Open Access

Abstract Background: Behavior management techniques (BMT) are essential in order to achieve a successful dental treatment with a minimum amount of stress in paediatric dentistry, but parents are not equally accepting different advanced BMT. Purpose: To investigate the differences in parental acceptance of advanced behavior management techniques between University of Greifswald/Germany and Jordan University/Jordan. Methods: Parents of the children treated in the pedodontic departments at the University of Greifswald/Germany and Jordan University/Jordan rated their acceptance level of four advanced behavior management techniques (passive restraint, active restraint, nitrous oxide sedation and general anesthesia) for normal treatment, and for urgent treatment using a five points Likert scale. 200 parents (100 in each university) completed the questionnaire forms for analysis. Results: Nitrous oxide sedation was rated the most accepted technique in Greifswald and Jordan (mean 3.78±1.34; 3.22±1.50, respectively). The least acceptable technique in Greifswald was passive restraint (2.05±1.18) and in Jordan general anesthesia (2.11±1.30). The parents in Greifswald are significantly more accepting nitrous oxide sedation than parents in Jordan (p=0.010), while parents in Jordan are significantly more willing to accept passive restraint (p=0.001). The acceptance of all advanced behavior management techniques increased significantly in both groups when the treatment is urgent (p≤0.05), Conclusions: Parental culture and the urgency of the treatment affect the acceptance to different behavior management techniques. Moreover, the parental attitude to the pharmacological technique has changed, as nitrous oxide sedation generally appears to be the most preferred advanced technique in both groups.

Streptococcus pneumoniae (pneumococci) and Staphylococcus aureus (S. aureus) are human-specific commensals of the upper respiratory tract. Every individual is asymptomatically colonized with both bacteria at least once in their life-time. The opportunistic pathogens can affect further organs and invade into deeper tissue. The occupation of normally sterile niches of the human body with the bacteria can lead to local infections such as sinusitis, otitis media and abscesses, or to life-threatening diseases like pneumonia, meningitis or sepsis. A strong interaction between the bacterium and the respiratory epithelial cells is a prerequisite for a successful colonization. This interaction is ensured by bacterial surface proteins, so called adhesins. The binding of the adhesins to the epithelial lineage occurs predominantly indirectly via components of the extracellular matrix (ECM), but also directly to cellular receptors. Pneumococci and S. aureus bind to various ECM glycoproteins, amongst others: fibronectin, fibrinogen, vitronectin, and collagen. Also binding of both pathogens to human thrombospondin-1 has been described. Thrombospondin-1 is mainly stored in the α-granula of thrombocytes (platelets) and released into the circulation upon activation. However, thrombospondin-1 is also produced and secreted by other cell types like endothelial cells, macrophages, and fibroblasts, which gets subsequently incorporated as component into the ECM. So far, no thrombosponin-1-binding adhesins of pneumococci were identified. PspC, Hic, and PavB are important surface-localized virulence factors, which were shown to interact with human ECM and plasma proteins. PspC and Hic bind to vitronectin and factor H, which inhibits the complement cascade of the human immune system. PavB interacts with fibronectin and plasminogen, and a pavB-deficient mutant of S. pneumoniae showed diminished capacity in colonization in a mouse model. Among the surface proteins of S. aureus, only Eap was identified as thrombospondin-1-binding adhesin. Beyond colonization, pneumococci and S. aureus can enter the blood circulation, interact with platelets, and cause their activation. The aggregation of platelets, especially initiated by S. aureus, plays an important role in the clinic, because most of the septic patients develop thrombocytopenia. Surface localized factors of S. pneumoniae triggering platelet activation are unknown to date. In contrast, few proteins of S. aureus