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The recent financial crisis has highlighted the limits of the “originate to distribute” model of banking, but its nexus with the macroeconomy and monetary policy remains unexplored. I build a DSGE model with banks (along the lines of Holmström and Tirole [28] and Parlour and Plantin [39] and examine its properties with and without active secondary markets for credit risk transfer. The possibility of transferring credit reduces the impact of liquidity shocks on bank balance sheets, but also reduces the bank incentive to monitor. As a result, secondary markets allow to release bank capital and exacerbate the effect of productivity and other macroeconomic shocks on output and inflation. By offering a possibility of capital recycling and by reducing bank monitoring, secondary credit markets in general equilibrium allow banks to take on more risk. Keywords: Credit Risk Transfer , Dual Moral Hazard , Monetary Policy , Liquidity , Welfare JEL Classification: E3, E5, G3 First Draft: December 2009, This Draft: September 2010
Exit strategies
(2010)
We study alternative scenarios for exiting the post-crisis fiscal and monetary accommodation using the model of Angeloni and Faia (2010), that combines a standard DSGE framework with a fragile banking sector, suitably modified and calibrated for the euro area. Credibly announced and fast fiscal consolidations dominate – based on simple criteria – alternative strategies incorporating various degrees of gradualism and surprise. The fiscal adjustment should be based on spending cuts or else be relatively skewed towards consumption taxes. The phasing out of monetary accommodation should be simultaneous or slightly delayed. We also find that, contrary to widespread belief, Basel III may well have an expansionary macroeconomic effect. Keywords: Exit Strategies , Debt Consolidation , Fiscal Policy , Monetary Policy , Capital Requirements , Bank Runs JEL Classification: G01, E63, H12
We show that if an agent is uncertain about the precise form of his utility function, his actual relative risk aversion may depend on wealth even if he knows his utility function lies in the class of constant relative risk aversion (CRRA) utility functions. We illustrate the consequences of this result for asset allocation: poor agents that are uncertain about their risk aversion parameter invest less in risky assets than wealthy investors with identical risk aversion uncertainty. Keywords: Risk Aversion , Preference Uncertainty , Risk-taking , Asset Allocation JEL Classification: D81, D84, G11 This Version: November 25, 2010
According to disposition effect theory, people hold losing investments too long. However, many investors eventually sell at a loss, and little is known about which psychological factors contribute to these capitulation decisions. This study integrates prospect theory, utility maximization theory, and theory on reference point adaptation to argue that the combination of a negative expectation about an investment’s future performance and a low level of adaptation to previous losses leads to a greater capitulation probability. The test of this hypothesis in a dynamic experimental setting reveals that a larger total loss and longer time spent in a losing position lead to downward adaptations of the reference point. Negative expectations about future investment performance lead to a greater capitulation probability. Consistent with the theoretical framework, empirical evidence supports the relevance of the interaction between adaptation and expectation as a determinant of capitulation decisions. Keywords: Investments , Adaptation , Reference Point , Capitulation , Selling Decisions , Disposition Effect , Financial Markets JEL Classification: D91, D03, D81
We investigate the incentives for vertical or horizontal integration in the financial security service industry, consisting of trading, clearing and settlement. We thereby focus on firms’ decisions but also look on the implications of these decisions on competition and welfare. Our analysis shows that the incentives for vertical integration crucially depend on industry as well as market characteristics. A more pronounced demand for liquidity clearly favors vertical integration whereas deeper financial integration increases the incentives to undertake vertical integration only if the efficiency gains associated with vertical integration are sufficiently large. Furthermore, we show that market forces can suffer from a coordination problem that end in vertically integrated structures that are not in the best interest of the firms. We believe this problem can be addressed by policy measures such as the TARGET2-Securities program. Furthermore, we use our framework to discuss major industry trends and policy initiatives. Keywords: Vertical Integration , Horizontal Integration , Competition , Trading , Settlement JEL Classification: G15, L13, L22
During the last decades households in the U.S. have experienced that residential house prices move in a persistent manner, i.e. that returns are positively serially correlated. Since an owner-occupied home is usually the largest investment of a household it is important to understand how households act when they base their consumption and investment decisions on this experience. We show in a setting with housing market cycles and households who can decide whether they rent or own the home, that - besides the consumption and the precautionary savings motive - serial correlation in house prices generates a new speculative motive for homeownership. In particular, we show how good and bad housing market cycles affect homeownership rates, leverage, stock investments and consumption and can explain empirically observed household behavior during housing market boom and bust periods. Keywords: Asset Allocation , Portfolio Choice , Housing Market Cycles , Real Estate JEL Classification: G11, D91
