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Background: Haemostasis in liver surgery remains a challenge despite improved resection techniques. Oozing from blood vessels too small to be ligated necessitate a treatment with haemostats in order to prevent complications attributed to bleeding. There is good evidence from randomised trials for the efficacy of fibrin sealants, on their own or in combination with a carrier material. A new haemostatic device is Sangustop(R). It is a collagen based material without any coagulation factors. Pre-clinical data for Sangustop(R) showed superior haemostatic effect. This present study aims to show that in the clinical situation Sangustop(R) is not inferior to a carrier-bound fibrin sealant (Tachosil(R)) as a haemostatic treatment in hepatic resection. Methods: This is a multi-centre, patient-blinded, intra-operatively randomised controlled trial. A total of 126 patients planned for an elective liver resection will be enrolled in eight surgical centres. The primary objective of this study is to show the non-inferiority of Sangustop(R) versus a carrier-bound fibrin sealant (Tachosil(R)) in achieving haemostasis after hepatic resection. The surgical intervention is standardised with regard to devices and techniques used for resection and primary haemostasis. Patients will be followed-up for three months for complications and adverse events. Discussion: This randomised controlled trial (ESSCALIVER) aims to compare the new collagen haemostat Sangustop(R) with a carrier-bound fibrin sealant which can be seen as a "gold standard" in hepatic and other visceral organ surgery. If non-inferiority is shown other criteria than the haemostatic efficacy (e.g. costs, adverse events rate) may be considered for the choice of the most appropriate treatment. Trial Registration: NCT00918619
Current theories of schizophrenia suggest that the pathophysiology of the disorder may be the result of a deficit in the coordination of neural activity within and between areas of the brain, which may lead to impairments in basic cognitive functions such as contextual disambiguation and dynamic grouping (Phillips and Silverstein, 2003). This notion has been supported by recent studies showing that patients with schizophrenia are characterized by reduced synchronous, oscillatory activity in the gamma-frequency band during sensory processing (Spencer et al. 2003, Green et al. 2003, Wynn et al. 2005). However, it is currently unclear to what extent high-frequency gamma-band oscillations (> 60 Hz) contribute to impaired neural synchronization as research has so far focussed on gamma-band oscillations between 30 and 60 Hz. In addition, it is not known whether deficits in high-frequency oscillations are already present at the onset of the disorder and to what extent reductions may be related to the confounding influence of antipsychotic medication. Finally, the neural generators underlying impairments in synchronous oscillatory activity in schizophrenia have not been investigated yet. To address these questions, we recorded MEG activity during a visual closure task (Mooney faces task) in medicated chronic schizophrenia patients, drug-naive first-episode schizophrenia patients and healthy controls. MEG data were analysed for spectral power between 25 and 150 Hz, and beamforming techniques were used to localize the sources of oscillatory gamma-band activity. In healthy controls, we observed that the processing of Mooney faces was associated with sustained high-frequency gamma-band activity (> 60 Hz). A time-resolved analysis of the neural generators underlying perceptual closure revealed a network of distributed sources in occipito-temporal, parietal and frontal regions, which were differentially activated during specific time intervals. In chronic schizophrenia patients, we found a pronounced reduction of high-frequency gamma-band oscillatory activity that was accompanied by an impairment in perceptual organization and involved reduced source power in various brain regions associated with perceptual closure. First-episode patients were also characterized by a deficit in high-frequency gamma-band activity and reductions of source power in multiple areas; these impairments, however, were less pronounced than in chronic patients. Regarding behavioral performance, first-episode patients were not impaired in their ability to detect Mooney faces, but exhibited a loss in specificity of face detection. In conclusion, our results suggest that schizophrenia is associated with a widespread reduction in high-frequency oscillations that indicate local network abnormalities. These dysfunctions are independent of medication status and already present at illness onset, suggesting a possible progressive deficit during the course of the disorder.
Dessins d'enfants (children's drawings) may be defined as hypermaps, i.e. as bipartite graphs embedded in compact Riemann surfaces. They are very important objects in order to describe the surface of the embedding as an algebraic curve. Knowing the combinatorial properties of the dessin may, in fact, help us determining defining equations or the field of definition of the surface. This task is easier if the automorphism group of the dessin is "large". In this thesis we consider a special type of dessins, so-called Wada dessins, for which the underlying graph illustrates the incidence structure of points and of hyperplanes of projective spaces. We determine under which conditions they have a large orientation-preserving automorphism group. We show that applying algebraic operations called "mock" Wilson operations to the underlying graph we may obtain new dessins. We study the automorphism group of the new dessins and we show that the dessins we started with are coverings of the new ones.