with potential to activate platelets, including Eap, were identified previously. This study identified the surface proteins PavB, PspC, and Hic of S. pneumoniae as specific ligands of the human thrombospondin-1. Flow cytometric, surface plasmon resonance spectroscopic and immunological analyses revealed interactions between the pneumococcal proteins and soluble as well as immobilized thrombospondin-1. The use of specific pneumococcal deletion mutants verified the importance of the three virulence factors as binding partners of soluble thrombospondin-1. The results suggest that pneumococci are capable of acquiring soluble thrombospondin-1 from blood as well as utilizing immobilized glycoprotein of the ECM as substrate for adhesion. Furthermore, the thrombospondin-1-binding domain within the pneumococcal proteins was analyzed by use of recombinant fragments of PavB, PspC, and Hic. The binding capacity of thrombospondin-1 increased proportionally with the amount of repetitive sequences in PavB and PspC, and the length of the α-helical region within the Hic molecule. The binding behavior of thrombospondin-1 towards PavB and PspC is comparable with that of the ECM proteins vitronectin and fibronectin, but is unique towards Hic. The localization of the binding domain of the adhesins within the thrompospondin-1 molecule occurred via use of glycosaminoglycans as competitive inhibitors for the interaction. The results suggest that the pneumococcal proteins Hic and PspC target the identical binding region within thrombospondin-1, which differs from the binding domain for PavB. However, all three virulence factors seem to bind in the N-terminal part of thrombospondin-1. Two-dimensional gel electrophoresis, thrombospondin-1 overlay assay and subsequent mass spectrometric analysis identified AtlA of S. aureus as a surface localized interaction partner of human thrombospondin-1. Moreover, a vitronectin binding activity for AtlA was determined. Immunological and surface plasmon resonance binding studies with recombinant AtlA fragments revealed that interactions with both matrix proteins is mediated via the C-terminal located repeats R1R2 of the AtlA amidase domain. Binding of thrombospondin-1 and vitronectin occurred not simultaneously, due to a competitive inhibition. The second part of the study focused on the activation of human platelets by recombinant pneumococcal and staphylococcal proteins. In total, 28 proteins of S. pneumoniae and 52 proteins of S. aureus were incubated with human platelets. The activation of the cells was detected by flow cytometry using the activation markers P-selectin and the dimerization of the integrin αIIbβIII. The proteins CbpL, PsaA, PavA, and SP_0899 of S. pneumoniae induced platelet activation, however, the detailed mechanism has to be deciphered in further studies. Furthermore, the secreted proteins CHIPS, FLIPr, and AtlA of S. aureus were discovered as inductors for the activation of platelets. In addition, the domains of AtlA and Eap, crucial for platelet activation, were narrowed down. Interestingly, CHIPS, FLIPr, and Eap were described as inhibitors of neutrophil recruitment. Platelets are recently recognized as immune cells, due to the expression of immune receptors. The data obtained in this study highlight a comprehensive spectrum of effects of the S. aureus proteins towards different type of immune cells. Besides the activation of platelets in suspension buffer and plasma, the aggregation of platelets in whole blood was triggered by the proteins CHIPS, AtlA, and Eap. These results suggest a contribution of the proteins during the S. aureus-induced infectious endocarditis. Secretion of the platelet activating virulence factors, which were identified within this study, might represent a pathogenic strategy during S. aureus infection in which a direct contact between S. aureus and platelets is not required or even avoided. In conclusion, PavB, PspC, and Hic of S. pneumoniae and AtlA of S. aureus were identified as interaction partners of human thrombospondin-1. Furthermore, CHIPS, FLIPr, AtlA, and Eap were characterized as platelet activators. This study provides candidates for the development of protein-based vaccines, to prevent bacterial colonization and to neutralize secreted pathogenic factors.

