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The aim of the thesis was to identify structure activity relationships (SAR) in the primary screening data of high-throughput screening (HTS) assays. The strategy was to perform a hierarchical clustering of the molecules, assign the primary screening data to the created clusters and derive models from the clusters. The models should serve to identify singletons, clusters enriched with actives, not confirmed hits and false-negatives. Two hierarchical clustering algorithms, NIPALSTREE and hierarchical k-means have been developed and adapted for this purpose, respectively. A graphical user interface (GUI) has been implemented to extract SAR from the clustering results. Retrospective and prospective applications of the clustering approach were performed. SAR models were created by combining the clustering results with different chemoinformatic methods. NIPALSTREE projects a data set onto one dimension using principle component analysis. The data set is sorted according to the scoring vector and split at the median position into two subsets. The algorithm is applied recursively onto the subsets. The hierarchical k-means recursively separates a data set into two clusters using the k-means algorithm. Both algorithms are capable of clustering large data sets with more than a million data points. They were validated and compared to each other on the basis of different structural classes. NIPALSTREE provided with the loading vectors first insights into SAR whereas the hierarchical k-means yielded superior results. A GUI was developed allowing the display of and the navigation in the clustering results. Functionalities were integrated to analyse the clusters in the dendrogram, molecules in a cluster, and physicochemical properties of a molecule. Measures were developed to identify clusters enriched with actives, to characterize singletons and to analyse selectivity and specificity. Different protease inhibitors of the COBRA database were examined using the hierarchical k-means algorithm. Supported by similarity searches and nearest neighbour analyses thrombin inhibitor singletons were quickly isolated and displayed in the dendrogram. By scaling enrichment factors to the logarithm of the dendrogram level, clusters enriched with different structural classes of factor Xa inhibitors were simultaneously identified. The observed co-clustering of other protease inhibitors provided a deeper insight into selectivity and specificity and shows the utility of the approach for constructing focussed screening libraries. Specificity was analyzed by extracting and clustering relative frequencies of the protease inhibitors from the clusters of dendrogram level 7. A unique ligand based point of view on the pocketome of the protease enzymes was obtained. To identify not confirmed hits and false-negatives in the primary screening data of HTS assays, three assays were retrospectively analysed with the hierarchical k-means algorithm. A rule catalogue was developed judging hits in terminal clusters based on the cluster size, the percent control values of the entries in a cluster, the overall hit rate, the hit rate in the cluster and the environment of a cluster in the dendrogram. It resulted in the identification of a high proportion of not confirmed hits and provided for each hit a rating in context of related non-hits. This allows prioritizing compounds for follow-up studies. Non-hits and hits were retrieved from terminal clusters containing hits. Molecules bearing false-negative scaffolds were co-extracted and enriched. To minimize the number of false-positives in the extracted lists, Bayesian regularized artificial neutral network classification models were trained with the data. Applying the models marked improvement of enrichment factors for the false-negatives was obtained. It proofs the scaffold-hopping potential of the approach. NIPALSTREE, the hierarchical k-means algorithm and self-organising maps were prospectively applied to identify novel lead candidates for dopamine D3 receptors. Compounds with novel scaffolds and low nanomolar binding affinity (65 nM, compound 42) were identified. To provide a deeper insight into the SAR of these molecules, different alternative computational methods were employed. Support vector-based regression and partial least squares were examined. Predictive models for dopamine D2 and D3 receptor binding affinity values were obtained. Important features explaining SAR were extracted from the models. The prospective application of the models to the diverse and novel virtual screening data was of limited success only. Docking studies were performed using a homology model of the dopamine D3 receptor. The visual inspection of the binding modes resulted in the hypothesis of two alternative binding pockets for the aryl moiety of dopamine D3 receptor antagonists. A pharmacophore model was created simultaneously requiring both aryl moieties. Virtual screening with the model identified a nanomolar hit (65 nM, compound 59) corroborating the hypothesis of the two binding pockets and providing a new lead structure for dopamine D3 receptors. The presented data shows that the combined approach of hierarchically clustering a data set in combination with the subsequent usage of the clusters for model generation is suited to extract SAR from screening data. The models are successful in identifying singletons, clusters enriched with actives, not confirmed hits and false-negative scaffolds.
The development of novel drugs targeting GPCRs is of particular interest since modulation of subfamilies of this receptor class highly influences neurotransmission in the central nervous system. This study has focused on the development of ligands for the dopamine D3 receptor. The receptor belongs to the dopamine D2-like family among the biogenic amine binding GPCRs. The dopamine D3 receptor is involved in neurological and neuropsychiatric disorders such as Parkinson’s disease, schizophrenia and drug addiction. Due to its close structural similarity to the dopamine D2 receptor subtype, it is still a challenge to identify and further optimize new leads. Therefore an in vitro screening assay, which also allows elucidating comprehensive structure-affinity relationships, is required. In this investigation the implementation and evaluation of radioligand binding assays for human dopamine D2S and dopamine D3 receptors and for the related aminergic human histamine H1 receptor stably expressed in Chinese hamster ovary (CHO) cells has been performed. Saturation binding experiments with [³H]spiperone at dopamine D2S and D3 receptors and with [³H]mepyramine at histamine H1 receptors were carried out. The determined equilibrium dissociation constant of radioligands (Kd) and the total number of specific binding sites (Bmax) of the receptor membrane preparations were in good agreement with reference data. Inhibition constants (Ki) of reference ligands obtained in radioligand competition binding experiments at dopamine hD2S, hD3 and histamine H1 receptors validated the reliability and reproducibility of the assay. In order to discriminate agonists from antagonists, a GTP shift assay has been investigated for dopamine D2S and D3 receptors. In competition binding studies at dopamine D2S receptors the high- and low affinity state in the absence of the GTP analogue Gpp(NH)p has been recognized for the agonists pramipexole and the seleno analogue 54. In the presence of Gpp(NH)p a decrease in affinity, referred to as “GTP shift”, has been revealed for agonists at dopamine D2S and D3 receptors. An effect of Gpp(NH)p on dopamine D2S receptor binding has not been observed for the antagonists ST 198 and BP 897, while a reverse “GTP shift” has been noticed at the dopamine D3 receptor. For the development of novel ligands with high affinity and selectivity for dopamine D3 receptors, investigation in refined structure-affinity relationships (SAR) of analogues of the lead BP 897 has been performed. Replacement of the naphthalen-2-carboxamide of BP 897 by aryl amide residues (1 - 4) had a clear influence on affinity binding and selectivity for dopamine D3 receptors. Introduction of the benzo[b]thiophen-2-carboxamide (1) has markedly improved binding with subnanomolar affinity and enhanced selectivity for dopamine D3 receptors. Exchanging the aryl substituted basic alkanamine residue of 1 by a 1,2,3,4-tetrahydroisoquinoline moiety (6) emphasized the benefit of the 4-(2-methoxyphenyl) piperazine residue of BP 897 regarding dopamine D2 and D3 receptor affinities. The change of particular elements of BP 897 and the rearrangement of the amide functionality resulted in inverse amide compounds with new chemical properties. Moderate affinity binding data, as obtained for the isoindol-1-carbonyl compound 11, suggest that inverse amides provide a worthwhile new lead structure with a novel structural scaffold. A hybrid approach combining privileged scaffolds of histamine H1 receptor antagonists and fragments of dopamine D3 receptor-preferring ligands, related to BP 897and analogues has been investigated. Various benzhydrylpiperazine derivatives and related structures have shown moderate to high affinities for dopamine D3 receptors with the impressive enhancement of the cinnamide substituted bamipine-related hybrid 39, exhibiting the highest affinity and selectivity for dopamine D3 receptors. Improved affinity profiles of structural modified histamine H1 receptor antagonists for dopamine D2 and D3 receptors and a refined SAR has been achieved. A SAR of derivatives of the dopamine agonist pramipexole and the related etrabamine has been studied. The propargyl substituted etrabamine derivative 61 demonstrated highest affinity and selectivity. The ligand attracts attention since neuroprotective properties have been reported for the propargyl functionality. Further development resulted in the most promising compound 64, a cinnamide derivative with 4-fluoro substitution on the phenyl ring. Subnanomolar affinity and remarkable selectivity for dopamine D3 receptors has aroused particular interest in this ligand due to its development potential as a radioligand for PET studies. Radioligand binding studies in combination with virtual screening and different classification techniques of chemoinformatic methods resulted in further elucidation of SAR. New leads with novel chemical scaffolds have been found in the bicycle[2.2.1]heptane derivative 95 and the benzhydrylidene substituted pyrrolidindione 112 and can be further optimized by chemical modifications. The outcome of the studies provides the development of various novel high affine and dopamine D3 receptor selective ligands. Modifications of lead structures or application of chemoinformatic tools in combination with radioligand competition binding assays have resulted in new leads with different chemical scaffolds. Furthermore, a comprehensive insight into structure-affinity relationships of ligands at dopamine D3 receptors has been revealed. This refined SAR is valuable to develop more affine and selective drug candidates with a designed pharmacological receptor profile.
