Refine
Year of publication
Document Type
- Article (1833)
- Doctoral Thesis (804)
- Conference Proceeding (17)
- Course Material (4)
- Book (2)
- Part of a Book (1)
- Final Thesis (1)
- Report (1)
Language
- English (2663) (remove)
Is part of the Bibliography
- no (2663)
Keywords
- - (1139)
- Staphylococcus aureus (31)
- proteomics (30)
- plasma medicine (29)
- Plasma (28)
- climate change (28)
- reactive oxygen species (24)
- COVID-19 (23)
- Plasmaphysik (22)
- Germany (21)
Institute
- Institut für Physik (244)
- Institut für Biochemie (213)
- Institut für Botanik und Landschaftsökologie & Botanischer Garten (134)
- Abteilung für Mikrobiologie und Molekularbiologie (131)
- Institut für Pharmazie (129)
- Kliniken und Polikliniken für Innere Medizin (124)
- Zoologisches Institut und Museum (116)
- Institut für Geographie und Geologie (112)
- Institut für Community Medicine (110)
- Klinik und Poliklinik für Neurologie (95)
Publisher
- MDPI (557)
- Frontiers Media S.A. (364)
- Wiley (221)
- S. Karger AG (155)
- Springer Nature (108)
- IOP Publishing (75)
- BioMed Central (BMC) (59)
- SAGE Publications (49)
- Nature Publishing Group (39)
- De Gruyter (22)
In classical Drude theory the conductivity is determined by the mass of the propagating particles and the mean free path between two scattering events. For a quantum particle this simple picture of diffusive transport loses relevance if strong correlations dominate the particle motion. We study a situation where the propagation of a fermionic particle is possible only through creation and annihilation of local bosonic excitations. This correlated quantum transport process is outside the Drude picture, since one cannot distinguish between free propagation and intermittent scattering. The characterization of transport is possible using the Drude weight obtained from the f-sum rule, although its interpretation in terms of free mass and mean free path breaks down. For the situation studied we calculate the Green's function and Drude weight using a Green's functions expansion technique, and discuss their physical meaning.
Based on distributions of local Green's functions we present a stochastic approach to disordered systems. specifically we address Anderson localisation and cluster effects in binary alloys. Taking Anderson localisation of Holstein polarons as an example we discuss how this stochastic approach can be used for the investigation of interacting disordered systems.
We discuss a numerical method to study electron transport in mesoscopic devices out of equilibrium. The method is based on the solution of operator equations of motion, using efficient Chebyshev time propagation techniques. Its peculiar feature is the propagation of operators backwards in time. In this way the resource consumption scales linearly with the number of states used to represent the system. This allows us to calculate the current for non-interacting electrons in large one-, two- and three-dimensional lead-device configurations with time-dependent voltages or potentials. We discuss the technical aspects of the method and present results for an electron pump device and a disordered system, where we find transient behaviour that exists for a very long time and may be accessible to experiments.
Abstract
The known Schiff base compound, (E)1‐benzyl‐3‐((4‐methoxyphenyl)imino)‐5‐methylindolin‐2‐one, was prepared as before by reacting 1‐benzyl‐5‐methylindoline‐2,3‐dione with 4‐methoxyaniline. The product was unambiguously characterized using elemental analysis, 1H and 13C‐NMR spectroscopy, and its new single‐crystal X‐ray structural analysis. Molecular orbital calculations were conducted in order to investigate the structures and relative stabilities of the (E) and (Z) isomers of 1‐benzyl‐3‐([4 methoxyphenyl]‐imino)‐5‐methylindolin‐2‐one. Specific attention was paid to the (E) isomer. The available crystallographic experimental data for the latter ensured also validation of the model structures computationally derived at the theoretical B3LYP/6‐31G(d,p) level.
The geometric arena here is a smooth manifold of dimension n equipped with a Riemannian or pseudo-Riemannian metric and an affine connection. Field theories following from a variational principle are considered on this basis. In this context, all invariants which are quadratic in the curvature are determined. The work derives several manifestly covariant formulas for the Euler-Lagrange derivatives or the field equations. Some of these field theories can be interpreted as gravitational theories alternatively to Einstein´s general relativity theory. The work also touches the difficult problem to define and to calculate energy and momentum of a gravitational field.