One of the major problems in the study of the dynamics of proteins is the visualization of changing conformations that are important for processes ranging from enzyme catalysis to signaling. A protein exhibiting conformational dynamics is the soluble blood protein beta 2-glycoprotein I (beta2GPI), which exists in two conformations: the closed (circular) form and the open (linear) form. It is hypothesized that an increased proportion of the open conformation leads to the autoimmune disease antiphospholipid syndrome (APS). A characteristic feature of beta2GPI is the high content of lysine residues. However, the potential role of lysine in the conformational dynamics of beta2GPI has been poorly investigated. Here, we report on a strategy to permanently open up the closed protein conformation by chemical acetylation of lysine residues using acetic acid N-hydroxysuccinimide ester (NHS-Ac). Specific and complete acetylation was demonstrated by the quantification of primary amino groups with fluoraldehyde o-phthalaldehyde (OPA) reagent, as well as western blot analysis with an anti-acetylated lysine antibody. Our results demonstrate that acetylated beta2GPI preserves its secondary and tertiary structures, as shown by circular dichroism spectroscopy. We found that after lysine acetylation, the majority of proteins are in the open conformation as revealed by atomic force microscopy high-resolution images. Using this strategy, we proved that the electrostatic interaction of lysine residues plays a major role in stabilizing the beta2GPI closed conformation, as confirmed by lysine charge distribution calculations. We foresee that our approach will be applied to other lysine-rich proteins (e.g. histones) undergoing conformational transitions. For instance, conformational dynamics can be triggered by environmental conditions (e.g. pH, ion concentration, post-translational modifications, and binding of ligands). Therefore, our study may be relevant for investigating the equilibrium of protein conformations causing diseases.

Amine transaminases are versatile biocatalysts for the production of pharmaceutically and agrochemically relevant chiral amines. They represent an environmentally benign alternative to waste intensive transition metal catalysed synthesis strategies, especially because of their high stereoselectivity and robustness. Therefore, they have been frequently used in the (chemo)enzymatic synthesis of amines and/or became attractive targets for enzyme engineering especially in the last decade, mainly in order to enlarge their substrate scope. Certainly, one of the most notable examples of amine transaminase engineering is the manufacturing of the anti-diabetic drug Sitagliptin in large scale after several rounds of protein engineering. Thereby, the target amine was produced in asymmetric synthesis mode which is the most convenient and favored route to a target chiral amine, starting from the corresponding ketone. The choice of the amine donor is highly relevant for reaction design in terms of economical and thermodynamic considerations. For instance, the use of alanine as the natural amine donor is one of the most common strategies for the amination of target ketones but needs the involvement of auxiliary enzymes to shift the reaction equilibrium towards product formation. In fact, isopropylamine is probably one of the most favored donor molecules since it is cheap and achiral but it is supposed to be accepted only by a limited number of amine transaminases. This thesis focusses on the optimization and application of amine transaminases for asymmetric synthesis reactions en route to novel target chiral amines using isopropylamine as the preferred amine donor.

Background: The high incidence of methicillin-resistant Staphylococcus aureus (MRSA) strengthens the need for new effective antibiotics and a protective vaccine. Up till now, mainly human-adapted Staphylococcus aureus strains were used to study S. aureus pathogenicity in mouse models. However, it is known that S. aureus is highly host-specific. Recently, a mouse-adapted S. aureus strain, JSNZ, was identified. This strain could be a promising tool in developing more appropriate infection models. JSNZ produces high amounts of a putative extracellular protease, named JSNZ extracellular protease (Jep). Since the jep gene was only detected in S. aureus isolates from laboratory mice and wild small rodents and shrews, we hypothesize that Jep is important for colonization and infection in mice. The jep deletion mutant previously created by our collaborators from the University of Auckland, New Zealand, intriguingly showed a reduced survival and growth fitness in murine serum and whole blood as compared to the JSNZ wild type (WT) strain. Objective: To elucidate the role of Jep in the interaction between S. aureus and its host by comparing the impact of JSNZ WT with a mutant and a complement strain on the murine immune system. In addition, the elucidation of possible genetic factors behind host-adaptation of S. aureus strains isolated from wild rodents and shrews. Methods: A jep complemented strain was generated by chromosomal replacement. JSNZ WT, the jep mutant and the complement strain were subjected to functional assays (whole blood survival assay, coagulation assay). In addition, the genetic