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Streptococcus pneumoniae (pneumococci) are lancet-shaped, Gram-positive, alpha-hemolytic, facultative anaerobic human specific commensals of the upper and lower respiratory tract. Pneumococci may convert to pathogenic bacteria and spread to the lungs and blood. In different population groups, such as children, the elderly and immunocompromised individuals, pneumococci can cause local infections such as bronchitis, rhinitis, acute sinusitis, and otitis media as well as life-threatening invasive diseases such as community-acquired pneumonia, sepsis and meningitis. Pneumococci are surrounded by a rigid and complex exoskeleton, the peptidoglycan, also referred to as murein sacculus. The peptidoglycan (PNG) protects the cells from rupture by osmotic pressure and maintains their characteristic shape. The PNG is a heteropolymer made up of glycan strands that are cross-linked by short peptides and during growth the existing murein is continuously hydrolyzed by specific lytic enzymes to enable the insertion of new peptidoglycan. Bacterial cell-wall hydrolases are essential for peptidoglycan turnover and crucial to preserve cell shape. The D,D-carboxypeptidase DacA and L,D-carboxypeptidase DacB of Streptococcus pneumoniae function in a sequential manner. This study determined the crystal structure of the surface-exposed lipoprotein DacB, which differs considerably from the DacA structure. DacB contains a Zn2+ ion in its catalytic center located in the middle of a fully exposed, large groove. Two different conformations with differently arranged active site topology were identified. In addition the critical residues for catalysis and substrate specificity were identified. Deficiency in DacA or DacB resulted in a modified peptidoglycan peptide composition and led to an altered cell shape of the dac-mutants. In contrast, lgt-mutant lacking lipoprotein diacylglyceryl transferase activity required for proper lipoprotein maturation retained L,D-carboxypeptidase activity and showed an intact murein sacculus. Furthermore, this study demonstrated the pathophysiological effects of disordered DacA or DacB activities. Real-time bioimaging of intranasally infected mice indicated a substantially attenuated virulence of dacB- and dacAdacB-mutants pneumococci, while loss of function of DacA had no significant effect. In addition, uptake of these mutants by professional phagocytes was enhanced, while their adherence to lung epithelial cells was decreased. The second part of this study focused on the functional and structure determination of the soluble dimeric pneumococcal lipoprotein PccL. Because of its calycin fold and structural homology with the lipocalin YxeF from Bacillus subtilis, PccL was introduced as the first member of the lipocalin protein family in pneumococci and named “PccL” (Pneumococcal calycin fold containing Lipoprotein). Similar to other lipocalins, the distinct beta-barrel, which is open at one end, is significantly conserved in PccL. Moreover, the application of the in vivo acute pneumonia mouse infection model and the in vitro phagocytosis as well as adherence invasion studies revealed considerable differences in colonization and invasive infection between the wild-type D39 and the pccL-mutant. In conclusion, this study characterized the crucial role of pneumococcal carboxypeptidases DacA and DacB for PGN architecture, bacterial shape and pathogenesis. By applying in vivo and in vitro approaches, a close relationship between PGN metabolism and pathophysiological effects was discovered. In addition, the high resolution structure of DacB has been solved and analyzed and a structure model with a resolution of 2.0 Å is provided. Furthermore, analysis of the PGN composition was applied to indicate the impact of an impaired lipoprotein biogenesis pathway on localization and activity of DacB. The major impact of carboxypeptidases on cell shape and virulence proposes DacB as a promising target for the development of novel drugs or due to its surface exposition also as a promising vaccine candidate. PccL is the first pneumococcal lipocalin-like protein and this study indicated its contribution to pneumococcal virulence. However, the mechanism and the mode of action of PccL are still unknown and have to be deciphered in further studies.