The concept of embeddedness plays a central role in the segment of economic sociology and social theory which is inspired by the works of Karl Polanyi. But to the extent that embeddedness is understood in a substantialist manner, implying the existence of a unitary lifeworld, the desire for embeddedness is an impossible aspiration under modern conditions. Throughout the modern era it is however possible to observe the emergence of complex societal stabilization mechanisms, which serve as substitutes to traditional forms of embeddedness. The emergence of function specific cultures, in the form of, for example, legal, political and scientific cultures, establishing a ‘second nature’ in the Hegelian sense, is one example of this. Other examples are (neo-)corporatist institutions which fulfilled a central stabilising role in classical modernity and the kind of network based governance arrangements which fulfil a similar position in today’s radicalised modernity.
Leukotrienes (LTs) are pro-inflammatory lipid mediators that belong to the group of eicosanoids, which are oxygenated metabolites of one common precursor, the aracidonic acid (AA). This polyunsaturated fatty acid is esterified at the sn-2 position of cellular membrane phospholipids and can be released by cytosolic phospholipase A2 alpha (cPLA2alpha) enzymatic deacylation. AA can be converted into LTs by the catalytic reaction of 5-lipoxygenase (5-LO). Enzymatic activation of cPLA2alpha as well as of 5-LO is regulated by similar determinants. In response to cellular stimuli that elevate the intracellular Ca2+ level and/or activate MAP kinase pathways, cPLA2alpha and 5-LO comigrate from a soluble cell compartment (mainly the cytosol) to the nuclear membrane, where AA is released und converted into LTs. LTs play a significant role in promoting inflammatory reactions and immune processes. They have been shown to be released from leukocytes in response to bacterial and viral infections and substantially contribute to an effective immune reaction for host defense. Innate immune pathogen recognition is mediated to a substantial part by the Toll-like receptor (TLR) family. So far, 10 human TLR subtypes have been identified, all of which detect distinct highly conserved microbial structures and trigger the induction of signaling pathways that lead to the expression of numerous immune and inflammatory genes. TLR signaling culminates in the activation NF-kappaB and/or MAP kinases, which as well are known to be involved in the regulation of cellular LT biosynthesis. In this regard, it seemed conceivable that the release of LTs might be regulated by TLR activation. Present studies were undertaken in order to verify and characterize a possible influence of TLR activation on the LT biosynthesis, and furthermore to identify the involved signaling pathways and underlying mechanisms. First experiments revealed that pre-incubation of differentiated Mono Mac 6 (MM6) cells with a TLR4 ligand, a TLR5 ligand, as well as with different TLR2 ligands led to an about 2-fold enhancement of Ca2+ ionophore induced LT biosynthesis. Ligands of other TLR subtypes did not show any influence. These observations could also be confirmed in primary human monocytes stimulated with ionophore or fMLP. With focus on TLR2 ligands, further studies were carried out to characterize the observed enhancement of LT biosynthesis in MM6 cells. It was demonstrated that the extent of LT formation was dependent on the ligand concentration used, but was also dependent on the duration of pre-incubation. Ligand pre-incubation of 15 minutes was optimal to maximally enhance LT formation and further prolongation of pre-incubation decreased LT formation again. Moreover, simultaneous addition of TLR2 ligands with ionophore did also not enhance LT formation. These results indicated that TLR2 ligands seemed to prime human monocytes for an enhanced response upon ionophore stimulation, but did not act as costimuli, which per se were not capable of directly stimulating the biosynthesis of LTs. To analyze the underlying mechanism, the impact of TLR2 ligands on the two key enzymes of the LT biosynthesis pathway, cPLA2alpha and 5-LO, was investigated. In this regard, 5-LO could not been shown to be positively regulated by TLR ligand priming. Neither a direct stimulation, nor an enhancement of 5-LO activity by TLR ligands was detectable in MM6 cells. Similarly, TLR2 ligands did also not enhance ionophore induced 5-LO translocation to the nuclear membrane. However, it was shown that TLR2 ligands enhanced ionophore induced release of AA in MM6 cells, which occurred with a similar time course as LT formation, displaying a maximum at 10 minutes of pre-incubation. A direct stimulation of AA release, however, could not been detected. Inhibitor studies revealed cPLA2alpha to be essential for AA release in TLR2 ligand primed, ionophore stimulated MM6 cells, but also sPLA2 was found to be involved. However, the priming effect of TLR2 ligands was mediated exclusively by cPLA2alpha. Western Blot analyses revealed that p38 MAP kinase, as well as ERK1/2, are activated in MM6 cells in response to TLR2 ligands, and also Ser-505 phosphorylation of cPLA2alpha was detected, which