background that might confer host specificity was tested by staph array genotyping. Results: The mutant strain JSNZDjep was successfully complemented with the jep gene using a chromosomal integration approach. The WT strain and the complemented strain produced the Jep protein in comparable amounts. Unexpectedly, the complemented strains did not behave like the WT strain but rather like the mutant in a series of in vitro assays. Firstly, the growth of both the deletion mutant and the complemented strains was slightly reduced in TSB as compared to the WT strain. Secondly, the jep knockout strain showed a strongly reduced survival in murine whole blood compared to its wild type counterpart, but so did the complemented strain. Finally, the coagulation of murine plasma was less pronounced for the jep deletion mutant and the complemented strain as compared to the JSNZ WT. To exclude a defect in jep gene expression, we compared the amount of Jep expressed during growth in TSB medium for the three strains. The complemented strain produced Jep in a manner similar to the WT strain in a growth-phase dependent manner, suggesting that Jep expression was not affected during the creation of the complemented strain. The array data showed some differences in the genetic makeup between animal isolated strains and matched human strains. For example, while all animal isolates of the CC88 lacked the resistance mecA gene it was found in some human isolates of the same strain. Conclusion: In conclusion, our unidentified mutation created during the generation of the jep knock-out strain rather than the jep gene itself manipulated the murine immune response. The responsible gene and the underlying mechanisms remain to be clarified. Genetic profiling of S. aureus strains allowed us to obtain some valuable information including data about CC49, the most frequently isolated lineage in wild rodents and shrews where compared to the human isolates the murine strains showed clear signs of host adaptation. However, the analysis had several limitations including the small sample size.

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.

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.

The phenomenon of partial migration in birds in which some individuals of a population are migratory while others stay in the breeding area is of increasing scientific interest. The strategies of partial migratory raptors from Central Europe are, however, unclear for most species. We analysed ring re-encounter data of Common Kestrels Falco tinnunculus, Eurasian Sparrowhawks Accipter nisus and Common Buzzards Buteo buteo ringed in Germany in terms of distances and directions between ringing and re-encounter sites. We investigated possible differences between sexes and age classes, as well as effects of ringing region, seasonal weather (in the form of North Atlantic Oscillation indices) and long-term temporal changes (including climate change) on migratory strategies by means of generalized linear models. We found that migration is mostly conducted by juveniles, although migratory adults were also found. In general, males tend to migrate less than females and juveniles less than adults. Kestrels showed differences between age classes and sexes and they responded to weather in summer and autumn. The migration activities of Kestrels decreased over years. Sparrowhawks from different regions showed no differences in migration activity and no responses to long-term temporal changes. They did not respond to seasonal weather either. Buzzards showed strong responses to winter weather (‘winter escapes’) predominantly in highland regions, and a reduction of migratory intensity probably due to global warming. The explanatory power of ringing data, however, is limited by low re-encounter rates and temporal and spatial heterogeneity in re-encounter probability. Spatial heterogeneity mainly depends on the distribution of observers as well as on their willingness to report a re-encountered ring to the corresponding ringing scheme. We analyzed a data set of ringing and re-encounter data of Kestrels, Buzzards and Sparrowhawks provided by the EURING Data Bank. We calculated monthly re-encounter rates across Europe and, for different time periods, we predicted re-encounters for individuals of these species ringed in Germany, on the assumption that re-encounter probabilities are evenly distributed at the highest value observed within the respective home ranges. Subsequently, we tested for correlation between re-encounter rates and human population density. The number of predicted re-encounters exceed the observed by 50-300 %. We found differences between monthly re-encounter rates and between different prediction periods. Distances (between ringing and re-encounter sites) differ significantly between observations and predicted re-encounters, with higher distances in predictions. Correlation between re-encounter rates and human population density is significant, but correlation coefficients are low (ρ = 0.291-0.511). Correcting for observer heterogeneity can help to analyze ring re-encounter data e.g. in terms of dispersal and migration. However, a comprehensive data collection and a digitalization of possible prior data records by the respective ringing schemes may allow advances in this method even further.