In the first part of the present work (Chapter 3), EPR spectroscopy at different microwave frequencies, namely at 9 GHz (X-band), 34 GHz (Q-band) and 180 GHz (G-band), was employed to resolve the g-values and the HFCs of a putative radical intermediate involved in the reduction of benzoyl-CoA catalyzed by benzoyl-CoA reductase. In particular, the effect of 33S-labeling on the EPR line shape was studied at X- and Q-band frequencies in order to gain further evidence for a sulfur centered radical proposed to be the electron donor in the reduction or the aromatic ring of BCoA [I]. The spectral components observed at X-, Q- and G-band were overall consistent and showed at least three overlapping EPR signals. The signal postulated to be due to a disulfide radical anion showed no resolved g-values and a relaxation behaviour faster than expected for such a radical species. These observations together with the simulations suggest that the signal could arise from a radical exchange coupled to an [4Fe-4S] cluster located nearby. In the future, pulsed EPR and ENDOR spectroscopy on the 57Fe-labeled enzyme could help to solve this question. The potential of high-field ENDOR in combination with 13C- and 31P-labeling for investigating the structure at the active site in proteins could be verified in the studies of the ligation sphere of the cofactor Mn2+ in Ras as reported in Chapter 4 [2]. Therein, high-field ENDOR performed at 94 GHz (W-band) was used to detect the hyperfine interactions between the electron spin mainly located on the metal ion and the phosphorous nuclei of the bound GDP and GppNHp as well as the carbon nuclei of bound amino acids in the wild-type Ras protein and its oncogenic mutant G12V. These studies aimed at searching for an additional free phosphate ion or amino acid ligand bound to the metal center in the wild type GDP-bound protein with respect to its oncogenic mutant. Rom the 13C- and 31P-ENDOR spectra, the hyperfine couplings of directly bound amino acids and the bound nucleotides were compatible with the hyperfine couplings obtained from DFT calculations based on the crystal structure data. No differences in the 13C- and 31P-ENDOR spectra could be found for the wild-type GDP-bound protein in comparison to its oncogenic mutant in frozen solution. Therefore, no evidence for binding of an additional free phosphate ion or amino acid ligand in the wild-type GDP-bound protein was found. The distances between the detected nuclei and the meta1 ion were in agreement with the ones extracted from crystal structures reported in the literature. Future 35C1-ENDOR studies could clarify whether a chloride ion from the buffer solution could be the ligand replacing one water molecule in the wild type GDP-bound Ras. In Chapter 5, the implementation of a high-field ENDOR setup into a homebuilt pulsed EPR spectrometer operating at 180 GHz is reported and its performance for 1H-ENDOR demonstrated on the model system BDPA. Mims and Davies ENDOR spectra were also obtained for Ras(wt).Mn2+.DP. The increased nuclear Zeeman resolution at 180 GHz may be further exploited in the future by extending the setup for studying hyperfine couplings of low-y nuclei such as 33S, 15N , 17O or 2H. In the present work, the advantages of performing EPR and ENDOR experiments at high fields and frequencies could be nicely demonstrated with the 94 GHz ENDOR studies of Ras. Furthermore, the complementing information obtained at X- and Q-band frequencies in the multifrequency EPR studies on BCR demonstrated that the analysis of EPR spectra can be greatly facilitated by simulating the spectra measured at different MW frequencies with the same set of parameters consistent with a proposed radical. Overall, it could be shown that the use of different experimental techniques at multiple fields and frequencies renders EPR spectroscopy a powerfull tool for structural studies in biological systems.
Compared to all other organisms with 1 to 3 heat stress transcription factors (Hsfs) or Hsf-related factors, plants have extraordinarily large Hsf families with more than 20 Hsfs. Plant Hsfs are classified into three classes according to their oligomerization domains which is built of hydrophobic heptad repeats (HR) in two parts, HR-A and HR-B. Both parts may be immediately adjacent (class B), or they are separated by insertion of 21 (class A) and 7 amino acid residues (class C). In plant Hsf family, detailed investigations are so far limited to Hsfs A1a, A2, A3, A4d, A9, and B1. They strongly indicate functional diversification to be the main reason for the coexistence of multiple Hsfs. As an example the functional triad of HsfA1a, HsfA2, and HsfB1 is essential for all three phases of the hs response, (i) the triggering of the response by HsfA1a as master regulator, (ii) the maintenance and high efficiency of hs gene transcription by cooperation of HsfA1a with Hsfs A2 and B1, and finally, (iii) the restoration of house-keeping gene transcription during the recovery phase mediated by HsfB1 in cooperation with house-keeping transcription factors. The results presented in this thesis for Hsfs A4 and A5 open completely different aspects of functional diversification and cooperation of Hsfs. HsfA4 and HsfA5 homooligomerize and bind to corresponding HSE motifs. But in contrast to the highly active HsfA4, HsfA5 is completely inactive as transcriptional activator. Yeast two hybrid and GST pull-down techniques showed that both Hsfs have strong tendency for heterooligomerization. Using fluorescence microscopy the HsfA4/A5 heterooligomers were found to localize in the nucleus. These complexes are transcriptionally inactive due to the impairment of DNA binding. The repressor function of HsfA5 requires only its OD and no additional factors, e.g. a putative co-repressor recruited by the C-terminal domain, are involved. Evidently, the repressor effect mainly results from the interference with the oligomeric state of HsfA4b, which is essential for efficient DNA binding and activator functions. EST database search revealed that plants have a single HsfA5 and usually two A4-type Hsfs. Using bioinformatics tools, Hsfs A4 and A5 were found to be phylogenetically closely related and clearly distinct from the other members of the Hsf family. On the basis of RT-PCR and Microarray data the representatives of the A4/A5 group are well expressed in different plant tissues albeit at very different levels which change with the developmental stages and stress conditions In rice and Arabidopsis, HsfA4 functions as an anti-apoptotic factor for stress induced oxidative damages. Based on my results, I hypothesize that HsfA5 functions as a novel type of selective repressor, regulating the function of A4-type Hsfs in plants. Considering the high sequence conservation with in plant Hsf family, it is tempting to speculate that this role of Hsf4/A5 pair is a fundamental feature of the Hsf system in plants.