We test whether asymmetric preferences for losses versus gains as in Ang, Chen, and Xing (2006) also affect the pricing of cash flow versus discount rate news as in Campbell and Vuolteenaho (2004). We construct a new four-fold beta decomposition, distinguishing cash flow and discount rate betas in up and down markets. Using CRSP data over 1963–2008, we find that the downside cash flow beta and downside discount rate beta carry the largest premia. We subject our result to an extensive number of robustness checks. Overall, downside cash flow risk is priced most consistently across different samples, periods, and return decomposition methods, and is the only component of beta that has significant out-of-sample predictive ability. The downside cash flow risk premium is mainly attributable to small stocks. The risk premium for large stocks appears much more driven by a compensation for symmetric, cash flow related risk. Finally, we multiply our premia estimates by average betas to compute the contribution of the different risk components to realized average returns. We find that up and down discount rate components dominate the contribution to average returns of downside cash flow risk. Keywords: Asset Pricing, Beta, Downside Risk, Upside Risk, Cash Flow Risk, Discount Rate Risk JEL Classification: G11, G12, G14
Capturing the zero: a new class of zero-augmented distributions and multiplicative error processes
(2010)
We propose a novel approach to model serially dependent positive-valued variables which realize a non-trivial proportion of zero outcomes. This is a typical phenomenon in financial time series observed on high frequencies, such as cumulated trading volumes or the time between potentially simultaneously occurring market events. We introduce a flexible pointmass mixture distribution and develop a semiparametric specification test explicitly tailored for such distributions. Moreover, we propose a new type of multiplicative error model (MEM) based on a zero-augmented distribution, which incorporates an autoregressive binary choice component and thus captures the (potentially different) dynamics of both zero occurrences and of strictly positive realizations. Applying the proposed model to high-frequency cumulated trading volumes of liquid NYSE stocks, we show that the model captures both the dynamic and distribution properties of the data very well and is able to correctly predict future distributions. Keywords: High-frequency Data , Point-mass Mixture , Multiplicative Error Model , Excess Zeros , Semiparametric Specification Test , Market Microstructure JEL Classification: C22, C25, C14, C16, C51
Despite sensible guidelines for the use of opioid analgesics, respiratory depression remains a significant risk with a possibility of fatal outcomes. Clinicians need to find a balance of analgesia with manageable respiratory effects. The ampakine CX717 (Cortex Pharmaceuticals, Irvine, CA, USA), an allosteric enhancer of glutamate-stimulated AMPA receptor activation, has been shown to counteract opioid-induced respiratory depression in rats while preserving opioid-induced analgesia. Adopting a translational approach, we orally administered 1500 mg of CX717 to 16 male healthy volunteers in a placebo controlled double-blind study. Starting 100 min after CX717 or placebo intake, alfentanil was administered by computerized intravenous infusion targeting a plateau of effective alfentanil plasma concentrations of 100 ng/ml. One hour after start of opioid infusion, its effects were antagonized by intravenous injection of 1.6 mg of the classical opioid antidote naloxone. Respiration was quantified prior to drug administration (baseline), during alfentanil infusion and after naloxone administration by (i) counting the spontaneous respiratory frequency at rest and (ii) by employing hypercapnic challenge with CO2 rebreathing that assessed the expiratory volume at a carbon dioxide concentration in the breathable air of 55% (VE55). Pain was quantified at the same time points, immediately after assessment of respiratory parameters, by (i) measuring the tolerance to electrical stimuli (5 Hz sine increased by 0.2 mA/s from 0 to 20 mA and applied via two gold electrodes placed on the medial and lateral side of the mid-phalanx of the right middle finger) and (ii) by measuring the tolerance to heat (increased by 0.3°C/s from 32 to 52.5°C applied to a 3 x 3 cm2 skin area of the left volar forearm, after sensitization with 0.15 g capsaicin cream 0.1%). CX717 was tolerated by all subjects without side effects that would have required medical intervention. We observed that CX717 was approximately as effective as naloxone in reversing the opioid induced reduction of the respiratory frequency. Despite the presence of high plasma alfentanil concentrations, the respiratory frequency decreased only by 8.9 ± 22.4% when CX717 was pre-administered, which was comparable to the 7.0 ± 19.3% decrease observed after administration of naloxone. In contrast, after placebo pre-administration the respiratory rate decreased by 30.0 ± 21.3% (p=0.0054 for CX717 versus placebo). In agreement with this, periods of a very low respiratory frequency of <= 4 min-1 under alfentanil alone were shortened by ampakine pre-dosing by 52.9% (p=0.0182 for CX717 versus placebo). Furthermore, VE55 was decreased during alfentanil infusion by 55.9 ± 16.7% under placebo preadministration but only by 46.0 ± 18.1% under CX717 pre-administration (p=0.017 for CX717 versus placebo). Most importantly, in