Bacteria are exposed to oxidative stress as an unavoidable consequence of their aerobic lifestyle. Reactive oxygen species (ROS) are generated in the stepwise one-electron reduction of molecular oxygen during the respiration. Pathogens encounter ROS during the oxidative burst of macrophages as part of the host immune defense. Besides ROS, bacteria also have to cope with reactive chlorine, electrophilic and nitrogen species (RCS, RES, RNS). To cope with these reactive species, bacteria have evolved different defense and repair mechanisms. To maintain the reduced state of the cytoplasm, they utilize low molecular weight (LMW) thiols. LMW thiols are small thiol-containing compounds that can undergo post-translational thiolmodifications with protein thiols, termed as S-thiolations. S-thiolations function as major redox regulatory and thiol-protection mechanism under oxidative stress conditions. In eukaryotes and Gram-negative bacteria, the tripeptide glutathione (GSH) functions as major LMW thiol, which is present in millimolar concentrations. The Actinomycetes, such as Mycobacterium and Corynebacterium species do not produce GSH and utilize instead mycothiol (MSH) as their alternative LMW thiol. In Firmicutes, including Bacillus and Staphylococcus species, bacillithiol (BSH) functions as the major LMW thiol. LMW thiols protect protein thiols against the irreversible overoxidation of cystein residues to sulfinic and sulfonic acids. In addition, LMW thiols contribute to the virulence and survival of pathogens, function in metal homeostasis and serve as enzyme cofactors for detoxification of xenobiotics and antibiotics. In this doctoral thesis, we aimed to investigate the roles of MSH and BSH in redox regulation of main metabolic enzymes under oxidative stress in the pathogens Corynebacterium diphtheriae and Staphylococcus aureus. Previous redox proteomics studies identified the glyceraldehyde-3-phosphate dehydrogenase GapDH and the aldehyde dehydrogenase AldA as S-thiolated in S. aureus and C. diphtheriae. Thus, we aimed to study the redox regulation of the metabolic enzyme GapDH in C. diphtheriae in response to NaOCl and H2O2 stress by S-mycothiolation, which is described in chapter 1. Moreover, we studied the involvement of the mycoredoxin-1 (Mrx1) and thioredoxin (Trx) pathways in reactivation of S-mycothiolated GapDH in vitro. Using shotgun proteomics, 26 S-mycothiolated proteins were identified under NaOCl stress in C. diphtheriae. These are involved in energy metabolism (Ndh, GlpD) and in the biosynthesis of amino acids (ThrA, LeuB), purines (PurA) and cell wall metabolites (GlmS). The glycolytic GapDH was identified as conserved target for S-thiolation across Gram-positive bacteria. GapDH was the most abundant protein, contributing with 0.75 % to the total cystein proteome. Moreover, GapDH is a conserved target for redox regulation and S-glutathionylation in response to oxidative stress in several prokaryotic and eukaryotic organisms. Treatment of GapDH with NaOCl and H2O2 in the absence of MSH resulted in irreversible enzyme inactivation due to overoxidation. Pretreatment of GapDH with MSH prior to H2O2 or NaOCl exposure resulted in reversible inactivation due to S-mycothiolation of the active site Cys153. Since S-mycothiolation is faster compared to overoxidation, S-mycothiolation efficiently protects the GapDH active site against overoxidation. The activity of S-mycothiolated GapDH could be restored by both, the Mrx1 and Trx pathway in vitro. Interestingly, the recovery of Smycothiolated GapDH by Mrx1 was faster compared to its reduction by the Trx pathway. In previous