One of the most important tasks in chemistry and especially in structural biology has always been the elucidation of three-dimensional molecular structures - either of small molecules or large biopolymers. Among the (bio)physical methods to acquire structural data at atomic resolution electron paramagnetic resonance (EPR) spectroscopy is the most valuable technique for obtaining structural information about many different kinds of paramagnetic species. In biological systems, either paramagnetic metal ions/clusters, transient paramagnetic intermediates in electron transfer processes or artificially attached stable spin labels can be found. The usual approach to interpret EPR spectra is to perform simulations based on the so-called spin Hamiltonian (SH). This means that the well-defined numerical parameters (tensors) in the SH representing different types of interaction are obtained by fitting the experimental data. The SH parameters include electronic g-values, hyperfine coupling (HFC) and quadrupole coupling (&C) constants, zero-field splittings and constants to describe exchange and dipolar interactions between electron spin systems. However, since the SH only contains spin degrees of freedom, a direct translation of the SH EPR parameters into structural information is not straightforward. Therefore, methods to predict such SH interaction parameters starting from molecular structures are required. In this thesis it was investigated whether quantum chemical calculations of EPR parameters based on density functional theory (DFT) methods may be employed to overcome these problems thus enabling a correlation of experimental EPR data with molecular structure. It was the central goal of this work to point out the potential of a fruitful interplay between quantum chemistry and experiment and to study how both can benefit from each other. For this purpose DFT methods were applied to a variety of organic radical or transition metal systems to calculate different EPR parameters. Using the 'broken symmetry' formalism it was possible to compute the exchange coupling constant for a nitroxide biradical and furthermore decompose the exchange mechanism in different through-bond and through-space interactions. Spin density distributions, 14N and 1H HFC constants as well as dipole moments and polarizabilities were computed for a number of aromatic nitroxides to examine their properties and select promising candidates which may serve as DNA-intercalating spin labels. Systematic investigations of the influence of hydrogen bond geometry on the 14N QC parameters for imidazole-water and methylimidazole-benzosemiquinone complexes lead to the conclusion that especially the imidazole amino nitrogen &C parameters are very sensitive probes of the bond geometry, in particular of the hydrogen bond length. The results of this study may be applied to biological systems, e.g. to gain structural information about quinone binding sites. Moreover, quantum chemical methods were applied to elucidate the structure of a nitrogen-centered radical intermediate in the inhibition process of ribonucleotide reductase (RNR). It was possible to find a molecular structure in accordance with all experimentally available data, thus revealing the longsought structure of the No radical and providing evidence for the trapping of a 3'-ketonucleotide in the reduction process catalyzed by RNR. To test the capability of modern DFT methods to predict g- and molybdenum HFC tensors for MoV complexes, validation studies were carried out. Comparison of computed EPR parameters of a number of MoV compounds with corresponding experimental values showed that g- and HFC tensors could be predicted in good accuracy, although some systematic errors of the computational methods have to be considered for such heavy 4d1 transition meta1 systems. Furthermore, DFT calculations on a Mn2+ binding site model of the hammerhead ribozyme allowed to conclude that the structure of the binding site as studied by EPR spectroscopy in frozen solution is very likely to be identical to the site found occupied by Mn2+ in crystals. Finally, computational methods were employed to aid in the structural characterization of the Mn2+ binding site in Ras (rat sarcoma protein) by providing accurate starting parameters for spectral simulations and furthermore helping to interpret the experimental data. In conclusion, it was demonstrated in this thesis that the combination of sophisticated experimental and quantum chemical methods represents a powerful approach in the field of EPR spectroscopy and that it may be essential to employ EPR parameter computations to extract the full information content from EPR spectra. Therefore, great potential lies in future applications of DFT methods to the large number of systems where detailed and reliable experimental data is available but where an unequivocal correlation of these data with structural information is still lacking.
HELEX Septal Occluder for transcatheter closure of patent foramen ovale : multicenter experience
(2006)
Aims Patients with cryptogenic embolic events and a patent foramen ovale (PFO) are at risk of paradoxical embolism causing recurrent cerebral events; however, transcatheter PFO closure remains controversial. The aim of this multicenter trial was to demonstrate the feasibility and safety of transcatheter closure of PFO with the HELEX Septal Occluder. Methods and results The study enrolled 128 patients (66 female; mean age, 50 years). Mean (± SD) PFO size was 10±3.7 mm; 38 patients also had an atrial septal aneurysm. Device implantation was successful in 127 patients. Device-related events during implantation or follow-up were device embolisation, wire-frame fracture, and retrieval cord breaks (two cases each; no sequelae). Other adverse events included atrial arrhythmia (two patients), migraine, convulsion, and transient ischaemic attack (one case each). There were no recurrent strokes, deaths, perforations, or accumulations of thrombi on the device. Within a mean follow-up period of 21±11 months, complete PFO closure using one device was achieved in 114 patients (90%). Five patients with a moderate to large residual shunt received a second device. Conclusion The HELEX Occluder can be used for PFO closure. Device- and procedure-related complications are rare. The closure procedure appears to reduce recurrence rates of stroke and transient ischaemic attack.
We consider the theory of high temperature superconductivity from the viewpoint of a strongly correlated electron system. In particular, we discuss Gutzwiller projected wave functions, which incorporate strong correlations by prohibiting double occupancy in orbitals with strong on-site repulsion. After a general overview on high temperature superconductivity, we discuss Anderson’s resonating valence bond (RVB) picture and its implementation by renormalized mean field theory (RMFT) and variational Monte Carlo (VMC) techniques. In the following, we present a detailed review on RMFT and VMC results with emphasis on our recent contributions. Especially, we are interested in spectral features of Gutzwiller-Bogoliubov quasiparticles obtained by extending VMC and RMFT techniques to excited states. We explicitly illustrate this method to determine the quasiparticle weight and provide a comparison with angle resolved photoemission spectroscopy (ARPES) and scanning tunneling microscopy (STM). We conclude by summarizing recent successes and by discussing open questions, which must be solved for a thorough understanding of high temperature superconductivity by Gutzwiller projected wave functions.
Concentration of multivariate random recursive sequences arising in the analysis of algorithms
(2006)
Stochastic analysis of algorithms can be motivated by the analysis of randomized algorithms or by postulating on the sets of inputs of the same length some probability distributions. In both cases implied random quantities are analyzed. Here, the running time is of great concern. Characteristics like expectation, variance, limit law, rates of convergence and tail bounds are studied. For the running time, beside the expectation, upper bounds on the right tail are particularly important, since one wants to know large values of the running time not taking place with possibly high probability. In the first chapter game trees are analyzed. The worst case runnig time of Snir's randomized algorithm is specified and its expectation, asymptotic behavior of the variance, a limit law with uniquely characterized limit and tail bounds are identified. Furthermore, a limit law for the value of the game tree under Pearl's probabilistic modell is proved. In the second chapter upper and lower bounds for the Wiener Index of random binary search trees are identified. In the third chapter tail bounds for the generation size of multitype Galton-Watson processes (with immigration) are derived, depending on their offspring distribution. Therefore, the method used to prove the tail bounds in the first chapter is generalized.
Integral membrane proteins (IMPs) account for 20-40% of all open reading frames in fully sequenced genomes and they are target of approximately 60% of all modern drugs. So far, cellular expression systems are often very insufficient for the high-level production of IMPs. Toxic effects, instability or formation of inclusion bodies are frequently observed effects that prevent the synthesis of sufficient amounts of functional protein. I have successfully established an individual cell-free (CF) expression system to overcome these IMP synthesis difficulties. The CF system was established in two different expression modes. If no hydrophobic compartment is provided, the IMPs precipitate in the reaction mixture. Interestingly, these insoluble proteins are found to differ from inclusion bodies as they readily solubilize in mild detergents and the bacterial small multi drug transporter EmrE, expressed in the insoluble mode was shown to reconstitute into liposomes in an active form. Alternatively, IMPs can be synthesized in a soluble way by supplementing the CF system with detergents. A comprehensive overview of 24 commonly used detergents was provided by analyzing their impact on the CF system as well as their ability to keep three structurally very different proteins in solution. The class of long chain polyoxyethylene-alkyl-ethers turned out to be most suitable for soluble expression of a-helical EmrE, the bacterial b-barrel type nucleoside transporter Tsx and the porcine vasopressin receptor type 2, resulting in several mg of protein per mL of reaction mixture. So far IMPs have almost completely been excluded from solution nuclear magnetic resonance (NMR) analyses. I could demonstrate that CF expression enables efficient isotopic labeling of IMPs for NMR analysis and further facilitates selective labeling strategies with combinations of 13C and 15N enriched amino acids that have not been feasible before. Four different G-protein coupled receptors (GPCRs) were successfully CF expressed in preparative scale and for the human endothelin B receptor (ETB), ligand binding ability was observed. A series of truncated ETB derivatives containing nested terminal deletions have been CF produced and functionally characterized. The core area essential for Endothelin-1 binding as well as a central region responsible for ETB oligomer formation was confined to a 39 amino acid fragment including the proposed transmembrane segment 1. The binding constant (KD) of ETB was determined to 6 nM for circular ET-1 by SPR and 29 nM for linear ET-1 by TIRFS. This data indicate a large potential of the established individual CF expression system for functional IMP synthesis.