contrast to naloxone, CX717 had no effect on opioid induced analgesia. Alfentanil increased the pain tolerance to electrical stimuli by 68.7 ± 59.5% with placebo pre-administration. With CX717 pre-administration, the increase of the electrical pain tolerance was similar (54.6 ± 56.7%, p=0.1 for CX717 versus placebo). Similarly, alfentanil increased the heat pain tolerance threshold by 24.6 ± 10.0% with placebo pre-administration. Ampakine co-administration had also no effect on the increase of the heat pain tolerance of the capsaicin-sensitized skin (23.1 ± 8.3%, p=0.46 for CX717 versus placebo). The results of this study allow us to draw the conclusion, that opioid induced ventilatory depression can be selectively antagonized in humans by co-administering an ampakine. This is the first successful translation of a selective antagonism of opioidinduced respiratory depression from animal research into application in humans. Ampakines, namely CX717, thus are the first selective antidote for opioid-induced respiratory depression without loss of analgesia, available for the use in humans.
Within this thesis, an experimental study of the photo double ionization (PDI) and the simultaneous ionization-excitation is performed for lithium in different initial states Li (1s22l) (l = s, p). The excess energy of the linearly polarized VUV-light is between 4 and 12 eV above the PDI-threshold. Three forefront technologies are combined: a magneto-optical trap (MOT) for lithium generating an ultra-cold and, by means of optical pumping, a state-prepared target; a reaction microscope (ReMi), enabling the momentum resolved detection of all reaction fragments with high-resolution and the free-electron laser in Hamburg (FLASH), providing an unprecedented brilliant photon beam at favourable time structure to access small cross sections. Close to threshold the total as well as differential PDI cross sections are observed to critically depend on the excitation level and the symmetry of the initial state. For the excited state Li (1s22p) the PDI dynamics strongly depends on the alignment of the 2p-orbital with respect to the VUV-light polarization and, thus, from the population of the magnetic substates (mp = 0, ±1). This alignment sensitivity decreases for increasing excess energy and is completely absent for ionization-excitation. Time-dependent close-coupling calculations are able to reproduce the experimental total cross sections with deviations of at most 30%. All the experimental observations can be consistently understood in terms of the long range electron correlation among the continuum electrons which gives rise to their preferential back-to-back emission. This alignment effect, which is observed here for the first time, allows controlling the PDI dynamics through a purely geometrical modification of the target initial state without changing its internal energy.
Transmissible spongiform encephalopathies (TSEs) are rare but fatal neurodegenerative diseases affecting human and animals. The prion protein which is the causative agent, according to “protein-only” hypothesis misfold in to rogue amyloid conformer. Despite several years of studies, the atomic structural details of the rogue conformers have not been clearly understood. This study focused on developing an in-vitro conversion method, which allows us to monitor the transition from unfolded state of prion protein to fibril state. In order to reach maximal unfolded state, we have used 8 M urea as chemical denaturant, pH 2 and prion fragment 90-230 as the model. It has been demonstrated earlier that acidic pH and mild denaturant induce the fibril formation. The mechanism underlying the structural transition from monomeric state to polymeric form is largely unknown. We have confirmed by EM and AFM that fibrils are formed in our conditions, which resemble to naturally occurring fibrils in morphologies observed. The agitation accelerates the rate of fibril formation and, which allow us to do time-resolved NMR on these preparations. The conformational flexibility is inherent to amyloid fibrils and has been observed in our preparations. We aimed to map the important segment of prion protein, which forms the rigid core in its fibrillar structured form. Our time-resolved NMR studies allowed us to monitor the changes happening from unfolded state to fibrillar state. Analysis of data identified the segment between residues 145 to 223 forming the rigid core in these fibrils, which correspond to β strand 2, helix 2 and major part of helix 3 of native prion monomeric structure. Most of the point mutations which are associated with hereditary prion disease are part of rigid core, which undergo a refolding on fibril formation. The C-terminal residues from 224 to 230 displayed peak shifting and therefore, indicate the adaptation to a fibril specific conformation. The major part of N-terminal 90-144 segment, remains dynamic, which can be understood by their accessibility to amyloid specific antibodies. This provides novel structural insight to the amyloid formation from unfolded state of prion protein fragment 90-230, which represents the proteinase-K resistant part naturally occurring prions. Earlier studies have established the core to 160-220 where hydrogen-deuterium exchange mass spectrometry or site-directed spin labeling EPR spectroscopy was used for analysis. Those studies have been initiated from either native-like or partially unfolded state of recombinant prion protein, and therefore, it is quite striking to find out that fibrils initiated from unfolded monomeric state share the same “amyloid core”. This structural insight has important implications for understanding the molecular basis of prion propagation.