studies, the reactivation of S-mycothiolated Mpx and MrsA by the mycoredoxin pathway occurred also faster compared to the Trx pathway, which is consistent with our results. We were further interested to analyze the redox regulation of the glyceraldehyde-3phosphate dehydrogenase Gap of S. aureus under NaOCl and H2O2 stress, which is described in chapter 2. Using the quantitative redox proteomic approach OxICAT, 58 NaOCl-sensitive cystein residues with >10% thiol oxidation under NaOCl stress were identified. Gap and AldA showed the highest oxidation increase of 29% under NaOCl stress at their active site cystein residues. Using shotgun proteomics, five S-bacillithiolated proteins were identified, including Gap, AldA, GuaB, RpmJ and PpaC. Gap contributed with 4 % as most abundant cystein protein to the total cystein proteome. Our activity assays demonstrated that Gap of S. aureus is highly sensitive to overoxidation by H2O2 and NaOCl in vitro in the absence of BSH. The active site Cys151 of Gap was oxidized to the BSH mixed disulfide under H2O2 and NaOCl stress in the presence of BSH in vitro, which resulted in the reversible Gap inactivation. Moreover, inactivation of Gap by NaOCl and H2O2 due to S-bacillithiolation was faster compared to overoxidation, indicating that S-bacillithiolation protects the Gap active site against overoxidation in vitro. We further showed that the bacilliredoxin Brx catalyzes the reduction of S-bacillithiolated Gap in vitro. Molecular docking of BSH into the Gap active site revealed that S-bacillithiolation does not require major structural changes. Apart from Gap, the aldehyde dehydrogenase AldA was identified as S-bacillithiolated at its active site Cys279 under NaOCl stress in S. aureus previously. Thus, the expression, function, redox regulation and structural changes of AldA were analysed under NaOCl and aldehyde stress in S. aureus as summarized in chapter 3. AldA was S-bacillithiolated in the presence of H2O2 and BSH as demonstrated in BSH-specific Western blots in vitro. The expression of aldA was previously shown to be regulated by the alternative sigma factor SigmaB in S. aureus. Transcription of aldA was strongly increased in a SigmaB-independent manner under formaldehyde, NaOCl and diamide stress in S. aureus. Using an aldA deletion mutant, we demonstrated that aldA is required for growth and survival under NaOCl stress in S. aureus. The purified AldA enzyme was shown to catalyze the oxidation of various aldehyde substrates, including formaldehyde, methylglyoxal, glycolaldehyde and acetaldehyde in vitro. In addition, the function of the conserved Cys279 for AldA activity was investigated in vivo and in vitro. The purified AldAC279S mutant was shown to be inactive for aldehyde oxidation in vitro. Moreover, the aldAC279S mutant was very sensitive under NaOCl stress in vivo, and this phenotype could be reversed using the aldA complemented strain. These experiments demonstrate the function of Cys279 for AldA activity both in vitro and in vivo. AldA activity assays showed that AldA is sensitive to overoxidation and irreversible inactivation by H2O2 alone in vitro. In the presence of BSH, AldA is protected against overoxidation by reversible Sbacillithiolation in vitro. Molecular docking and molecular dynamics simulations revealed that BSH occupies two different positions in the Cys279 active site, which depend on the NAD+ cofactor. In the apoenzyme, BSH forms the disulfide with Cys279 in the “resting” state position, while Cys279 is S-bacillithiolated in the “attacking” state position in the holoenzyme in the presence of the NAD+ cofactor.