The dissertation collects four self-contained essays which contribute to the literature on wage structures, heterogeneous labor demand, and the impact of trade unions. The first paper provides a detailed description of the evolution of wage inequality in East and West Germany in the late years of the twentieth century. In contrast to previous decades, wage inequality has been rising in several dimensions during that period. The second paper identifies cohort effects in the evolution of both wages and employment. Observed structures are consistent with a labor demand framework that incorporates steady skill-biased technical change. Substitutability between skill and age groups in the German labor market is found to be relatively high. Simulations based on estimated elasticities of substitution illustrate that higher wage dispersion between skill groups would have contributed to a reduction in unemployment. The third paper estimates determinants of individual union membership decisions and studies the erosion of union density in East and West Germany. Using corresponding predictions of net union density, the fourth paper analyzes the link between union strength and the structure of wages. A higher union density is associated with lower residual wage dispersion, reduced skill wage differentials, and a lower wage level. This finding is in line with an insurance motive for union action. The thesis comprises the following articles: (1) “Rising Wage Dispersion, After All! The German Wage Structure at the Turn of the Century,” IZA Discussion Paper 2098, April 2006. (2) “Skill Wage Premia, Employment, and Cohort Effects: Are Workers in Germany All of the Same Type?”, IZA Discussion Paper 2185, June 2006, joint with Bernd Fitzenberger. (3) “The Erosion of Union Membership in Germany: Determinants, Densities, Decompositions,” IZA Discussion Paper 2193, July 2006, joint with Bernd Fitzenberger and Qingwei Wang. (4) “Equal Pay for Equal Work? On Union Power and the Structure of Wages in West Germany, 1985–1997,” translation of “Gleicher Lohn für gleiche Arbeit? Zum Zusammenhang zwischen Gewerkschaftsmitgliedschaft und Lohnstruktur in Westdeutschland 1985–1997,” Zeitschrift für Arbeitsmarkt-Forschung, 38 (2/3), 125-146, joint with Bernd Fitzenberger, 2005.
Amblyopia is a developmental disorder of the visual system that leads to reduced vision in one or both eyes. People suffering from amblyopia show different perceptual deficits like reduced contrast sensitivity, reduced or no stereopsis, spatial uncertainty, and spatial and temporal distortions when viewing with the amblyopic eye. In the following thesis, different psychophysical methods are used to investigate anomalous perception of amblyopic participants in detail with the main focus on the perception of temporal instability. In the qualitative experimental paradigms it is shown that temporal instability is mainly perceived by strabismic and strabismic-anisometropic amblyopes. The temporal deficits occur only at spatial frequencies higher than 1.6 c/deg, and are perceived in addition to the spatial distortions. Illusory colours sometimes accompany the temporal distortions. There seems to be a relationship between crossed hand and eye dominance and the perception of temporal instability. In the quantitative experiments it is shown that temporal instability in amblyopic perception has a negative impact on the performance in psychophysical tasks. Amblyopes perceiving temporal instability show enhanced spatial uncertainty and spatial distortions for different types of stimulus presentation (auditive vs. visual) when compared to amblyopes without temporal instability. This might be due to deficits in auditive-visual mapping. These deficits in auditory-to-visual mapping suggest an impairment of the dorsal “where” pathway. Thus, it might be that amblyopes with temporal distortions have deficits in the dorsal pathway that come up in addition to the known deficits of the ventral “what” pathway and are related to the perception of temporal instability. The different results of the experiments found in this thesis seem to confirm this hypothesis. Studies using functional imaging techniques might be appropriate for a further investigation of amblyopic deficits involving the dorsal pathway.
Eine große Zahl natürlicher sekundärer Metabolite sind kleine und strukturell oft sehr verschiedene Polypeptide und Polyketide. Diese bioaktiven Substanzen haben im allgemeinen ein breit aufgestelltes therapeutisches Potential und werden von verschiedenen bakteriellen Stämmen und Pilzen biosynthetisiert. Sie sind sowohl biologisch, als auch therapeutisch wichtig als Cytostatika, Immunsuppressiva und Antibiotika mit einem sehr großen antibakteriellen und antiviralen Potential. Diese oft äußerst komplexen Polypeptide und Polyketide werden von modular aufgebauten Megaenzymen in mehrstufigen Mechanismen synthetisiert. Für die Synthese dieser Peptide sind sehr große Proteincluster verantwortlich, die meistens aus einer begrenzten Anzahl sehr großer, Multidomänen umfassenden, Superenzyme aufgebaut werden. Diese Proteincluster mit einem Molekulargewicht bis in den Bereich von MegaDalton werden als nicht-ribosomale Peptidsynthetasen (NRPS) und Polyketidsynthetasen (PKS) bezeichnet. Die NRPS Systeme zeichnen sich dadurch aus, daß für die biosynthetisierten Polypeptide keine Information in Form von Nukleinsäuren wie DNA oder RNA kodiert (Walsh, C.T., 2004; Sieber & Marahiel, 2005). Für die Synthese der Polypeptide ist eine Aktivierung der einzelnen Bausteine, der Aminosäuren, durch Amino-acyl-adenylierung notwendig. Im Anschluß an die Aktivierung, wird die aktivierte Aminosäure über einen Thioester gebunden weitertransportiert. Die Thioesterbildung erfolgt an Cysteaminthiolgruppen intrinsischer 4’-Phosphopantethein-kofaktoren. Eine Modul einer NRPS stellt eine geschlossene Einheit zum Einbau einer Aminosäure mit einer hohen Spezifität für das Substrat und die biosynthetische Reaktion dar. Diese Module sind aus Domänen aufgebaut, die definierte Funktionen haben und mittels flexibler Linker miteinander verbunden sind. Die Domänen werden nach ihrer Funktion unterschieden. Die Acyl-adenylierung oder Aktivierung eines Substrates, beispielsweise einer Aminosäure, erfolgt durch die A-Domänen. Die Peptidyl- oder Acyltransportfunktion der aktivierten Substrate wird durch Thioester-domänen (T-Domäne), auch PCP (peptidyl carrier domain) genannt, bewältigt. Die Biosynthese der Kopplungsreaktion, beispielsweise die Ausbildung der Peptidbindung in NRPS Systemen, erfolgt an den Kondensations-Domänen (C-Domäne). Für die Substratspezifität eines Synthesemoduls sind die A-Domänen verantwortlich, welche die Aktivierung eines Substrat durch ATP-Hydrolyse ermöglichen. In NRPS Systemen sind auch Zyklisierungsreaktionen, durchgeführt von Cyclase-Domänen (Cy-Domänen), L/D-Epimerase-funktionen (E-Domänen) und N-Methylierungen (M-Domänen) beschrieben. So wird in Tyrocidin A an zwei Positionen spezifisch Phenylalanin in die D-Form epimerisiert und anschließend in der Peptidbiosynthese verwendet. Die Interaktion und Erkennung zwischen den multi-modularen Superenzymen, zum korrekten Aufbau der kompletten Synthetase, wurden in letzter Zeit Kommunikations-Domänen (COM-Domänen) beschrieben. Wie die aufgebaute Synthetase die korrekte Sequenz der biosynthetischen Reaktionsschritte sicherstellt ist nicht bekannt. Die enorme Diversität biosynthetischer Reaktionen in NRPS Systemen und die hohe Substratvielfalt in den verschiedensten Synthetasen unterschiedlicher Stämme eröffnet ein weites Feld für mögliche Neukombinationen von Modulen und Modifikationen von Produkten, um neue bioaktive Polypeptide mit antibiotischen Eigenschaften durch die Gestaltung neuer biosynthetischer Reaktionswege zu erhalten. Die Biosyntheseprodukte der NRPS und PKS Systeme lassen sich Gruppen kategorisieren wie Peptidantibiotika, beispielsweise beta-Lactame und makrozyklischer Polypeptide. Weitere Gruppen sind die makrozyklischen Lactone, beispielsweise Polyene und Makrolide, aromatische Verbindungen, wie Chloramphenicol, und Chinone (Tetracyclin). Die näher diskutierten Beispiele sind die antibakteriellen Polypeptide Surfactin und Tyrocidin A. Surfactin ist ein antibakteriell wirkendes makrozyklisches Lipoheptapeptid, welches von Bacillus subtilis synthetisiert wird und ein enormes antivirales Potential besitzt. Tyrocidin A ist ein antibakteriell wirkendes makrozyklisches Decapeptid und wird von Bacillus brevis und Brevisbacillus parabrevis synthetisiert. Zusätzlich werden viele bakterielle Toxine ebenfalls durch solche Systeme multi-modularer Synthetasen erzeugt. Ein Beispiel ist das Polyketid Vibriobactin, das