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.
Humans are exposed to a plethora of microorganisms that reside on outer and inner body surfaces. These are collectively referred to as the human microbiome. The evolutionary relationship between humans and their microbiome is very complex. It is now widely accepted that these microorganisms are not just passive spectators but play an important role in health. The presence or absence of certain microbes is also linked to various diseases, including inflammatory bowel disease, cardiovascular disease, obesity, cancer, and allergies.
Allergies are several conditions caused by a misguided immune response to foreign antigens that are typically harmless. Common allergic diseases include atopic dermatitis (AD), allergic asthma, hay fever, and anaphylaxis. The incidences of allergic diseases are continuously rising, with up to 40% of the human population thought to be sensitised to environmental antigens. This increased incidence is not simply the result of societies becoming more aware and better at diagnosing these diseases. It is believed that the increases in allergies and sensitisation have environmental causes and are related to Western lifestyles. It is known that the rate of allergies is less frequent in developing countries. They are also more likely to occur in urban than rural areas. The prevailing view of the involvement of bacteria in allergies is described by the hygiene hypothesis. The hypothesis claims that decreased exposure to diverse microbial communities early in life increases the risk of developing allergic diseases. There are numerous examples to support this claim. For example, children born and raised in close contact to farm animals or in the presence of pets, and who are thus in direct and constant contact with a complex microbial environment, are protected from allergic diseases. On the other hand, colonisation or infection with certain bacteria increases allergic disease risks. This seems to contradict the hygiene hypothesis.
It appears that the members of the microbiome have different effects on allergy, and the hygiene hypothesis may not apply to every player in the complex microbial diversity that humans are in contact with. Therefore, a better understanding of the host bacterial interaction is required on the level of bacterial species.
This work studies the interplay between bacteria and the immune system to identify and characterise bacterial components with allergenic properties. In this quest, Staphylococcus aureus (S. aureus) and Staphylococcus epidermidis (S. epidermidis) were investigated for their allergenic properties and involvement in different allergic diseases. In the case of S. aureus, evidence is presented on allergic implications for two different components; serine protease-like proteins (Spls) and superantigens (SAg). Furthermore, experimental support is provided on the allergenic properties of the extracellular serine protease (Esp) from S. epidermidis. We argue that stimulating allergic reactions by staphylococci is an immune evasion mechanism that increases the survival chances of the bacteria within the host.
In chapter 1, an introduction is given to both S. aureus and S. epidermidis and their interactions with the immune system. Also, the bacterial components with allergenic properties and allergic diseases with known bacterial involvement are presented. Finally, the question of why bacteria cause allergy is discussed.
Chapter 2 describes allergic reactions to the Spls of S. aureus in a cohort of cystic fibrosis patients. Chapter 3 focuses on the SAgs of S. aureus. SAgs were discovered more than 30 years ago, but their physiological function is still under discussion. In this chapter, the allergenic properties of SAgs and their possible immunological mechanisms are reviewed, and a possible link between SAgs and allergic diseases is discussed. In chapter 4, the focus shifts to S. epidermidis and its involvement in AD. The human immune response to the Esp from S. epidermidis is characterised in healthy and AD individuals. The allergenic properties of Esp imply a detrimental role of S. epidermidis in AD. Finally, chapter 5 summarises and discusses the results of this thesis. In this section, the pieces are put together, and attention is brought back to the question of why bacteria cause allergies.