The first part of the following paper deals with varying points of criticism forwarded against Ordoliberalism. Here, it is not the aim to directly falsify each argument on its own; rather, the author tries to give a precise overview of the spectrum of critique. The second section picks out one argument of critical review – namely that the ordoliberal concept of the state is somewhat elitist and grounded on intellectual experts. Based on the previous sections, the final part differentiates two kinds of genesis of norms: an evolutionary and an elitist one – both (latently) present within Ordoliberalism. In combination with the two-level differentiation between individual and regulatory ethics, the essay allows for a distinction between individual-ethical norms based on an evolutionary genesis of norms and regulatory-ethical norms based on an elitist understanding of norms. A by-product of the author’s argument is a (further) demarcation within neoliberalism.
Iron uptake is an essential process in all Gram-negative bacteria including cyanobacteria and therefore different transport systems evolved during evolution. In cyanobacteria, however, the iron demand is higher than in proteobacteria due to the function of iron as cofactor in e.g. photosynthesis and nitrogen fixation. Most of the transport systems depend on outer membrane localized TonB-dependent transporters (TBDTs), a periplasma-facing TonB protein and a plasma membrane localized machinery (ExbBD). So far, iron chelators (siderophores), oligosaccharides and polypeptides have been identified as substrates of TBDTs. However, in proteobacteria TonB-dependent outer membrane transporter represent a well-explored subject whereas for cyanobacteria almost nothing is known about possible TonB-dependent uptake systems for iron or other substrates. The heterocyst-forming filamentous cyanobacterium Anabaena sp. PCC 7120 is known to secrete the siderophore schizokinen, but its transport system has remained unidentified. For Anabaena sp. PCC 7120 22 genes were identified as putative TBDTs covering almost all known TBDT subclasses. This is a high number of TBDTs compared to other cyanobacteria. The expression of the 22 putative TBDTs individually depends on the presence of iron, copper or nitrogen. The atypical dependence of TBDT gene expression on different nutrition points to a yet unknown regulatory mechanism. In addition, the hypothesis of the absence of TonB in Anabaena sp. PCC 7120 was clarified by the identification of an according sequence, all5036. Inspection of the genome of Anabaena sp. PCC 7120 shows that only one gene encoding a putative TonB-dependent iron transporter, namely alr0397, is positioned close to genes encoding enzymes involved in the biosynthesis of a hydroxamate siderophore. The expression of alr0397 was elevated under iron-limited conditions. Inactivation of this gene caused a moderate phenotype of iron starvation in the mutant cells. The characterization of the mutant strain showed that Alr0397 is a TonB-dependent schizokinen transporter (SchT) of the outer membrane and that alr0397 expression and schizokinen production are regulated by the iron homeostasis of the cell. Additional two genes of Anabaena sp. PCC 7120 involved in this process were identified. SchE encoded by all4025 is a putative cytoplasmic membrane-localized transporter involved in TolC-dependent siderophore secretion. The mutation of schE resulted in an enhanced sensitivity to high metal concentrations and in drastically reduction of secretion of hydroxamate-type siderophores. IacT coded by all4026 is a predicted outer membrane-localized TonB-dependent iron transporter. Inactivation of iacT resulted in reduced sensitivity to elevated iron and copper levels, whereas decoupling the expression from putative regulation by exchange of the promoter resulted in sensitization against tested metals. Further analysis showed that iron and copper effects are synergistic because decrease of iron induced a significant decrease of copper levels in the iacT insertion mutant but an increase of those levels in Anabaena sp. PCC 7120 where expression of all4026 is under the trc-promoter. In consequence, the results unravel a link between iron and copper homeostasis.