Toxin des humanpathogenen Bakterium Vibrio cholerae. Ein zunehmendes Problem der wachsenden Weltbevölkerung moderner Gesellschaften und in den Entwicklungsländern ist die wachsende Zahl multiresistenter Bakterienstämme. Die starke Progression in der Entwicklung von Resistenzen gegen Antibiotika ist auch Gegenstand des aktuellen WHO-Reports (2006). Alarmierend ist die beschleunigte Resistenzentwicklung gegen die sogenannten Reserveantibiotika Vancomycin und Ceftazidim. Ein umfangreicheres Verständnis der Interaktion zwischen Domänen in einem Modul und zwischen Modulen eines NRPS Systems ist Grundlage für die Neukombination unterschiedlicher Module zur erfolgreichen Gestaltung neuer Biosynthesen. Da die meisten dieser Biosynthesen oder die Synthese alternativer Substanzen nicht in der Organischen Chemie zu realisieren sind oder die Produkte zu teuer wären, um diese in großen Mengen zu erzeugen, muß das Ziel sein die NRPS und PKS Systeme in ihrem modularen Aufbau und ihre Interaktion zu verstehen, um alternative Antibiotika biosynthetisch herzustellen. Peptidyl Carrier Proteine (PCPs) sind kleine zentrale Transport-Domänen, integriert in den Modulen nicht-ribosomaler Peptidsynthetasen (NRPSs). PCPs tragen kovalent über eine Phosphoesterbindung einen aus dem Protein herausragenden 4’-phosphopantetheinyl (4’-PP) Kofaktor. Der 4’-PP Kofaktor ist an der Seitenkette eines hochkonservierten Serins gebunden, welche ein zentraler Bestandteil der Phosphopantethein-Erkennungs-Sequenz ist. Die Erkennungssequenz ist homolog in vielen Proteinen mit ähnlicher Funktion, inklusive Acyl Carrier Proteinen (ACPs) der Fettsäuresynthetasen (FAS) und der Polyketidsynthetasen (PKS). Die Thiolgruppe des 4’-PP Kofaktors dient zum aktiven Transport der Substrate und der Intermediate der NRPS Systeme. Die generelle Organisation und die Kontrolle der exakt aufeinander folgenden Reaktionsschritte in der Peptidsynthetase, ist die entscheidende Frage für die Funktion des Proteinclusters (assembly line mechanism). In Modulen der NRPS Systeme folgen die PCP-Domänen C-terminal auf die Adenylierungsdomänen (A-Domäne). Die Aufgabe der A-Domänen ist die Selektion and die Aktivierung einer spezifischen Aminosäure für die „assembly line“. Die eigentliche Bildung der Peptidbindung erfolgt an der Kondensations-Domäne (C-Domäne). Der Transfer der Peptidintermediate und der aktivierten Aminosäuren zwischen A-Domänen und C-Domänen ist Aufgabe der PCPs. Um diese Funktion erfüllen zu können, ist eine große Bewegung in PCPs, bzw. des 4’-PP Kofaktors notwendig, welche als „swinging arm model“ (Weber et al., 2001) beschrieben wurde. Die PCPs koordinieren damit die Peptidbiosynthese während sie mit diversen Domänen der Synthetasen spezifisch wechselwirken müssen. Die molekularen Mechanismen des Transportes wurden bisher allerdings nicht untersucht. Eine Dynamik der Transport-Domänen wurde bereits postuliert (Kim & Prestegard, 1989; Andrec et al., 1995), konnte bisher aber nicht gezeigt werden (Weber et al., 2001). Interessanterweise zeigt sowohl apo-PCP (ohne den kovalent gebundenen 4’-PP Kofaktor) also auch holo-PCP langsamen chemischen Austausch, der als jeweils zwei stabile Konformationen beschrieben werden konnte. Diese jeweils zwei stabilen Zustände, welche sich im Austausch befinden, wurden als A und A*, für apo-PCP, und entsprechend H und H* für holo-PCP bezeichnet. Während der A- und der H-Zustand sich sowohl voneinander als auch von den entsprechenden A* und H*-Zuständen unterscheiden und spezifisch für die apo- und die holo-Form von PCP sind, ist die kalkulierte Struktur vom A*-Zustand größten Teils identisch mit der des H*-Zustandes. Die erhaltenen NMR-Strukturen des A-Zustandes, des H-Zustandes und des gemeinsamen A/H-Zustandes beschreiben in ihrer Gesamtheit ein neues Modell für ein allosterie-kontrolliertes System dualer konformationeller Zwei-Zustands-Dynamik. Zu dem beobachteten konformationellen Austausch der PCP-Domäne, konnte die Bewegung des 4’-PP Kofaktors koordiniert werden. Die Bewegung des 4’-PP Kofaktors in Verbindung mit dem konformationellen Austausch der PCP-Domäne charakterisiert die Interaktion mit katalytischen Domänen eines NRPS Moduls. Des weiteren konnte mit Hilfe des Modells die Wechselwirkung mit externen Interaktionspartnern, wie der Thioesterase II und der 4’-PP Transferase, untersucht werden. Die externe Thioesterase II der Surfactin-Synthetase (SrfTEII) von Bacillus subtilis ist ein separat expremiertes 28 KDa Protein. Sie gehört zur Familie der alpha/beta-Hydrolasen und ist verantwortlich für die Regenerierung falsch beladener 4’- PP Kofaktoren der Peptidyl Carrier Domänen. Die SrfTEII wurde mittels Lösungs-NMR untersucht, die Resonanzen wurden zugeordnet, erste strukturelle Modelle konnte berechnet werden und das Interaktionsverhalten mit verschiedenen modifizierten Kofaktoren und PCPs wurde analysiert. Die Spezifität der Substraterkennung durch die SrfTEII kann beschrieben werden. Interessanterweise zeigt auch die SrfTEII Doppelpeaks für einzelne Aminosäuren, diese können als Indikator für eine spezifische Substraterkennung durch das Enzym verwendet werden und helfen den funktionellen Unterschied zwischen der SrfTEI-Domäne und SrfTEII zu verstehen.
The objective of this study is the avifauna of the North American Green River Formation. Five new Green River bird species as well as several new specimens of already known species are described. * Galliformes: Gallinuloides wyomingensis EASTMAN 1900 A second specimen of the galliform Gallinuloides wyomingensis could be identified. Gallinuloides wyomingensis resembles closely Paraortygoides MAYR 1999, which is known from Messel and the London Clay. The new specimen exhibits characters such as a cup-like cotyla scapularis of the coracoid that clearly indicate that Gallinuloides is a stem-group representative of galliforms. * Eurypygidae: Eoeurypyga olsoni gen. et sp. nov. Eoeurypyga is the only fossil representative of the Eurypygidae. Eoeurypyga and the modern sunbittern Eurypyga helias share the typical long bill, the caudally situated neck and the elongated vertebrae cervicales. Additional synapomorph characters were found. The new species indicates a North American origin for the Eurypygidae. * Messelornithidae: Messelornis nearctica HESSE 1992 The original description of Messelornis nearctica was based on a single specimen. Ten new specimens, described in this study, reveal additional information. Messelornis nearctica shows the same large intraspecific size range as Messelornis cristata HESSE 1988 from Messel, the type species of the genus. * Apodidae: Wyomingcypselus pohli gen. nov. sp. nov. Wyomingcypselus pohli is the first described fossil apodiform bird for North American. Due to characters of the wing, especially the position of the processus musculi extensor metacarpi radialis, Wyomingcypselus is referrred to the Apodidae. * Trogoniformes: unnamed species The Green River birds include a poorly preserved, but apparently heterodactyl specimen, which also resembles trogons in overall appearance. * Primobucconidae: Primobucco mcgrewi BRODKORB 1970 Originally, Primobucco mcgrewi was only known from a partial skeleton consisting of the right wing. Three new specimens could be referred to the species. Primobucco mcgrewi clearly exhibits an anisodactyl foot, which makes the assignment to the zygodactyl Bucconidae highly doubtful. Instead, Primobucco mcgrewi is referrred to the Coraciiformes s.s. Thus, Primobucconidae are the first New World representatives of stem-group Coraciiformes. * ?Leptosomidae: Plesiocathartes wyomingensis sp. nov. and Plesiocathartes major sp. nov. Plesiocathartes wyomingensis and Plesiocathartes major represent the first North American record for the genus. Both species exhibit the diagnostic characters for the Leptosomidae as listed by MAYR (2002a, b). * Primoscenidae: Eozygodactylus americanus gen. et sp. nov. and unnamed species Eozygodactylus americanus is the first North American member of this taxon. Both Eozygodactylus americanus and the unnamed species show the zygodactyl foot and the large processus intermetacarpalis of the carpometacarpus, which are typical for Primoscendiae. Due to differences mainly of the humerus, it was placed in a new genus. Besides the descriptionof new species, the avifauna of the Green River Formatin was studied and compared with the avifauna of Messel. The formations show a high concordance, more than 60 % of the Green River taxa also occur in Messel. Such a high concordance is also found for mammals. This is due to the existence of two landbridges, the Thule landbridge and the de Geer landbridge, between Europe and North America during the early Eocene.