is known to be mediated by MAP kinases and to increase cPLA2alpha activity in vitro. Maximal cPLA2alpha phosphorylation occurred after 5-10 minutes of TLR2 ligand incubation, slightly preceding maximal AA release at 10 minutes and maximal LT formation at 15 minutes of priming. The combined use of a specific p38 MAPK inhibitor with an inhibitor of the ERK1/2 signaling pathway resulted in a complete prevention of cPLA2alpha phosphorylation and TLR2 ligand mediated enhancement of AA release. Thus, both MAPK pathways seem to play a role for TLR2 ligand mediated priming effects on the release of AA. An impact of other kinases such as Mnk-1 and CamKII, which can also regulate cPLA2alpha by phosphorylation, was excluded. Finally, an anti-hTLR2 antibody significantly reduced enhanced AA release, confirming the priming effects to be dependent on TLR2 activation. In summary, it was concluded that the increase of LT biosynthesis by TLR2 ligand priming is considerably due to an enhanced cellular AA supply, which arises from a MAPK mediated phosphorylation and up-regulation of cPLA2alpha. TLR dependent enhancement of LT biosynthesis represents an interesting link between activation of innate immune receptors and the rapid formation of pro-inflammatory lipid mediators. On the one hand, this support the role of LTs in host defence and infectious diseases, but may also be relevant in pathophysiological processes, which involve TLRs as well as LTs, as it has been shown for the pathogenesis of atherosclerosis or allergic diseases.
Genes coding for membrane proteins make up 25%-30% of the genome in most organisms. Membrane proteins play an important role in cell functioning and their importance is enhanced by the fact that a large number of drugs are targeted at membrane proteins. Paradoxically, experimentally determined structures of membrane protein correspond to only about 1.7% of protein structures deposited in the protein data bank (PDB). This is largely due to the fact that membrane proteins are difficult to deal with owing to their amphipathic nature. The low abundance of membrane proteins in native tissue makes heterologous overexpression of these genes a necessity. This thesis work aimed at heterologous production of several secondary active transporter proteins for structural and functional characterizations and establishing alternative strategies to overcome the obstacles associated with heterologous overproduction. Four members of the heavy metal transporting cation diffusion facilitator (CDF) family from S. typhimurium and A. aeolicus were heterologously overproduced in E. coli and functionally characterized by an in vivo complementation assay using the zinc transport deficient E. coli GG48 strain. Out of these four, Aq_2073 from A. aeolicus was produced in large scale with substantial yield and purity sufficient to carry out structural studies. After extensive stability studies with different detergents, pHs and temperatures, the protein was subjected to 3D and 2D crystallization trials. Several C- terminal truncated constructs were made and the simultaneous crystallization screenings were carried out. These resulted in initial needle like crystals in 3D crystallization trials or optimum sized vesicles with crystalline patches in 2D crystallization trials but no obvious crystal. The protein showed significant increase in melting temperature in the presence of cadmium, when tested by differential scanning calorimetry. Another transporter, STM3880 of the potassium uptake permease (KUP) family from S. typhimurium, was heterologously overproduced in E. coli, purified by affinity chromatography, reconstituted into artificial liposome and functionally characterized by solid supported membrane based electrophysiology. In order to establish alternative expression strategies, continuous exchange cell free expression (CECF) of proteins from four different families was carried out. This method found to be aptly complementing the cell-based production approach. Targets from resistance to homoserine/threonine (RhtB) family not expressing in vivo could be expressed and purified using CECF. STM1781 of the sulfate permease (SulP) family was expressed, purified and characterized for stability while the cell-based production resulted in extensive degradation. PF0780 of multidrug/oligosaccharidyllipid/polysaccharide flippase (MOP) family was also purified to homogeneity and the stability was comparable to in vivo produced protein. Moreover, the effect of maltose binding protein (MBP) fusion at N-terminus on production and membrane integration was tested with three selected targets. The analysis revealed decreased yields in the presence of MBP if the protein had both termini in the cytoplasm. This work succeed in heterologously overproducing and establishing purification protocols for several secondary active transporters aiming at structural and functional characterization in a structural genomics framework. It also showed that integration of alternative strategies, like employing both cell-based and cell-free heterologous expression systems, expands the overall expression space coverage and in turn increases the chance of success of a structural genomics styled project.