Background: Restorative treatment for children’s teeth is still an important aspect of dentistry. In the light of an only moderate caries decline in the primary dentition and a persistently low care index in Germany during the past years [DAJ 2010], there is still a demand for further work on recent patterns and outcomes of restorative treatments in primary teeth placed in everyday practices under the Germany National Health System. Objectives: The present study aimed firstly to describe the prevalence of caries and restorations in the primary teeth in Berlin and Germany from the representative Germany surveys [DAJ 2010], secondly, to describe the frequency and distribution of restorative treatment in primary teeth performed in everyday dental practice in Berlin including children age groups from 1- to 13-years of age, thirdly, to evaluate the outcomes of restorative treatment performed in everyday dental practices in these children and finally to compare results of the present study with data from the German National Health System [KZBV 2011] and randomized community data on the longevity of restorations in primary teeth in Denmark [Qvist et al. 2010a]. Material and Methodology: In the first part of present study data from representative German surveys [DAJ 2010] were interpreted to describe and compare the prevalence of caries and restorations in the primary teeth in Berlin and Germany. For the second and third parts data generated from German National Health System in Berlin (KZV-Berlin) on fillings done in everyday practices in primary teeth of 1- to 13-year-olds during 2010/2011 were collected. This data included: distribution of children with dental treatment regardless of the type of intervention provided, of children who received restorative treatments in primary teeth during dental care visits including total number of fillings per child, the number of filled tooth surfaces, retreatment with another filling, stainless steel crowns, pulp involvement and extractions after prior filling therapy. Information on the age of the original fillings at the time of retreatment was also included. The collected data then were entered into a data base for descriptive and analytical analysis. The results were compared with equivalent data from the German National Health System [KZBV 2011] and randomized community data from Denmark [Qvist et al. 2010a]. Results: Result showed a high similarity in patterns of caries and restorative treatment in primary teeth in Berlin and all of Germany as reported in the representative German surveys [DAJ 2010]. About of 84% of 1-13-year-olds insured in the German National Health System in Berlin received dental care during 2010/2011, with considerably lower rates in very young children. Fillings in primary teeth were performed in 31.17% of all children attending the dentist. Most restorations were placed in 5-8-year-olds. In 1-13-year-olds mostly just one filling was placed, more than five fillings were per child were recorded on average for very young age groups (1-4-year-olds). 55.60% of all fillings in primary teeth were two-surface restorations, whereas more than three-surface restorations comprised 6.17% of all fillings and they were performed most frequently in young children of 1-4-years of age. Retreatment to fillings in primary teeth was 7.66% of fillings placed in 1-13-year-olds. Most retreatments took place from 5 to 9 years of age with a peak in 6-year-olds. In 1-3-year-old children fillings showed shorter mean age at the time of retreatment compared to 7-year-olds and above. Retreatment of fillings in primary teeth by stainless steel crowns was very limited with only 5.16% of all retreatments and it was preferred in children from 3 to 7 years of age. The retreatment with pulp involvement was 11.27% of all retreatments. Extractions were almost as often as retreatment as another filling (ratio 4:5), but they were preferred in older children due to the course of exfoliation. Conclusions: Under the conditions of this retrospective study, the restorative treatment with fillings performed within the National Health System in primary teeth in Berlin was very successful with low rates of retreatment and the fillings shows comparable results to data on the longevity of restorations in primary teeth in Denmark. The study highlighted the need to a structured program for prevention in primary teeth, especially for very young children with high caries activity and possibly also different treatment structures with specialized dentists in this field who can perform oral rehabilitations with pulpotomies and stainless steel crowns.