Shrew-1 wurde bei der Suche invasivitätsassoziierter Gene mittels eines DDRT-PCR-Ansatzes aus invasiven Zellen isoliert. Wie computergestützte Analysen der Sequenz ergaben, wies das bis dahin unbekannte Protein keinerlei Ähnlichkeiten mit bereits bekannten Proteinen auf und homologe Proteine wurden bisher nur in Vertebraten gefunden. Expressionsanalysen mit einem GFP-markierten shrew-1 zeigten, dass es an der basolateralen Plasmamembran lokalisiert, wo es mit dem E-Cadherin vermittelten Adhäsions-Komplex kolokalisiert. Eine Integration in diesen Komplex geschieht höchstwahrscheinlich durch direkte Interaktion mit β-Catenin. Ein weiteres Molekül das als potenzieller Interaktionspartner von shrew-1 identifiziert wurde und das in der Literatur oft als Tumorsuppressor diskutiert wird, ist Caveolin-1. Ferner konnten Überexpressionexperimente bereits zeigen, dass shrew-1 die Invasivität von HT1080-Zellen erhöhen kann. Das Ziel dieser Arbeit war es, zum einen mit Hilfe des Hefe-Split-Ubiquitin-Systems eine Interaktion von shrew-1 und Caveolin-1 zu bestätigen und zum anderen neue Interaktionspartner zu identifizieren, die helfen könnten, die Rolle von shrew-1 in invasiven Vorgängen zu erklären. Um eine mögliche Verbindung von shrew-1 und einem neuen Interaktionspartner in Bezug auf die Zellinvasivität zu untersuchen, sollten sowohl shrew-1 als auch der potenzielle Interaktionspartner mittels RNAi ausgeschaltet werden. Mit Hilfe des Split-Ubiquitin-Systems war es möglich, die Interaktion zwischen shrew-1 und caveolin-1 zu bestätigen und zu zeigen, dass diese durch die zytoplasmatische Domäne von shrew-1 vermittelt wird. Weiterhin konnte CD147 als neuer Interaktionpartner identifiziert werden. Eine Interaktion beider Proteine konnte ferner mit Hilfe des Bimolekularen-Fluoreszens-Komplementations-Systems (BIFC), des Fluoreszens-Resonanz-Energie-Transfers (FRET) und Coimmunoprezipitationen bestätigt werden. Die Interaktion von shrew-1 und CD147 scheint allerdings abhängig vom zellulären Kontext zu sein, wie die FRET-Analysen vermuten lassen. So konnte nämlich mit diesen Analysen eine starke Interaktion in MCF7-Zellen gezeigt werden, wohingegen die Interaktion in MDCK-Zellen schwächer war. Einer der auffälligsten Unterschiede dieser beiden Zelllinien im Bezug auf diese Interaktion könnte sein, dass MCF7-Zellen im Gegensatz zu MDCK-Zellen kein Caveolin-1 exprimieren. Caveolin-1 konnte seinerseits als Interaktionspartner von shrew-1 mit Hilfe des Hefe-Split-Ubiquitin-Systems bestätigt werden und andererseits wurde von einer anderen Arbeitsgruppe eine Interaktion von CD147 mit Caveolin-1 publiziert. Um dies näher zu untersuchen, wurde Caveolin-1 in MCF7-Zellen exprimiert und die FRET-Analysen in diesen wiederholt. Wie vermutet kam es zu einer Reduktion der Interaktion in Caveolin-1 exprimierenden MCF7-Zellen. CD147 ist neben vielen anderen Funktionen auch maßgeblich an der Regulation von Matrix-Metalloproteinasen beteiligt und kann somit die Invasivität von Zellen beeinflussen. Um einen Einfluß von shrew-1 und CD147 auf die Invasivität zu untersuchen, wurden beide Proteine mittels RNAi in HeLa-Zellen ausgeschaltet. Nachdem ein negativer Einfluss dieses Ansatzes auf das Proliferationsverhalten der Zellen ausgeschlossen werden konnte, wurde ein möglicher Effekt auf die Invasivität der Zellen untersucht. Durch die Analyse in Matrigel-Invasionsassays konnte gezeigt werden, dass das unabhängige Ausschalten beider Proteine die Invasivität der Zellen auf 35-55% im Vergleich zu Kontrollzellen reduziert. Die Ergebnisse dieser Arbeit untermauern die Annahme, dass shrew-1 eine Rolle bei invasiven Vorgängen spielt und weisen darauf hin, dass dies möglicherweise durch eine Interaktion mit CD147 geschieht. Die Interaktion mit CD147 und damit eine mögliche Funktion von shrew-1 bei invasiven Vorgängen scheinen dabei abhängig vom zellulären Kontext zu sein.
Characterisation of cytosolic prion protein-mediated putative cytotoxicity in neuronal cell lines
(2006)
Prion diseases are a complex group of fatal neurodegenerative disorders with a broad host spectrum, which are characterised by strong neuronal cell loss, spongiform vacuolation and astrocytic proliferation. The molecular mechanisms of prion-mediated neurodegeneration are not yet fully understood. Recently, it has been proposed that neuronal cell death might be triggered by cytosolic accumulation of misfolded cellular prion protein (PrPC) due to impairment of proteasomal degradation. Cytosolic PrPC could result from either retro-translocation via the endoplasmatic reticulum-associated degradation system (ERAD) or abortive translocation of PrPC into the ER. Indeed, expression of cytosolic PrP (Cy-PrP) was shown to be neurotoxic both in vivo and in vitro. However, contradicting results on cytosolic PrP-mediated neurotoxicity in cultured cells have been reported. Cytosolic PrP–mediated cytotoxicity may play a central role in the pathogenesis of prion diseases. In order to investigate the molecular mechanisms of this process, a detailed analysis of N2a cells conditionally expressing cytosolic PrP (Cy-PrP) was performed in this study. The following results were obtained: First, Cy-PrP expression is not per se sufficient to trigger cytotoxicity in N2a cells independently of proteasome inhibition. Second, Cy-PrP is degraded with kinetics resembling the degradation of cell membrane-anchored full-length PM-PrP. In this process, the 20/26S proteasome was responsible for Cy-PrP degradation while the proteolysis of matured full length PM-PrP is not affected by the proteasomal system. Third, Cy-PrP accumulates in fine foci when expressed at high levels and co-localises with the cytosolic chaperone Hsc70 in EEA-1 positive endocytic vesicles. From these data it was proposed that the chaperone Hsc70 acts as a regulator for the controlled formation of amorphous Cy-PrP aggregates and their transport to endosomal vesicles. This Hsc70-dependent mechanism may confer protection to N2a cells against toxic accumulation of Cy-PrP in the cytosol.
In this thesis, I study the phase diagram of dense, locally neutral three-flavor quark matter as a function of the strange quark mass, the quark chemical potential, and the temperature, employing a general nine-parameter ansatz for the gap matrix. At zero temperature and small values of the strange quark mass, the ground state of quark matter corresponds to the color–flavor-locked (CFL) phase. At some critical value of the strange quark mass, this is replaced by the recently proposed gapless CFL (gCFL) phase. I also find several other phases, for instance, a metallic CFL (mCFL) phase, a so-called uSC phase where all colors of up quarks are paired, as well as the standard two-flavor color-superconducting (2SC) phase and the gapless 2SC (g2SC) phase. I also study the phase diagram of dense, locally neutral three-flavor quark matter within the framework of a Nambu–Jona-Lasinio (NJL) model. In the analysis, dynamically generated quark masses are taken into account self-consistently. The phase diagram in the plane of temperature and quark chemical potential is presented. The results for two qualitatively different regimes, intermediate and strong diquark coupling strength, are presented. It is shown that the role of gapless phases diminishes with increasing diquark coupling strength. In addition, I study the effect of neutrino trapping on the phase diagram of dense, locally neutral three-flavor quark matter within the same NJL model. The phase diagrams in the plane of temperature and quark chemical potential, as well as in the plane of temperature and leptonnumber chemical potential are presented. I show that neutrino trapping favors two-flavor color superconductivity and disfavors the color–flavor-locked phase at intermediate densities of matter. At the same time, the location of the critical line separating the two-flavor color-superconducting phase and the normal phase of quark matter is little affected by the presence of neutrinos. The implications of these results for the evolution of protoneutron stars are briefly discussed.