Staphylococcus aureussuperantigens (SAgs) are among the most potent T cell mitogensknown.They stimulate large fractions of T cells by cross-linking their T cell receptor withmajor histocompatibility complex class-II molecules on antigen presenting cells, resulting in Tcell proliferation and massive cytokine release. To date, 26 different SAgs have been described in thespeciesS. aureus; they comprise the toxic shock syndrome toxin (TSST-1), as well as 25 staphylococcalenterotoxins (SEs) or enterotoxin-like proteins (SEls). SAgs can cause staphylococcal food poisoningand toxic shock syndrome and contribute to the clinical symptoms of staphylococcal infection. Inaddition, there is growing evidence that SAgs are involved in allergic diseases. This review providesan overview on recent epidemiological data on the involvement ofS. aureusSAgs and anti-SAg-IgEin allergy, demonstrating that being sensitized to SEs—in contrast to inhalant allergens—is associatedwith a severe disease course in patients with chronic airway inflammation. The mechanisms by whichSAgs trigger or amplify allergic immune responses, however, are not yet fully understood. Here, wediscuss known and hypothetical pathways by which SAgs can drive an atopic disease
Oral administration of drugs is the most common, convenient, safest and economical route of drug administration. There is lack of established tools to study the function of transporters in the intestinal absorption of drugs. Because of its favorable physico-chemical, pharmacokinetic and pharmacodynamic characteristics, trospium could be potentially used as a probe substrate to study the function of drug transporters. Therefore, this study was conducted to examine the suitability of trospium chloride as a probe drug to study the function of multidrug transporters in the human body. To this end, two randomized, controlled, four-period, cross-over pharmacokinetic drug interaction studies of oral and intravenous trospium with co-medication of oral clarithromycin or ranitidine were performed in 24 healthy subjects to mechanistically characterize the role of P-gp, OATP1A2, OCT1, OCT2, MATE1 and MATE2-K in the absorption and disposition of trospium. The contribution of the drug transporters in the absorption and disposition of trospium were examined in isolated systems using in vitro uptake and inhibition assays in transporter transfected human cell lines.
OCT1 (Vmax = 0.8 ± 0.1 nmol/min × mg) is a high capacity transporter of trospium compared to OCT2 (Vmax = 0.04 ± 0.01 nmol/min × mg). But the OCT2 (Km = 0.5 ± 0.1 µM) transporter demonstrated a high affinity in the transport of trospium compared to OCT1 (Km = 17.4 ± 2.1 µM). OCT1 genetic alleles *2, *3, *4 and *7 resulted in significant loss of activity and the alleles *5 and *6 caused complete loss of uptake of trospium. The common OCT2 genetic allele Ser270 caused slight but significant increase in activity of OCT2.
Ranitidine inhibits OCT1 (IC50 = 186 ± 25 µM), MATE1 (IC50 = 134 ± 37 µM) and MATE2-K (IC50 = 35 ± 11 µM)-mediated uptake of trospium in vitro. But it is a weak inhibitor of OCT2 transporter (IC50 = 482 ± 105 µM). Using FDA and EMA in vitro to in vivo extrapolation models, ranitidine was predicted to have a potential inhibition effect on intestinal OCT1 ([I]2/IC50 ~40), renal MATE1 ([I]1/IC50 ~0.02) and MATE2-K ([I]1/IC50 ~0.1) transporters in vivo. Clarithromycin was predicted to cause DDI by inhibiting P-gp-mediated efflux of trospium at the intestine ([I]2/IC50 of ~310) and hepatocytes ([I]3/IC50 ~1). Therefore, co-medication of oral clarithromycin was expected to result in an increase in oral absorption and hepatic clearance of trospium but not changes in distribution volume.
In healthy subjects, oral trospium is slowly (MAT ~10 h) and poorly (F ~10 %) absorbed from the jejunum and cecum/ascending colon, widely distributed into the body (Vss = 5 - 6 l/kg) and slowly eliminated (t1/2 = 9 - 10 h) majorly via renal glomerular filtration and tubular secretion (CLR ~500 ml/min). After co-medication of clarithromycin (inhibitor of P-gp), on the contrary to our IVIVE prediction, we found a non-expected but significant expansion of the shallow and deep distribution spaces for trospium by ~27 %. A single dose administration of trospium with co-medication of ranitidine (inhibitor of OCT1) resulted in no effect on the intestinal absorption of trospium. But the renal clearance of trospium decreased slightly (15 %) but significantly.