Background: Common to most theory-based intervention approaches is the idea of supporting intentions to increase the probability of behavior change. This principle works only if (a) intentions can be explained by the hypothesized socio-cognitive constructs, and (b) people actually do what they intend to do. The overall aim of this thesis was to test these premises using two health behavior theories applied to reducing at-risk alcohol use. Method: The three papers underlying this thesis were based on data of the randomized controlled “Trial Of Proactive Alcohol interventions among job-Seekers” (TOPAS). A total of 1243 job-seekers with at-risk alcohol use were randomized to stage tailored intervention (ST), non-stage tailored intervention (NST), or control group. The ST participants (n = 426) were analyzed in paper 1. Paper 2 was based on the baseline and 3-month data provided by the NST participants (n = 433). Paper 3 was based on baseline, 3-, 6-, and 15-month data provided by the control and ST group not intending to change alcohol use (n = 629). Latent variable modeling was used to investigate the associations of social-cognitive constructs and intentional stages (paper 1), the extent to which intentions were translated into alcohol use (paper 2), and the different trajectories of alcohol use among people not intending to change as well as the ST effect on the trajectories (paper 3). Results: Persons in different intentional stages differed in the processes of change in which they engaged, in the importance placed by them on the pros and cons of alcohol use, and in the perceived ability to quit (ps < 0.01). The association between intentions and alcohol use was weak. The magnitude of this intention-behavior gap depended on the extent to which normative expectations have changed over time (p < 0.01) and was reduced when controlling for the mediating effect of temporal stability of intentions. The gap was also present among people not intending to change: Even without intervention, 35% of the persons reduced the amount of alcohol use after 15 months (p < 0.05) and 2% achieved abstinence. Persons with heavier drinking (33%) and persons with low but frequent use (30%) did not change. Persons with frequent alcohol use seem to benefit less from ST than those with occasional use, although differences were not statistically significant. Conclusions: Intentions can be quite well explained by the hypothesized socio-cognitive constructs. In a sample of persons who were, as a whole, little motivated to change, the precision of how well intentions predict subsequent alcohol use was modest though. Time and socio-contextual influences should be considered.
Cancer is one of the leading causes of death in industrialized nations. Nowadays, cancer therapy mainly consists of surgery, radiation and chemotherapy. Thanks to intensive research alternative treatment strategies like gene therapy and especially immunotherapies are on the rise. Immunotherapies base on the idea of stimulating and supporting the patients immune system to generate an effective anti-tumor immune response. Dendritic Cells are perfect targets for this purpose, since these potent antigen-presenting immune cells influence the balance of the immune system by defining the route of action. Stimulation of these cells by activation of cellular signaling pathways results in maturation, upregulation of surface molecules and secretion of cytokines. A20 has been identified as a regulator of dendritic cell maturation and attenuator of their immune stimulating properties. Hence, the blockade of that natural inhibitor reveals an elegant way to activate cellular pathways of DCs. A siRNA against A20 obtains a functional blockade via RNA interference if it can be delivered into the cytoplasm of the target cells. CpG oligodeoxynucleotides can be used for this intracellular transport. CpGs contain DNA motifs similar to those found in bacteria. Innate immune cells can detect this DNA via the toll-like receptor 9 getting activated and stimulated. CpG oligodeoxynucleotides are already in clinical use as adjuvants in vaccines and in cancer therapy approaches. Linking A20-specific siRNA to CpG enables A20 regulation and cell stimulation selectively in toll-like receptor 9 expressing cells, like dendritic cells. Aim of this study was to investigate if these constructs trigger immune cell activation and if they are able to break immune-suppression in the tumor environment to enhance anti-tumor immunity. A long-term growth factor dependent bone marrow-derived dendritic cell culture has been established in order to analyze the CpG-siRNA A20 effects on murine dendritic cells. The constructs were internalized shortly after administration (1 hour) and led to cell stimulation/activation. The intraperitoneal treatment with the constructs induced local cellular activation and systemic IL-6, TNF-α cytokine production in healthy mice. Subcutaneous growing B16 melanoma tumors were treated peritumorally to analyse whether the observed immune-stimulation has effects on established tumors. The silencing of A20 enhances CpG-induced activation of NF-κB followed by elevated expression of IL-6, TNF-α and IL-12 in this tumor model. These changes led to enhanced anti-tumor immune responses manifested by increased numbers of tumor-specific cytotoxic T cells, high levels of tumor cell apoptosis and delayed tumor growth. New constructs were designed and tested on dendritic cells isolated from healthy donors in order to test whether the obtained results for the murine system are applicable to the human system. CpG-siRNA A20 constructs induced cell activation and cytokine expression (IL-6, TNF-α) significantly more than CpG alone. Even though responds of the donor DCs were variable, there are promising similarities to the results of the mouse experiments. The significant role of A20 in controlling the immune-stimulatory activity of DCs has been confirmed in this study. The novel CpG-siRNA A20 constructs provide a strategy for simultaneous A20 silencing and CpG-mediated cell stimulation directly in vivo. This therapeutic approach induces potent adaptive and innate immune responses against established tumors in mouse melanoma model leading to prolongation of survival. CpG-targeted A20 blockade is a new immune-stimulatory approach, which could be suitable for supplementation or optimization of clinical tumor treatments.