This dissertation consists of three essays, which study the relation between stock prices and the macroeconomy using vector autoregressions (VARs). The first essay focuses on the link between stock prices and the current account. I find that stock markets provide a channel, in addition to the traditional exchange rate channel, through which external balance for a country with a current account imbalance can be restored. The second essay explores the transmission of U.S. stock price shocks to real activity and prices in G-7 countries. I achieve identification by imposing a small number of sign restrictions on impulse responses, while controlling for monetary policy, business cycle and government spending shocks. The results suggest that stock price movements are important for fluctuations in G-7 real activity and prices, but do not qualify as demand side business cycle shocks. The third essay investigates the impact of monetary and technology shocks on the stock market. I find an important role for technology shocks, but not monetary shocks, in explaining variations in real stock prices. The identification method is flexible enough to study the effects of technology news shocks. The responses are consistent with the idea that news on technology improvements have an immediate impact on stock prices.
Plasticity supports the remarkable adaptability and robustness of cortical processing. It allows the brain to learn and remember patterns in the sensory world, to refine motor control, to predict and obtain reward, or to recover function after injury. Behind this great flexibility hide a range of plasticity mechanisms, affecting different aspects of neuronal communication. However, little is known about the precise computational roles of some of these mechanisms. Here, we show that the interaction between spike-timing dependent plasticity (STDP), intrinsic plasticity and synaptic scaling enables neurons to learn efficient representations of their inputs. In the context of reward-dependent learning, the same mechanisms allow a neural network to solve a working memory task. Moreover, although we make no any apriori assumptions on the encoding used for representing inputs, the network activity resembles that of brain regions known to be associated with working memory, suggesting that reward-dependent learning may be a central force in working memory development. Lastly, we investigated some of the clinical implications of synaptic scaling and showed that, paradoxically, there are situations in which the very mechanisms that normally are required to preserve the balance of the system, may act as a destabilizing factor and lead to seizures. Our model offers a novel explanation for the increased incidence of seizures following chronic inflammation.
The physical and functional borders of transit peptide-like sequences in secondary endosymbionts
(2010)
Background: Plastids rely on protein supply by their host cells. In plastids surrounded by two membranes (primary plastids) targeting of these proteins is facilitated by an N-terminal targeting signal, the transit peptide. In secondary plastids (surrounded by three or four membranes), transit peptide-like regions are an essential part of a bipartite topogenic signal sequence (BTS), and generally found adjacent to a N-terminally located signal peptide of the plastid pre-proteins. As in primary plastids, for which no wealth of functional information about transit peptide features exists, the transit peptide-like regions used for import into secondary ones show some common features only, which are also poorly characterised. Results: We modified the BTS (in the transit peptide-like region) of the plastid precursor fucoxanthin-chlorophyll a/c binding protein D (FcpD) fused to GFP as model substrate for the characterisation of pre-protein import into the secondary plastids of diatoms. Thereby we show that (i) pre-protein import is highly charge dependent. Positive net charge is necessary for transport across the plastid envelope, but not across the periplastid membrane. Acidic net charge perturbs pre-protein import within the ER. Moreover, we show that (ii) the mature domain of the pre-protein can provide intrinsic transit peptide functions. Conclusions: Our results indicate important characteristics of targeting signals of proteins imported into secondary plastids surrounded by four membranes. In addition, we show a self-targeting mechanism, in which the mature protein domain contributes to the transit peptide function. Thus, this phenomenon lowers the demand for pre-sequences evolved during the course of endosymbiosis.
Within the visual cortex, it has been proposed that interhemispheric interactions serve to re-establish the continuity of the visual field across its vertical meridian (VM) by mechanisms similar to those used by intrinsic connections within a hemisphere. However, other specific functions of transcallosal projections have also been proposed, including contributing to disparity tuning and depth perception. Here, we consider whether interhemispheric connections modulate specific response properties, orientation and direction selectivity, of neurons in areas 17 and 18 of the ferret by combining reversible thermal deactivation in one hemisphere with optical imaging of intrinsic signals and single-cell electrophysiology in the other hemisphere. We found interhemispheric influences on both the strength and specificity of the responses to stimulus orientation and direction of motion, predominantly at the VM. However, neurons and domains preferring cardinal contours, in particular vertical contours, seem to receive stronger interhemispheric input than others. This finding is compatible with interhemispheric connections being involved in horizontal disparity tuning. In conclusion, our results support the view that interhemispheric interactions mainly perform integrative functions similar to those of connections intrinsic to one hemisphere. Key words: cooling deactivation , corpus callosum , ferret , optical imaging , orientation selectivity