight tested lipoproteins did not elicit proliferation. Hence, the robust activation of the innate immune system by S. aureus lipoproteins does not translate into a strong adaptive immune response. Reasons for this may be inaccessibility of lipoproteins for B cells as well as ineffective processing and presentation of the antigens to T cells. The main findings implicate that family members can serve as S. aureus reservoirs causing recurrent furunculosis in young patients and that antibodies may provide partial protection from such infections by S. aureus. We have found that, different from proteins that are secreted by S. aureus, lipoproteins which anchored in the bacterial cell membrane, do not trigger strong responses from the human adaptive immune system. This suggests that these proteins remain mostly hidden in the bacterial cell-wall.
Psychiatric disorders are highly heritable. But the underlying molecular mechanisms are largely unknown or not understood. For many disorders, candidate genes have been proposed which are biologically driven or based on large GWAS studies. In this work different approaches were shown to investigate the impact of genetic risk factors for major psychiatric disorders in the general population. These genetic risk variants include single nucleotide polymorphisms associated with schizophrenia or major depression and were analyzed using the whole-genome information in polygenic scores or candidate marker analysis in GxE studies. Genetic data from SHIP-0 and SHIP-TREND have been used to calculate a polygenic risk score for schizophrenia. Here, the association between this genetic score and brain alterations is shown in three independent samples (SHIP-2, SHIP-TREND and BIG) which revealed no hint of a common genetic basis for schizophrenia and brain structure. These results are in line with other studies that also failed to find a genetic overlap. The same polygenic scores had been used in a PHEWAS analysis in SHIP-0 where an inverse association to migraine was found. This association could be attributed to the NMDA receptor activation via D-serine at the glutamatergic synapse. To assess the impact of environmental factors on the path from genes to phenotype, gene-environment interactions were applied. A significant interaction could be observed between rs7305115 (TPH2) and rs25531 (5-HTTLPR) and childhood abuse on current depression score in SHIP-LEGEND and SHIP-TREND. In summary, genetic variants associated with major psychiatric disorders can exhibit pleiotropic effects on common phenotypes in the general population.
The history of Mathematics has been lead in part by the desire for generalization: once an object was given and had been understood, there was the desire to find a more general version of it, to fit it into a broader framework. Noncommutative Mathematics fits into this description, as its interests are objects analoguous to vector spaces, or probability spaces, etc., but without the commonsense interpretation that those latter objects possess. Indeed, a space can be described by its points, but also and equivalently, by the set of functions on this space. This set is actually a commutative algebra, sometimes equipped with some more structure: *-algebra, C*-algebra, von Neumann algebras, Hopf algebras, etc. The idea that lies at the basis of noncommutative Mathematics is to replace such algebras by algebras that are not necessarily commutative any more and to interpret them as "algebras of functions on noncommutative spaces". Of course, these spaces do not exist independently from their defining algebras, but facts show that a lot of the results holding in (classical) probability or (classical) group theory can be extended to their noncommutative counterparts, or find therein powerful analogues. The extensions of group theory into the realm of noncommutative Mathematics has long been studied and has yielded the various quantum groups. The easiest version of them, the compact quantum groups, consist of C*-algebras equipped with a *-homomorphism &Delta with values in the tensor product of the algebra with itself and verifying some coassociativity condition. It is also required that the compact quantum group verifies what is known as quantum cancellation property. It can be shown that (classical) compact groups are indeed a particular case of compact quantum groups. The area of compact quantum groups, and of quantum groups at large, is a fruitful area of research. Nevertheless, another generalization of group theory could be envisioned, namely by taking a comultiplication &Delta taking values not in the tensor product but rather in the free product (in the category of unital *-algebras). This leads to the theory of dual groups in the sense of Voiculescu, also called H-algebras by Zhang. These objects have not been so thoroughly studied as their quantum counterparts. It is true that they are not so flexible and that we therefore do not know many examples of them and showing that some relations cannot exist in the dual group case because they do not pass the coproduct. Nevertheless, I have been interested during a great part of my PhD work by these objects and I have made some progress towards their understanding, especially regarding quantum Lévy processes defined on them and Haar states.
Destination Image, Tourist Satisfaction and Destination Loyalty: A Case Study of Hue, Vietnam
(2016)
Several studies have confirmed the interrelationship among destination image, tourist satisfaction and destination loyalty, in which destination image and tourist satisfaction are believed to have great influences on the destination loyalty of tourists. Located in the central region of Vietnam, Hue holds great potential for tourism development and this destination has also obtained numerous significant tourism achievements over recent years.Nevertheless, there are still a lot of issues needed to be addressed by the destination managers in order to make Hue gain a better position and higher level of destination loyalty in the tourism market, in which successfully communicating an attractive destination image to the tourists and improving their satisfaction are the most important tasks. In fact, there exist very few researches concerning destination image, tourist satisfaction or even destination loyalty which have been done in Hue. Moreover, most of these studies are in very small scale and they only examine either the destination image or the tourist satisfaction or the destination loyalty independently. This paper, therefore, aims to deliver the first and comprehensive theoretical and empirical analysis of destination image, tourist satisfaction and destination loyalty as well as the causal relationship among them in the context of Hue. In this study, a destination loyalty research model was proposed and hypotheses were derived. The empirical data base on two tourist surveys with a total number of 2042 questionnaires collected in Hue in 2013 and 2014. In addition, ten experts were interviewed in different periods during the study. The results find that the tourists’ perceptions on the destination image of Hue are quite positive and the positive level is higher for those who completely have no earlier experience in Hue. It is also discovered that the destination is offering tourists with a pretty satisfactory experience, not as high as their initial expectations, but acceptable with positive ratings received from the tourists. However, if the destination is able to better communicate a positive image to tourists and improves the quality of its offers and services, the tourists’ satisfaction will be increased and thus the destination loyalty will also be enhanced. This finding supports the proposed destination loyalty model: (1) destination image directly influences attribute-satisfaction; (2) destination image and attribute-satisfaction are both direct influences of overall-satisfaction; and (3) overall-satisfaction in turn has a direct and positive impact on destination loyalty. The findings also confirm that attribute-satisfaction and destination image are also the direct influences of destination loyalty. Furthermore, the results add to the proposed loyalty model a new relationship: Destination image is influenced strongly by tourist overall-satisfaction and attribute-satisfaction. The outcomes of this research are expected to be used as a valuable reference for the local policy-makers, governmental agencies, tourism companies and other relevant stakeholders. Also, important theoretical and managerial implications are drawn based on the study findings and the recommendations for future researchers are made from the limitations and scopes of the study.