Although the Pleistocene deposits exposed in the steep coastal cliffs of Mecklenburg-Vorpommern have been studied for more than a century, the depositional conditions of many lithostratigraphic units remain unclear. There is, in particular, a question whether the individual tills (locally more than 9 successive till units) are mainly subglacial deposits or resedimented (mass flows) in origin (at least in part). The Pleistocene deposits preserve information concerning the former glacial depositional processes. Detailed micromorphological analysis of these deposits can provide key information regarding these processes and thereby aid in the reconstruction of former glacial environments. The island of Rügen is located on the southwestern Baltic Sea coast and was situated in the marginal zone of the Scandinavian Ice Sheet during the last glacial period (Weichselian). Therefore, the region is considered as an ideal area for reconstructing the complex fluctuations in the position of the margin of this ice sheet as it expanded across the Baltic Sea and into northern Germany. Successive glacial advances and retreats of the ice sheet can be reconstructed by specific glacial sedimentation processes and flow-direction criteria derived from a variety of glacial deposits. The investigation area is located near Sassnitz on Rügen, where an imbricated and folded Weichselian succession disconformably overlies Maastrichtian chalk bedrock. The individual till units were sampled for micromorphological analyses to identify the former depositional conditions. Detailed description of the sedimentology and variation in facies, the description of macroscale deformation structures provides the context for the detailed micromorphology study. The three dimensional analysis of the microfabrics is based on the microstructural mapping methodology which enables the identification and interpretation of polyphase deformation within subglacial sediments.
The Clinical and Socio-Economic Relevance of Increased IPMN Detection Rates and Management Choices
(2015)
Background: Increased usage of computed tomography and magnetic resonance imaging has led to a large increase in identified pancreatic cysts of up to 25% in population-based studies. The clinical and economic relevance of identifying so many cystic lesions has not been established. Compared to other organs such as liver or kidney, dysontogenetic pancreatic cysts are rare. Pancreatic cysts comprise a variety of benign, premalignant or malignant lesions; however, precise diagnosis before resection has an accuracy of only 80%. The focus of recent research was the malignant potential of intraductal papillary mucinous neoplasms (IPMN) with the aim of establishing clinical pathways addressing risk of malignancy, age and comorbidity, treatment-related morbidity and mortality as well as cost-effectiveness of treatment and surveillance. The focus of this review is to analyze the clinical and socio-economic relevance as well as the cost-benefit relation for IPMNs. Methods: For analysis, the following MESH terms were used to identify original articles, reviews, and guidelines in PubMed: (‘intraductal papillary mucinous neoplasm' OR ‘pancreatic cysts') and (incidence OR relevance OR socio-economic OR economic OR cost-effectiveness OR cost-benefit). The retrieved publications were reviewed with a focus on clinical and socio-economic relevance in relation to the increasing incidence of IPMN. Results: Addressing the increasing prevalence of pancreatic cystic lesions, recent consensus guidelines suggested criteria for risk stratification according to ‘worrisome features' and ‘high-risk stigmata'. Recent prospective cohort studies evaluated whether these can be applied in clinical practice. Evaluation of three different clinical scenarios with regard to costs and quality-adjusted life years suggested a better effectiveness of surveillance after initial risk stratification by endoscopic ultrasound-guided fine-needle aspiration with cyst fluid analysis compared with immediate resection or follow-up without further intervention. Of interest, the ‘immediate surgery' strategy was lowest for cost-effectiveness. Conclusions: The increasing incidence of identified pancreatic cysts requires an improved strategy for non-invasive risk stratification based on advanced imaging strategies. In light of a malignancy risk of 2% for branch-duct IPMN, the socio-economic necessity of a balance between surveillance and resection has to be agreed on.