Intravenously administered trospium (2 mg TC) might be a suitable probe drug to evaluate the effects of a P-gp inhibitor on distribution of a drug. Oral trospium chloride can be selected for DDI studies with new chemical entities (NCE) with predicted inhibitory potential on OCT1 and P-gp and which are available after oral absorption along the small intestine and in the cecum/ascending colon. Another kind of application of trospium chloride might be pharmacogenomics studies in subjects with functionally relevant polymorphisms of P-gp and OCT1 or in patients with suspected transport failure due to intestinal diseases. The function of the efflux transporters MATE1 and MATE2-K in the PTC of the kidneys can be well assessed with the probe drug trospium by measuring its renal clearance.
Neuroblastoma is the most common extracranial, malignant, solid tumor found in children. In more than one-third of cases, the tumor is in an advanced stage, with limited resectability. The treatment options include resection, with or without (neo-/) adjuvant therapy, and conservative therapy, the latter even with curative intent. Contrast-enhanced MRI is used for staging and therapy monitoring. Diffusion-weighted imaging (DWI) is often included. DWI allows for a calculation of the apparent diffusion coefficient (ADC) for quantitative assessment. Histological tumor characteristics can be derived from ADC maps. Monitoring the response to treatment is possible using ADC maps, with an increase in ADC values in cases of a response to therapy. Changes in the ADC value precede volume reduction. The usual criteria for determining the response to therapy can therefore be supplemented by ADC values. While these changes have been observed in neuroblastoma, early changes in the ADC value in response to therapy are less well described. In this study, we evaluated whether there is an early change in the ADC values in neuroblastoma under therapy; if this change depends on the form of therapy; and whether this change may serve as a prognostic marker. We retrospectively evaluated neuroblastoma cases treated in our institution between June 2007 and August 2014. The examinations were grouped as ‘prestaging’; ‘intermediate staging’; ‘final staging’; and ‘follow-up’. A classification of “progress”, “stable disease”, or “regress” was made. For the determination of ADC values, regions of interest were drawn along the borders of all tumor manifestations. To calculate ADC changes (∆ADC), the respective MRI of the prestaging was used as a reference point or, in the case of therapies that took place directly after previous therapies, the associated previous staging. In the follow-up examinations, the previous examination was used as a reference point. The ∆ADC were grouped into ∆ADCregress for regressive disease, ∆ADCstable for stable disease, and ∆ADC for progressive disease. In addition, examinations at 60 to 120 days from the baseline were grouped as er∆ADCregress, er∆ADCstable, and er∆ADCprogress. Any differences were tested for significance using the Mann–Whitney test (level of significance: p < 0.05). In total, 34 patients with 40 evaluable tumor manifestations and 121 diffusion-weighted MRI examinations were finally included. Twenty-seven patients had INSS stage IV neuroblastoma, and seven had INSS stage III neuroblastoma. A positive N-Myc expression was found in 11 tumor diseases, and 17 patients tested negative for N-Myc (with six cases having no information). 26 patients were assigned to the high-risk group according to INRG and eight patients to the intermediate-risk group. There was a significant difference in mean ADC values from the high-risk group compared to those from the intermediate-risk group, according to INRG. The differences between the mean ∆ADC values (absolute and percentage) according to the course of the disease were significant: between ∆ADCregress and ∆ADCstable, between ∆ADCprogress and ∆ADCstable, as well as between ∆ADCregress and ∆ADCprogress. The differences between the mean er∆ADC values (absolute and percentage) according to the course of the disease were significant: between er∆ADCregress and er∆ADCstable, as well as between er∆ADCregress and er∆ADCprogress. Forms of therapy, N-Myc status, and risk groups showed no further significant differences in mean ADC values and ∆ADC/er∆ADC. A clear connection between the ADC changes and the response to therapy could be demonstrated. This held true even within the first 120 days after the start of therapy: an increase in the ADC value corresponds to a probable response to therapy, while a decrease predicts progression. Minimal or no changes were seen in cases of stable disease.