On the molecular basis of novel anti-inflammatory compounds and functional leukocyte responses
(2006)
Inflammation is a complex pathophysiological event that can be triggered by activation of a number of distinct activation pathways eventually leading to the release of pro-inflammatory molecules and enzymes. Among all cells involved in inflammatory processes, neutrophils, monocytes and platelets are of major relevance. Activation of leukocytes occurs via binding of agonists to distinct GPCRs leading to activation of G proteins and proximate signaling cascades. In short, GPCR activation by pro-inflammatory agonists such as fMLP, PAF or LTB4 leads to activation of G proteins that are associated with the receptor at the cytosolic side of the plasma membrane. G proteins consist of a Gα- and a Gβγ-subunit which are associated in the inactive state. In this state, G proteins bind GDP. Upon activation, GDP is replaced by GTP that results in the dissociation of the Gα- from the Gβγ-subunit. Both subunits are capable of activating distinct PLC-β isoenzymes that catalyze the turnover of PtdIns(4,5)P2 into the second messengers Ins(1,4,5)P3 and DAG. Every GPCR holds a distinct pattern of associated G proteins which preferentially activate distinct PLC-β isoenzymes. Ca2+ channels within the SR/ER-membrane function as specific receptors for Ins(1,4,5)P3. Ligation of Ins(1,4,5)P3 to this receptor causes a release of Ca2+ from intracellular stores into the cytosol that is subsequently followed by the influx of Ca2+ e through channels in the plasma membrane. Ca2+ represents an important signaling molecule, involved in the regulation of cellular processes and enzymes that mediate inflammatory events such as ROS formation and the release of degradative enzymes. 5-LO and COXs are involved in the biosynthesis of pro-inflammatory eicosanoids and catalyze the turnover of AA into LTs and PGs, respectively. Both enzymes play pivotal roles in the initiation and maintenance of allergic diseases and inflammatory processes. LTB4 is regarded as a potent chemotactic and chemokinetic substance, whereas the cysteinyl-LTs cause smooth muscle contraction and increased vascular permeability. Therefore, 5-LO inhibitors are assumed to possess therapeutic potential for the treatment of diseases related to inflammation. Besides the intervention with 5-LO activity, inhibition of COX-activity is an effective way to suppress inflammatory reactions. The two COX isoenzymes, namely COX-1 and COX-2 show different patterns in terms of tissue expression and sensitivity towards inhibitors. COX-1 is supposed to be constantly expressed whereas COX-2 expression is upregulated at sites of inflammation. The extract of H. perforatum is commonly used for the treatment of mild to moderate depressive disorders, accompanied by a moderate profile of side effects. The extract´s efficacy as an antidepressant can be traced back to the content of the phloroglucinol hyperforin which represents the most abundant lipophilic constituent. However, in folk medicine hypericum extracts are additionally used for the treatment of inflammatory disorders such as rheumatoid arthritis or inflammatory skin diseases. In fact, it was shown that hypericum extracts and hyperforin possess anti-inflammatory potential. Hyperforin was described as a dual inhibitor of 5-LO and COX-1. The phloroglucinols MC and S-MC from M. communis significantly differ from the molecular structure of hyperforin. Hyperforin represents a monomeric prenylated derivative whereas MS and S-MC are non-prenylated oligomeric compounds. To date, the anti-inflammatory potential of SM and S-MC has not been investigated in detail. So far, solely antioxidant activity was attributed to MC and S-MC that indeed might qualify them as anti-inflammatory drugs. The phloroglucinols MC, S-MC and hyperforin are potent inhibitors of ROS formation and HLE release. However, any inhibitory potential of these compounds was only observed when cells were activated by GPCR agonists such as fMLP or PAF. In contrast, when cells were stimulated under circumvention of G protein-associated signaling cascades, the abovementioned inhibitors were not effective at all. In leukocytes, [Ca2+]i plays a pivotal role in signal transduction and regulation of the indicated pro-inflammatory cellular functions. We were able to show that MC, S-MC and hyperforin inhibited GPCR-mediated Ca2+ mobilization with approximately the same potency as the above-mentioned leukocyte responses. However, all of the indicated phloroglucinols were ineffective when cells were stimulated with ionomycin. Since ionomycin as well as GPCR agonists exert their effects by mobilizing Ca2+ i, it seems conceivable that MC, S-MC and hyperforin somehow interfere with G protein-associated signaling pathways. In order to investigate PLC as a potential target of hyperforin, the effects of hyperforin were compared to those of the broad spectrum PLC inhibitor U-73122. We found that both inhibitors acted in a comparable manner in terms of agonist-induced Ca2+ mobilization and in regard of the manipulation of basal Ca2+ levels in unstimulated cells. In this respect, significant differences between hyperforin and U-73122 were obvious for inhibition of total PLC activity in vitro. Thus, U-73122 blocked PLC activity whereas hyperforin was ineffective in this respect. This might indicate that only certain PLC isoenzymes are affected by hyperforin. Alternatively, other components within G protein-associated signaling pathways such as G proteins itself or the Ins(1,4,5)P3 receptor must be taken into account as putative targets of hyperforin. We were able to introduce MC and S-MC as novel dual inhibitors of 5-LO and COX-1. Interestingly, such a pattern was also described for hyperforin. MC and S-MC turned out to be direct inhibitors of 5-LO, based on the fact that they inhibit 5-LO not only in intact cells but also as purified enzyme in vitro. For MC and S-MC, great discrepancies were observed between the IC50 values concerning 5-LO inhibition and the concentrations that exert the antioxidative effects. It seems probable that 5-LO inhibition is not related to reduction of the active site iron as a result of the antioxidant activity of MC and S-MC but rather to direct interference with the 5-LO enzyme. The capability of MC and S-MC to suppress COX-1 activity seems not to be a unique effect of these phloroglucinols because for COX-1, the IBPC, present in both MC and S-MC, turned out to be the most active compound. ....