This work focuses the glycoprotein H of PrV which was analysed by structure-based functional analyses by targeted site-directed mutagenesis. Disulfid bridges were introduced at specific sites and the effects on the fusion mechanism investigated. A revertant was obtained and characterised during the studies, as well as chimeric glycoprotein H proteins were constructed, combining the different domains of the glycoproteins Hs of PrV and HSV1.
The following work is describing the development of two innovative biosensors for the detection of biologically relevant molecules in the field of ecology and medical diagnostics. Biosensors have the particularity to possess a biological partner which recognizes the target molecule and a physical detection method responsible for the transformation of this biological interaction into measurable information. In the present case, both biosensors are designed following the same strategy and use a recombinant produced human receptor as biological partner and the surface plasmon resonance (SPR) technique to transform the biological interaction in quantitative information. The progesterone biosensor is aimed to detect and quantify substances with affinity to the human progesterone receptor. The recent discoveries that some chemicals present in low quantities in the ecosystem called endocrine disrupting chemicals (EDCs) have a negative impact on the aquatic life fitness raised concerns about the effects of these same molecules to the human health. In order to assess the effects of these EDCs, the use of classical analytical detection methods like high performance liquid chromatography (HPLC) or gas chromatography (GC) is not sufficient as these techniques only quantify a defined molecule without giving information about its biological activity. By integrating a recombinant human progesterone receptor, the progesterone biosensor can determine the biological activity of an unknown molecule or of a mixture of molecules in a real sample. In this work, two different yeasts – one methylotrophic (Hansenula polymorpha) and one non-methylotrophic (Arxula adeninivorans) - were selected as host for the recombinant protein production and their performances were compared. Different purification strategies were assayed and the binding activity of the purified progesterone receptor was then confirmed by enzyme like receptor assay (ELRA) and SPR. This led to the design of a first version of the biosensor with the immobilization of a progesterone-BSA ligand to the surface of a SPR chip and the use of a progesterone receptor mixed with the target molecule as sample. This competitive assay format was successfully utilized with a commercial progesterone-BSA ligand as target molecule and the next step will be the adaptation of this biosensor for real samples measurements. The HER-2 biosensor was developed as an answer for one of the most critical issue in the field of breast cancer diagnostics. In approximately 30 % of cancer cases, the transmembrane protein HER-2 can be found in large amount at the surface of the carcinoma cells and these cases are known to be particularly aggressive. Based on the amount of HER-2 protein at the surface of the cells, the pathologists established a scale with four levels to adapt the treatment to each patient. Although effective therapies have been developed to treat the HER-2 positive breast cancer, one of the major challenges remains the classification of breast sample in this scale as the only accepted determination methods are immunohistochemistry (IHC) and fluorescent in situ hybridization (FISH) which are only qualitative. In this work, a biosensor has been designed to quantify the amount of the HER-2 protein in a crude cell extract from a breast cancer tissue sample. To achieve this, the strategy is to utilize an antibody specifically targeted against the HER-2 protein and bound to a SPR chip. As the development of this biosensor necessitated the use of large amount of purified HER-2 protein, it was decided to produce recombinant full-length HER-2 in two different yeasts and to purify it by chromatography. This recombinant protein production required particular attention due to the membrane localization of HER-2. The structural integrity of the recombinant protein was confirmed by Western Blot and ELISA and different antibodies were bound to SPR chips in order to detect the HER-2 protein. After finding the conditions giving an optimal SPR signal, a protocol was developed to extract native HER-2 from breast tissue sample and the biosensor was assayed with this crude cell extract.