Iodine deficiency disorders (IDD) result from insufficient iodine intake, and may lead to many adverse effects on growth, development and thyroid diseases in humans. Pakistan is a country with history of iodine deficiency. Before reunification both parts of Germany were iodine deficient. In the Eastern part, however, due to mandatory iodine prophylaxis adaptation in 1983, the iodine status of the population improved from moderate to mild iodine deficiency. After the reunification of Germany in 1989 “voluntary principle” was adopted leading again to a decrease in iodine intake. Germany and Pakistan present different socioeconomics, cultural values and adaptations to the IDD eradication but have resemblance in history of iodine deficiency. In the recent years Germany has improved in IDD eradication more than Pakistan. The purpose of this research was to study the regional influence on iodine nutritional status of pregnant women in Pakistan and to monitor the effectiveness of the iodine fortification programme in the North-East German population. Pregnant women data was obtained from randomly selected (public and private) prenatal clinics in five districts of the KPK province of Pakistan. Women visited there for their routine checkup between March and September 2012. Data were obtained from almost 250 pregnant women from each district reaching to a total of 1260 in all five districts. The SHIP project consists of two population-based cohorts, for which only individuals with German citizenship and main residency in the study area were recruited. In the first SHIP cohort; SHIP-0, individuals aged 20-79 years were selected from population registries by a two-stage cluster sampling method. The net sample (without migrated or deceased persons) comprised 6265 eligible subjects, of which 4308 (response 68.8%) participated between 1997 and 2001. A separate stratified random sample of 8826 adults aged 20-79 years was drawn for SHIP-Trend, of which 4420 subjects participated between 2008 and 2012 (response 50.1%) in SHIP-Trend-0. All the pregnant women were asked to complete a short interview questionnaire containing the information related to sources and reasons for intake and non-intake of iodized salt. The questionnaire also comprised questions related to knowledge of iodized salt nutrition. Information on the number of previous pregnancies and/or abortions (fetal loss due to various reasons, not including voluntary termination of pregnancy) was also obtained. The gestational age of the pregnant women was determined from the first day of the last regular menstrual period with gestational ages of ≤14.9, 28.9, and ≥29 weeks comprising the first, second, and third trimesters of pregnancy, respectively. For goiter assessment in pregnant women the WHO/UNICEF/IGN recommended palpation method was used. UIC was measured using a modification of the Sandell-Kolthoff reaction with spectrophotometric detection. Evaluation of group iodine status was based on median UIC categories defined by the WHO/IGN. These are: recommended – median 150-249 μg/L; mild iodine deficiency – median <150 μg/L. For the analysis of monitoring trends of thyroid diseases in SHIP, diagnosed thyroid disorders were assessed by computer-assisted personal interviews. Medication data were obtained online using the IDOM program (online drug-database leaded medication assessment) and classified according to the Anatomical-Therapeutic-Chemical (ATC) classification system.In SHIP population goiter assessment was based on thyroid volume determined with ultrasonography. Goiter was defined as a thyroid volume exceeding 18 mL in women and 25 mL in men. Urinary iodine concentrations were measured from spot urine samples by a photometric procedure. Urinary creatinine concentrations were determined with the Jaffé method. Evaluation of group iodine status was based on median UIC categories defined by the WHO/IGN. The iodine/creatinine ratio was calculated by dividing urinary iodine by urinary creatinine concentrations. Serum TSH, fT3, fT4 levels in SHIP study were measured by an immunochemiluminescent procedure. A method comparison between the two TSH laboratory methods showed only negligible differences. High and low serum TSH levels were based on the reference range established from data for SHIP-0 (0.25 mIU/L - 2.12 mIU/L) and SHIP-TREND-0 (0.49 mIU/L - 3.29 mIU/L) respectively (21,22). Anti-TPO Abs were measured by an enzyme immunoassay in the whole SHIP study. The anti-TPO Abs status was defined as follows: normal < 60 IU/ml in men and < 100 IU/ml in women; increased > 60 IU/ml in men and > 100 IU/ml in women; positive: > 200 IU/ml in both sexes. Thyroid ultrasonography was performed in SHIP-0 using an ultrasound VST-Gateway with a 5 MHz linear array transducer. In SHIP-Trend-0 