Acute myeloid/lymphoid leukemia is a fatal hematological malignancy characterized by accumulation of nonfunctional, immature blasts, which interferes with the production of normal blood cells. Activating mutations of receptor tyrosine kinases are common genetic lesions in leukemia. FLT3-ITD is a frequent activating mutation found in AML patients, leading to uncontrolled proliferation of leukemic blasts. FLT3-ITD directly activates STAT5, leading to the induction of STAT5 target gene expression like PIM kinases and SOCS genes. STAT5 and PIM kinases have been shown to play a crucial role in the FLT3-ITD mediated transformation. On the other hand, the role of SOCS proteins in FLT3-ITD mediated transformation has not been studied to date. SOCS proteins are part of a negative feedback mechanism that controls Jak kinases downstream of cytokine receptors. One of the SOCS family members, SOCS1 has been reported to suppress oncogenecity of several activating kinases implicated in hematologic malignancies. In this thesis the role of these SOCS proteins in FLT3-ITD mediated transformation (in vitro) and leukemogenesis (in vivo) is systematically explored. Expression of FLT3-ITD in cell lines of myeloid (32D) and lymphoid (Ba/F3) origin, led to CIS, SOCS1 and SOCS2 expression. FLT3-ITD expression in primary murine bone marrow stem/progenitor cells led to a 59 fold induction of SOCS1 expression. Furthermore, FLT3-ITD positive AML cell lines (MV4-11, MOLM-13) show kinase dependent CIS, SOCS1, and SOCS3 expression. Importantly SOCS1 is highly expressed in AML patients with FLT3-ITD compared to healthy individuals. SOCS1 protein was expressed in FLT3-ITD transduced murine bone marrow stem cells and SOCS1 expression was abolished with kinase inhibition in MOLM-13 cell line. In conclusion, SOCS1 was highly regulated by FLT3-ITD in myeloid, lymphoid cell lines, in bone marrow stem/progenitors and in AML patient samples. SOCS1 co-expression did not affect FLT3-ITD mediated signaling and proliferation, but abolished IL-3 mediated proliferation and protected 32D cells from interferon-α and interferon-γ mediated growth inhibition. FLT3-ITD expressing 32D cells showed diminished STAT1 activation in response to interferons (α and γ). Alone, SOCS1 strongly inhibited cytokine induced colony formation of bone marrow stem and progenitors, but not FLT3-ITD induced colony formation. Most importantly, in the presence of growth inhibitory interferon-γ, SOCS1 co-expression with FLT3-ITD led to increased colony formation compared to FLT3-ITD alone. Taken together, FLT3-ITD induced and exogenously expressed SOCS1, shielded cells from external cytokines, signals, while not affecting FLT3-ITD induced proliferation/signaling. In further experiments the in vivo effects of SOCS1 were studied in a bone marrow transplantation model. SOCS1 bone marrow transplants were unable to engraft/proliferate in mice. FLT3-ITD was shown to induce a myeloproliferative disease. Both control (empty vector), SOCS1 transplanted mice were normal and did not show any disease phenotype. FLT3-ITD alone and SOCS1 co-expressing FLT3-ITD developed either myeloproliferative disease or acute lymphoblastic leukemia with equal distribution. SOCS1 co-expression with FLT3-ITD led to a decreased latency. Mice transplanted with FLT3-ITD alone and SOCS1 co-expressing FLT3-ITD displayed enlarged spleens, liver and hypercellular bone marrow indicating infiltration of leukemic cells. Mice were also anemic and showed decreased platelet counts. Importantly SOCS1 co-expression particularly shortened the latency of myeloproliferative disease but not of acute lymphoblastic leukemia. In summary, in the context of FLT3-ITD, SOCS1 acts as a ‘conditional oncogene’ and cooperates with FLT3-ITD in the development of myeloproliferative disease. With these data we propose the following model: FLT3-ITD induces SOCS gene expression, which shields cells against proliferation and differentiation signals from cytokines, while not affecting FLT3-ITD mediated proliferative signals. This leaves cells under the dictate of FLT3-ITD thereby contributing to leukemogenesis. Similar to FLT3-ITD, BCR/ABL (P190) (an oncogenic fusion kinase often found in acute lymphoblastic leukemia) induces SOCS gene expression in K562 and long-term cultured cells from patients with acute lymphoblastic leukemia. SOCS1 co-expression does not affect BCR/ABL mediated proliferation while abrogating IL-3 mediated proliferation. These findings suggest that SOCS proteins may play a general co-operative role in the context of oncogenes which aberrantly activate STAT3/5 independently of JAK kinases. This study reveals a novel molecular mechanism of FLT3-ITD mediated leukemogenesis and suggests SOCS genes as potential therapeutic targets.