Geopolymers (GPs) are inorganic binders created by adding alkaline solution (e.g. KOH) to silicates such as furnace slag, fly ash or clay to dissolve Si and Al that polymerises and precipitates to form an inorganic binder material while hardening. GP properties are similar to ordinary Portland cement regarding their high compressive strength or low shrinkage but they are particularly notable for a high resistance to acid and fire. However, the most significant advantage of GP cements is their low CO2 footprint. The most common clay used as GP raw material is kaolin. The aim of this study is to investigate the suitability of illitic clays as a cheaper alternative to kaolin and determine the necessary preparation steps required to produce effective GP binder materials. Three clays dominated by dioctahedral 2:1 layer silicates, in particular interstratifications of mica and smectite were investigated: (1) Illitic clay from Friedland, Northern Germany, containing an irregularly stacked illite-smectite interstratification (R0 I-S), (2) rectorite from Arkansas, USA, as a regular interstratification of mica and smectite, and (3) clay stated as “sárospatakite” from Füzérradvány clay deposit, Northern Hungary, containing a long range ordered I-S (R3). The three types of I-S interstratification-rich clays were extensively characterised and the Friedland clay, as the most probable raw material for GP production, was studied in more detail including several size fraction analyses. These results are used to investigate and determine the parameters necessary to produce suitable precursors for GP binders. Different approaches of clay activation to yield a highly reactive material by milling and heating were examined. Milling was found to be suitable as a preparation step after heating breaking up sintering aggregates to create pathways for the alkaline solution, but not as a substitute for heating. Important parameters for the precursor design such as temperature, time, and heating rate are determined and discussed. Geopolymerisation is considered to be a multi-parameter system and is influenced strongly by the degree of dehydroxylation, Si:Al ratio, or amount of 5-fold coordinated Al. However, in contrast to kaolin-based systems, none of these parameters explain why the illitic Friedland clay heated to 875 °C was found to be most suitable for GP binders. Based on leaching experiments and specific surface area (AS) measurements of the heated Friedland clay, a conceptual model is presented to explain the observed relationship between the heating temperature and the subsequent compressive strength of the GP cement. An optimum between the counteracting reactions of decreasing AS (fewer particles must be covered with GP phase) and decreasing Si+Al dissolved (less GP phase created) is necessary, which exists at 875 °C for the Friedland clay. In this state enough GP phase is created to bind all remaining sintering aggregates to form a cement with high compressive strength. This relationship can be expressed as (Si+Al) / AS (sum of dissolved Si and Al divided by the surface area of grains that must be covered with GP phase), and can be used as a predictive tool for determining the optimal heating temperature. The results presented in this thesis indicate that illitic clays are suitable raw materials as GP binders if the necessary preparation steps of dehydroxylation, sintering and grinding are made. Proxies used to evaluate the optimal conditions for making GP binders are determined including the (Si+Al) / AS ratio as a key relationship that controls the cementation process and determines its ultimate hardness.
The aim of this thesis is to concentrate on the investigation of these ROS&RNS composition distribution and their production pathways in the gas phase produced by a plasma jet. By understanding the physical mechanisms behind the generation of the ROS&RNS a precise tuning and design of the composition distribution in the gas phase can be achieved. One crucial physical parameter is the dissipated power inside the plasma. Only if this parameter is known a meaningful comparison of different feed gas settings is possible. Therefore, a concept for measuring the dissipated power inside the plasma for the modified micro-scaled atmospheric pressure plasma jet( µAPPJ) is designed. Additionally, due to achievements within this thesis it is now possible to ignite a homogeneous discharge in argon and helium within the geometry of the µAPPJ. The used feed gas is a determining factor concerning the electron energy distribution function and consequently influencing the production mechanism of the ROS&RNS. First of all, the electrical characterisation of the modified µAPPJ was performed including the alpha-to-gamma transition. It is shown that the alpha-to-gamma transition power is increasing with increasing frequency. For the first time it is now feasible to investigate the influence of the dissipated power on the neutral gas temperature, the metastable atom densities and the ROS&RNS production for the modified µAPPJ with argon and helium as feed gas. Due to the possibility of changing the feed gas and controlling the dissipated power a fundamental insight into the production mechanism of the ROS&RNS generated by the plasma jet is achieved. With rising dissipated power the temperature and the metastable densities as well as the ozone and nitrogen dioxide concentrations are increasing. By adding molecular oxygen and nitrogen to the feed gas of a plasma jet the ROS&RNS composition can be tuned. However, also the dissipated power is