ultrasonography was performed with a portable device using a 13-MHz linear array transducer. In both studies intra- and inter-observer reliabilities were assessed before the start of the study and semi-annually during the study. For thyroid volume all inter-observer and inter-device variabilities showed mean differences (±2 SD)of < 5% (<25%). Thyroid volume was calculated as length x width x depth x 0.479 (ml) for each lobe (26). The normal thyroid echo pattern was classified as homogeneous. A homogeneous echo pattern with reduced echogenicity was defined as hypoechogenic. Nodular changes exceeding 10 mm in diameter were defined as thyroid nodules. Multivariable logistic regression analysis adjusting for age was used to regress the outcome measures (knowledge about IDD, iodized salt intake, UIC <150mIU/L and goiter prevalence) on regional influences (as exposure) in each specific district. These results are presented as odd ratios and their 95% confidence interval. For the analysis in SHIP, all analyses were standardized by base-weights to account for different sampling probabilities. In SHIP-Trend-0, additionally, inverse probability weights for study participation were calculated, which were multiplied with the base-weights. Differences in median levels between SHIP-0 and SHIP-Trend-0 were tested by median regression models; prevalence differences between SHIP-0 and SHIP-Trend-0 were tested by Poisson regression models. The majority of pregnant women (88.0%) had no knowledge about IDD. A very high (79%) percentage of pregnant women were not taking iodized salt, out of which 36.6% reported that iodized salt would negatively affect reproduction and for 17.0%, it was too expensive. Iodized salt intake in pregnant women was high in the big cities (Peshawar, Nowshehra) and in the urban areas (27.0%) In 41.3% of the pregnant women, we observed a UIC of >150mIU/L. The median UIC level for the pregnant women was 131µg/L. The total goiter prevalence in pregnant women was 25.5%. The prevalence of UIC <150mIU/L in pregnant women did not differ between rural and urban areas. The results based on logistic regression analysis shows that the prevalence on knowledge about IDD, iodized salt intake, UIC <150mIU/L, and goiter did not differ in pregnant women between urban and rural areas. In district Lakki Marwat except, the pregnant women from urban residence had higher odds of having knowledge on IDD and iodized salt intake than their rural counterparts. The prevalence of diagnosed thyroid disorders increased from 7.6% [CI 6.9-8.5] in SHIP-0 to 18.9% [CI 17.6-20.1] in SHIP-Trend-0. Likewise, the prevalence of thyroid medication intake increased from 6.2% [CI 5.5-7.0] to 11.1% [CI 10.1-12.2]. The median urinary iodine excretion levels decreased significantly, which was more pronounced in females than in males. The median iodine-to-creatinine ratio declined in all sex- and age-groups with stronger decrease in females than in males. The prevalence of median urinary iodine excretion levels <100µg/L increased between SHIP-0 and SHIP-Trend-0. Median serum TSH levels increased significantly between SHIP-0 and SHIP-Trend-0, resulting in a right shift of the serum TSH level distribution. The prevalence of high serum TSH levels remained almost stable between SHIP-0 and SHIP-Trend-0. Likewise, the prevalence of low TSH remained almost stable between SHIP-0 and SHIP-Trend-0. The prevalence of increased anti-TPO Abs and positive anti-TPO Abs decreased from SHIP-0 to SHIP-Trend-0 in the whole study population. The prevalence of hypoechogenic thyroid pattern decreased from SHIP-0 to SHIP-Trend-0. The median thyroid volume remained similar between SHIP-0 and SHIP-Trend-0 in the whole study population. Goiter prevalence decreased significantly; more pronounced in males than in females, while the prevalence of thyroid nodules increased between SHIP-0 and SHIP-Trend-0. In pregnant women in Pakistan due to insufficient awareness campaigns and low literacy ratio in rural areas urinary iodine excretion levels indicate a stable iodine supply, which is still not sufficient. Our results show that rural/urban disparity is affecting the IDD prevention program in rural districts, but not in general. The SHIP data indicate that the improved iodine supply over the past two decades in Germany is paralleled by a reduction in prevalence of IDDs, while no increase was observed in markers of autoimmune thyroid disorders arguing for an optimal iodine supply of the general adult population in Northeast Germany. The increase in prevalence of diagnosed thyroid disorders and the intake of thyroid medication might be because of inappropriate therapeutical decisions which should be made with caution, based on regional TSH reference ranges, its prognostic value, and compliance with treatment.