Relational data exchange deals with translating relational data according to a given specification. This problem is one of the many tasks that arise in data integration, for example, in data restructuring, in ETL (Extract-Transform-Load) processes used for updating data warehouses, or in data exchange between different, possibly independently created, applications. Systems for relational data exchange exist for several decades now. Motivated by their experiences with one of those systems, Fagin, Kolaitis, Miller, and Popa (2003) studied fundamental and algorithmic issues arising in relational data exchange. One of these issues is how to answer queries that are posed against the target schema (i.e., against the result of the data exchange) so that the answers are consistent with the source data. For monotonic queries, the certain answers semantics proposed by Fagin, Kolaitis, Miller, and Popa (2003) is appropriate. For many non-monotonic queries, however, the certain answers semantics was shown to yield counter-intuitive results. This thesis deals with computing the certain answers for monotonic queries on the one hand, and on the other hand, it deals with the issue of which semantics are appropriate for answering non-monotonic queries, and how hard it is to evaluate non-monotonic queries under these semantics. As shown by Fagin, Kolaitis, Miller, and Popa (2003), computing the certain answers for unions of conjunctive queries - a subclass of the monotonic queries - basically reduces to computing universal solutions, provided the data transformation is specified by a set of tgds (tuple-generating dependencies) and egds (equality-generating dependencies). If M is such a specification and S is a source database, then T is called a solution for S under M if T is a possible result of translating S according to M. Intuitively, universal solutions are most general solutions. Since the above-mentioned work by Fagin, Kolaitis, Miller, and Popa it was unknown whether it is decidable if a source database has a universal solution under a given data exchange specification. In this thesis, we show that this problem is undecidable. More precisely, we construct a specification M that consists of tgds only so that it is undecidable whether a given source database has a universal solution under M. From the proof it also follows that it is undecidable whether the chase procedure - by which universal models can be obtained - terminates on a given source database and the set of tgds in M. The above results in particular strengthen results of Deutsch, Nash, and Remmel (2008). Concerning the issue of which semantics are appropriate for answering non-monotonic queries, we study several semantics for answering such queries. All of these semantics are based on the closed world assumption (CWA). First, the CWA-semantics of Libkin (2006) are extended so that they can be applied to specifications consisting of tgds and egds. The key is to extend the concept of CWA-solution, on which the CWA-semantics are based. CWA-solutions are characterized as universal solutions that are derivable from the source database using a suitably controlled version of the chase procedure. In particular, if CWA-solutions exist, then there is a minimal CWA-solution that is unique up to isomorphism: the core of the universal solutions introduced by Fagin, Kolaitis, and Popa (2003). We show that evaluation of a query under some of the CWA-semantics reduces to computing the certain answers to the query on the minimal CWA-solution. The CWA-semantics resolve some the known problems with answering non-monotonic queries. There are, however, two natural properties that are not possessed by the CWA-semantics. On the one hand, queries may be answered differently with respect to data exchange specifications that are logically equivalent. On the other hand, there are queries whose answer under the CWA-semantics intuitively contradicts the information derivable from the source database and the data exchange specification. To find an alternative semantics, we first test several CWA-based semantics from the area of deductive databases for their suitability regarding non-monotonic query answering in relational data exchange. More precisely, we focus on the CWA-semantics by Reiter (1978), the GCWA-semantics (Minker 1982), the EGCWA-semantics (Yahya, Henschen 1985) and the PWS-semantics (Chan 1993). It turns out that these semantics are either too weak or too strong, or do not possess the desired properties. Finally, based on the GCWA-semantics we develop the GCWA*-semantics which intuitively possesses the desired properties. For monotonic queries, some of the CWA-semantics as well as the GCWA*-semantics coincide with the certain answers semantics, that is, results obtained for the certain answers semantics carry over to those semantics. When studying the complexity of evaluating non-monotonic queries under the above-mentioned semantics, we focus on the data complexity, that is, the complexity when the data exchange specification and the query are fixed. We show that in many cases, evaluating non-monotonic queries is hard: co-NP- or NP-complete, or even undecidable. For example, evaluating conjunctive queries with at least one negative literal under simple specifications may be co-NP-hard. Notice, however, that this result only says that there is such a query and such a specification for which the problem is hard, but not that the problem is hard for all such queries and specifications. On the other hand, we identify a broad class of queries - the class of universal queries - which can be evaluated in polynomial time under the GCWA*-semantics, provided the data exchange specification is suitably restricted. More precisely, we show that universal queries can be evaluated on the core of the universal solutions, independent of the source database and the specification.