changed by the small amount of admixtures. Due to the developed dissipated power measurements within this thesis it was possible to disentangle the influence of the admixture on the power and on the ROS&RNS production. If the dissipated power is fixed for the µAPPJ with argon and helium feed gas, respectively, the highest amount of ozone was measured with oxygen admixture in an argon discharge, the highest amount of dinitrogen pentoxide with nitrogen admixture in an argon discharge and the highest amount of nitrogen dioxide with nitrogen admixture in a helium discharge. Beyond the influence of the dissipated power and the molecular admixture on the ROS&RNS production the feed gas temperature is a crucial parameter for the corresponding chemical reactions. By changing this parameter the distribution of ozone and nitrogen dioxide can be tuned precisely in such a way that with increasing temperature the ozone density goes down and the nitrogen dioxide density rises. Another determinant for the ROS&RNS composition produced by an atmospheric pressure plasma jet is the influence of ambient air. If the ambient air is changing from pure nitrogen to pure oxygen atmosphere the ozone density produced by the plasma jet is increasing. For the same conditions the nitrogen dioxide has a maximum at an oxygen-to-nitrogen ratio of 1:1. To avoid the influence of the ambient air on the reactive species production the afterglow of the µAPPJ was prolonged with a glass tube. By increasing the amount of molecular admixtures to the feed gas with each in equal quantities a totally different ROS&RNS composition can be obtained compared without the glass tube. It figures out that for small molecular admixtures the reactive species composition is nitrogen dominated and for higher admixtures it is oxygen dominated. Consequently, by shielding the ambient air from the active effluent and by admixing molecular oxygen and nitrogen the ROS&RNS composition can be designed.
Background: Hyperthyroidism is known to induce a hypercoagulable state. It stimulates plasma levels of procoagulative factors and reduces fibrinolytic activity. So far most of the data have been derived from patients with endogenous hyperthyroidism with a wide variability in the underlying pathogenesis and severity of the disease. Objectives: In this study we experimentally induced thyrotoxicosis in healthy volunteers to explore the effects of thyroxine excess on the plasma proteome. Using a shotgun proteomics approach, the abundance of plasma proteins was monitored before, during and after thyrotoxicosis. Methods: Sixteen healthy male subjects were sampled at baseline, 4 and 8 weeks under 250 µg/day thyroxine p.o., as well as 4 and 8 weeks after stopping the application. Plasma proteins were analyzed after depletion of 6 high-abundance proteins (MARS6) by LC-ESI-MS/MS mass spectrometry. Mass spectrometric raw data were processed using a label-free, intensity-based workflow. Subsequently, the linear dependence between protein abundances and fT<sub>4</sub> levels were calculated using a Pearson correlation. Results: All subjects developed biochemical thyrotoxicosis, and this effect was reversed within the first 4 weeks of follow-up. None of the volunteers noticed any subjective symptoms. Levels of 10 proteins involved in the coagulation cascade specifically correlated with fT<sub>4</sub>, supporting an influence of thyroid hormone levels on blood coagulation even at nonpathological levels. Conclusions: The results suggest that experimental thyrotoxicosis exerts selective and specific thyroxine-induced effects on coagulation markers. Our study design allows assessment of thyroid hormone effects on plasma protein levels without secondary effects of other diseases or therapies.
Differences in Mouse Hepatic Thyroid Hormone Transporter Expression with Age and Hyperthyroidism
(2015)
Background: Clinical features of thyroid dysfunction vary with age, and an oligosymptomatic presentation of hyperthyroidism is frequently observed in the elderly. This suggests age modulation of thyroid hormone (TH) action, which may occur, for example, by alterations in TH production, metabolism and/or TH action in target organs. Objectives: In this paper, we address possible changes in TH transporter expression in liver tissues as a mechanism of age-dependent variation in TH action. Methods: Chronic hyperthyroidism was induced in 4- and 20-month-old C57BL6/NTac male mice (n = 8-10) by intraperitoneal injections of 1 µg/g body weight <smlcap>L</smlcap>-thyroxine (T<sub>4</sub>) every 48 h over 7 weeks. Control animals were injected with PBS. Total RNA was isolated from liver samples for analysis of the TH transporter and TH-responsive gene expression. TH concentrations were determined in mice sera. Results: Baseline serum free T<sub>4</sub> (fT<sub>4</sub>) concentrations were significantly higher in euthyroid young compared to old mice. T<sub>4</sub> treatment increased total T<sub>4</sub>, fT<sub>4</sub> and free triiodothyronine to comparable concentrations in young and old mice. In the euthyroid state, TH transporter expression was significantly higher in old than in young mice, except for Mct8 and Oatp1a1 expression levels. Hyperthyroidism resulted in upregulation of Mct10, Lat1 and Lat2 in liver tissue, while Oatp1a1, Oatp1b2 and Oatp1a4 expression was downregulated. This effect was preserved in old animals. Conclusion: Here, we show age-dependent differences in TH transporter mRNA expression in the euthyroid and hyperthyroid state of mice focusing on the liver as a classical TH target organ.