Die Ursache von Adipositas liegt im übermäßigen Wachstum von Fettgewebe, welches hauptsächlich aus Fettzellen, den Adipozyten, besteht. Die Zellen der stroma-vaskulären Fraktion, welche Vorläuferzellen, Makrophagen und Zellen des lokalen Gefäßnetzwerks enthält, sind außerdem an der Homöostase des Fettgewebes beteiligt. Insbesondere spielt das Gefäßsystem des Fettgewebes in Nagetieren eine wichtige Rolle im Fettgewebewachstum, da die Hemmung der Angiogenese in genetisch- und diät-induzierten fettleibigen Mäusen die Entstehung von Adipositas verhindert. Dennoch wurde das Gefäßsystem des menschlichen Fettgewebes bis heute nicht erforscht. Durch immuno-histochemische Analysen am subkutanen menschlichen Fettgewebe konnten wir zwei verschiedene Gefäßsysteme identifizieren: das vaskuläre Netzwerk des Bluts und das lymphatische vaskuläre Netzwerk. Während die Endothelzellen von beiden Gefäßsystemen die gemeinsamen Endothelzellmarker von Willebrand factor (vWf) und CD31 (PECAM, Platelet Endothelial Cell Adhesion Molecule) exprimierten, konnten die Endothelzellen der Blutgefäße an der Expression des Markers CD34 (Stamm/Blutgefäß-Endothel-Zell-Marker) und die Endothelzellen der Lymphgefäße an der Expression der beiden lymphatischen Marker Podoplanin und VEGFR3 (Vascular Endothelial Growth Factor Receptor 3) spezifisch erkannt werden. Ausschließlich für den Marker CD34-positive Zellen und in Rosetten angeordnete CD31-positive Zellen, welche als residente Makrophagen wurden auch charakterisiert. Um die beiden Gefäßsystemen des menschlichen Fettgewebes weiterhin zu erforschen, haben wir ein auf Immunoselektion basiertes Protokoll entwickelt. Es ermöglicht, Blut- (BEC) und lymphatische (LEC) Endothelzellen aber auch Makrophagen und CD34-positive Zellen spezifisch zu isolieren. Sowohl BEC als auch LEC exprimierten VEGFR1, VEGFR2, vWf und Notch4 und nehmen acetyliertes LDL auf. Darüber hinaus konnte in LEC die Expression von Genen, welche spezifisch für das Lymphgefäßsystem sind, wie Podoplanin, Reelin, VEGFR3, Desmoplakin, LYVE-1 nachgewiesen werden. Durch fluss-cytometrischen Analysen des Anzahls von BEC und LEC im Fettgewebe von Patienten mit unterschiedlichen Body Mass Indices (BMI) wurde entdeckt, dass Fettleibigkeit von einer Erweiterung des vaskulären Netzwerks des Bluts im Fettgewebe begleitet wird, jedoch nicht von einer Erweiterung des lymphatischen vaskulären Systems. Flusscytometrische Analysen belegen, dass es in der CD34-positive Stroma-Zellpopulation Zellen gibt, die den endothelialen Progenitor-Zellmarker CD133 und den primitiven Stammzellmarker ABCG2 exprimieren. Außerdem zeigten die CD34-positive Zellen eine signifikant stärkere Proliferation und Expression von Endothelzellmarkern wie CD31 und vWf, wenn dem Kulturmedium zuvor die Faktoren Vascular Endothelial Growth Factor A (VEGF A) und Insulin-Like Growth Factor-1 zugefügt worden waren. Wurden Mäusen mit Hinterbeinischämie CD34-positive Zellen in vivo injiziert, beteiligten sich diese Zellen an der Neovaskularisation des ischämischen Hinterbeins. Eine signifikante Zunahme des Blutflusses im ischämischen Bein, gekoppelt an einer erhöhten Kapillardichte im ischämischen Muskel und einer Integration der menschlichen Zellen in die Vaskulatur der Maus waren erkennbar. Diese Ergebnisse weisen darauf hin, dass es unter den CD34-positive Zellen eine Population von endothelialen Progenitorzellen gibt, die -bei geeigneter Stimulation- zu Endothelzellen differenzieren. Parallel dazu wurden die lokalen Faktoren untersucht, die potentiell an der Wachstumskontrolle, der Migration und der Organisation der ruhenden, aus dem Fettgewebe stammenden, BEC und LEC beteiligt waren. Sekrete der Adipozyten, jedoch nicht der CD34-positive Zellen, induzierten eine signifikante BEC- und LEC-Proliferation. Außerdem induzierte die Kombination von Leptin und VEGF A oder des basic Fibroblast Growth Factor eine signifikante Zunahme der BrdU-Inkorporation in BEC während Adiponectin, VEGF C und VEGF D bereits alleine konzentrationsabhängig die Proliferation von LEC induzierten. Leptin, und nicht Adiponectin, führte zu signifikant höherer BEC-Migration und Röhrenformung, während Adiponectin, und nicht Leptin, die LEC-Migration und -Organisation förderte. Dabei führte Leptin in BEC und Adiponectin in LEC zeitabhängig zu einer signifikanten Zunahme der Phosphorylierung der Kinase Akt. Diese Ergebnisse belegen, dass die beiden aus Adipozyten stammenden Adipokine Leptin und Adiponectin eine tragende Rolle in der Umverteilung von BEC bzw. LEC spielen. Im Rahmen der Adipositas steigt die Plasmakonzentration von Leptin an während die Plasmakonzentration von Adiponectin sinkt. Unsere Ergebnisse deuten daraufhin, dass Leptin als lokaler pro-angiogenetischer Faktor identifizieren und Adiponectin als neuer lymphangiogenetischer Faktor im menschlichen Fettgewebe beschreiben konnte. Demnach könnten Veränderungen, in der Adipositas, der Adipokinfreisetzung durch Adipozyten am Umbau des vaskulären Netzwerks des Bluts und am ausbleibenden Wachstum des lymphatischen vaskulären Systems innerhalb des Fettgewebes beteiligt sein. Schließlich belegen die vorliegenden Ergebnisse das Vorhandensein einer Progenitor-Zell-Population in der Stroma-Fraktion des menschlichen Fettgewebes. Diese Progenitor-Zellen sind in der Lage sich an der Neovaskularisation ischämischen Gewebes zu beteiligen. Diese Population könnte im Hinblick auf zelltherapeutische Strategien eine interessante Alternative zu Stammzellen aus dem Knochenmark darstellen.
Aging and age-related diseases are becoming more and more important for our society and our health care system. Alzheimer's disease (AD) is a disorder that destroys some parts of the brain and is characterized by global cognitive decline including a progressive irreversible loss of memory, orientation, and reasoning. “Healthy aging”, therefore, is one of the major aims for modern medicine. Apoptosis, or programmed cell death, plays an important role for example in fetal development, as well as for learning processes. T-lymphocytes usually undergo apoptosis in order to terminate an acute inflammation. The aim of this thesis was to explore the changes in the apoptotic mechanism of peripheral lymphocytes from Alzheimer’s disease (AD) patients in contrast to physiological aging. The experiments were conducted with lymphocytes of healthy volunteers of different ages, AD patients and young and aged mice. Moreover, transgenic mice carrying familiar AD-related mutations were examined. The aging study of peripheral cells of ‘healthy’-aged volunteers revealed an age-related increase of basal apoptosis. In addition, spontaneous apoptosis as well as apoptosis induced by oxidative stress (ROS) or by Fas engagement were enhanced in aging. A closer look at the subcellular basis of the lymphocytes (e.g. B-, NK-, CD4+-, and CD8+-T cells) determined that all lymphocyte subsets were affected by aging. Therefore, it could be concluded that the regulation of apoptosis is generally impaired in lymphocytes of aged persons. The increased susceptibility to oxidative stress supports the ‘Free radical theory of aging’ that claims the radicals to be the cause for the aging-process. In mice an increase of basal, spontaneous and ROS-induced apoptosis was detected in T cells from the spleen, as well. An oral treatment over two weeks with the Ginkgo biloba extract EGb761 showed a clear reduction of ROS-induced apoptosis in the treated group. Interestingly, basal and spontaneous apoptosis, e.g. physiological apoptosis, were not effected by the plant extract. This is an important benefit for therapy since physiological apoptosis has a great relevance in the elimination of cancer-cells for example. In conclusion, the antidementive drug EGb761 reduces specifically ROS-induced apoptosis that a plays an important role in aging as shown in this thesis. Based on the data found in healthy aging, lymphocytes from AD patients were assessed for apoptosis. The cells show enhanced levels of basal, spontaneous, and Fas-induced apoptosis. In subsequent experiments it was demonstrated that mainly the T cells were responsible for the findings. However, the NK-cells provided an important impact as well. In concordance with AD-affected neurons, peripheral lymphocytes of AD patients show clear signs of apoptotic cell death. In addition, basal apoptosis of T cells and the CD4/CD8-ratio showed a correlation with the severity of the dementia. Therefore, it could be speculated that apoptosis is due to activation-induced cell death (AICD) that occurs in acute and chronic activation of adaptive immunity. In AD there is a chronic neuroinflammation in the CNS triggering degeneration of neural tissue. In order to explore this, the experimental model of lymphocyte’s activation was established in healthy aging first. The study included the detection of various events of lymphocyte’s activation on the basis of the T cell subsets (CD4+ and CD8+). The inducibility to mitogenic stimulation clearly decreased in both subsets in aging. In contrast, T lymphocytes from AD patients showed an enhanced activation subsequent to mitogenic stimulation compared with age-matched nondemented persons. Only proliferation of CD8+ T cells was clearly reduced in AD. This data could be clues that an increased generation of memory T cells due to chronic neuroinflammation might be evident in AD. Memory T lymphocytes show increased inducibility upon mitogenic activation. Interestingly, CD8+ memory T cells display decreased prolifertive capacity. Due to activation, cells die by apoptosis later on. It could be concluded that AD patients display an increased amount of memory T cells compared to controls. The data implicate that there could be a cross talk between inflammatory within the brain and inflammatory cells of the periphery. This is an interesting point since the brain used to be assumed as immune-privileged zone. According to the experiment, the information of the diseased brain is transferred to white blood cells. The connection of those two compartments might raise the opportunity to observe and probably to influence easily not-accessible regions like the brain. Transgenic mice carrying mutations in familiar AD-relevant genes (Amyloid-Precursor-Protein, Presenilin-1, respectively) displayed enhanced levels of apoptotic T cells from the spleen, as well. It seems that those mutated proteins influence the regulation of apoptosis. Probably, they are involved in the increased cell death of T- and NK-cells, as well. Animals overexpressing Presenilin-1 showed reduced levels of apoptotic cell death. It was demonstrated with molecuar biology tools that Presenilin-1, processed during apoptosis, has an anti-apoptotic effect.