Background: With the use of modern cross-sectional abdominal imaging modalities, an increasing number of cystic pancreatic lesions are identified incidentally. Although there is no pathological diagnosis available in most cases, it is believed that the majority of these lesions display small branch-duct intraductal papillary mucinous neoplasms (BD-IPMNs) of the pancreas. Even though a number of large clinical series have been published, many uncertainties remain with regard to this entity of mucinous cystic neoplasms. Methods: Systematic literature review. Results: Main-duct (MD) and mixed-type IPMNs harbor a high risk of malignant transformation. It is conceivable that most IPMNs with involvement of the main duct tend to progress to invasive carcinoma over time. Thus, formal oncologic resection is the treatment of choice in surgically fit patients. In contrast, the data regarding BD-IPMN remain equivocal, resulting in conflicting concepts. To date, it is not clear whether and which BD-IPMNs progress to carcinoma and how long this progression takes. Conclusion: While patients with MD-IPMNs should undergo surgical resection if comorbidities and life expectancy permit this, the management of small BD-IPMNs remains controversial. Population-based studies with long-term follow-up are needed to define which cohort of patients can be observed safely without immediate resection.
Because heavy metal ions prefer to bind sulfur, inspired by molybdopterin the main goal of this work was combining dithiolene binding moieties with optically active substituents with the aim to detect/capture metal ions, which could preferably bind to the dithiolene moiety of for instance MPT. Therefore a number of dithiolene based molecules mimicking the natural immediate coordination sphere composition of Mo and W dependent oxidoreductase enzymes were synthesized and characterized by NMR, MS, IR, X-ray crystallography, UV-Vis, EPR and electrochemical methods. In order to work at the lowest possible base concentration due to potentially base sensitive substituents and reaction partners, the procedure for the de-protection of the ligand precursors and the in situ complexation reaction was first optimized in course of the work and interim we explored the surprising fact that the ring opening reaction of the 1,3- dithiol-2-one system is fully reversible and can be controlled simply by adjusting the pH-value of the solution. Then, the coordination behavior of the de-protected ligands towards different metal ions, including biologically relevant ions like Cu+, Cu2+, Fe3+ was tested. As the optically active substituents necessarily possess interesting electronic properties, a second focus of this work was to utilize the developed ligand systems for MoCo and WCo models and to investigate their potential catalytic activity in the model oxotransfer reaction between DMSO and PPh3 in order to evaluate the substituent’s effect on the dithiolene binding moiety.
Chronic Obstructive Pulmonary Disease and Diabetes Mellitus: A Systematic Review of the Literature
(2015)
The objective of this systematic review was to discuss our current understanding of the complex relationship between chronic obstructive pulmonary disease (COPD) and type-2 diabetes mellitus (T2DM). We performed a systematic search of the literature related to both COPD and diabetes using PubMed. Relevant data connecting both diseases were compiled and discussed. Recent evidence suggests that diabetes can worsen the progression and prognosis of COPD; this may result from the direct effects of hyperglycemia on lung physiology, inflammation or susceptibility to bacterial infection. Conversely, it has also been suggested that COPD increases the risk of developing T2DM as a consequence of inflammatory processes and/or therapeutic side effects related to the use of high-dose corticosteroids. In conclusion, although there is evidence to support a connection between COPD and diabetes, additional research is needed to better understand these relationships and their possible implications.