Fas Ligand (FasL; CD95L; CD178; TNSF6) is a 40 kDa glycosylated type II transmembrane protein with 279 aa in mice and 281 aa in humans that belongs to the tumor necrosis factor (TNF) family. The extracellular domain (ECD) harbors a TNF homology domain, the receptor binding site, a motif for self assembly and trimerization, and several putative N-glycosylation and a metalloprotease cleavage site/s. The cytoplasmic tail of FasL is the longest of all TNFL family members and contains several conserved signaling motifs, such as a putative tandem Casein kinase I phosphorylation site, a unique proline-rich domain (PRD) and phosphorylatable tyrosine residues (Y7 in mice; Y7, Y9, Y13 in human). The FasL/Fas system is renowned for the potent induction of apoptosis in the receptor-bearing cell and is especially important for immune system functions. It is involved in the killing of target cells by natural killer (NK) and cytotoxic T cells, in the (self) elimination of effector cells following the proliferative phase of an immune response (activation-induced cell death; AICD), in the maintenance of immuneprivileged sites and in the induction and maintenance of peripheral tolerance. Owing to its potent pro-apoptotic signaling capacity and important functions, FasL expression and activity are tightly regulated at transcriptional and posttranscriptional levels and restricted to few cell types, such as immune effector cells and cells of immune-privileged sites. In contrast, Fas is expressed in a variety of tissues including lymphoid tissues, liver, heart, kidney, pancreas, brain and ovary. In addition to its pro-apoptotic function, the FasL/Fas system can also elicit nonapoptotic signals in the receptor-expressing cell. Among others, Fas-signaling exerts co-stimulatory functions in the immune system, e.g. by promoting survival, activation and proliferation of T cells. Besides the capacity to deliver a signal into receptor-bearing cells (‘forward signal’), FasL can receive and transmit signals into the ligand-expressing cell. This phenomenon has been described for several TNF family ligands and is known as ‘reverse signaling’. The first evidence for the existence of reverse signaling into FasL-bearing cells stems from two studies that demonstrated either co-stimulation of murine CD8+ T cell lines by FasL cross-linking or inhibition of activation-induced proliferation of murine CD4+ T cells. In both cases, the observed changes of proliferative behaviour critically depended on the presence of a signaling-competent FasL. Almost certainly, the FasL ICD is functionally involved in signal-transmission: (i) The ICD is highly conserved across species and harbors several signaling motifs, most notably a unique PRD. (ii) Numerous proteins have been identified which interact with the FasL PRD via their SH3 or WW domains and regulate various aspects of FasL biology, such as FasL sorting, storage, cell surface expression and the linkage of FasL to intracellular signaling pathways. (iii) Post-translational modifications of the ICD have been implicated in the sorting of FasL to vesicles and the FasL-dependent activation of Nuclear factor of activated T cells (NFAT). (iv) Proteolytic processing of FasL liberates the ICD and allows its translocation into the nucleus where it might influence gene transcription. (v) It could be shown that overexpression of the FasL ICD is sufficient to initiate reverse signaling upon concomitant T cell receptor (TCR) stimulation and ICD cross-linking. Conflicting data on the consequences of FasL reverse signaling exist, and costimulatory as well as inhibitory functions have been reported. These discrepancies probably reflect the use of artificial experimental systems. Neither the precise molecular mechanism underlying FasL reverse signaling, nor its physiological relevance have been addressed at the endogenous protein level in vivo. Therefore, a ‘knockout/knockin’ mouse model in which wildtype FasL was replaced with a deletion mutant lacking the intracellular portion (FasL Delta Intra) was established in the group of PD Dr. Martin Zörnig. In the present study, FasL Delta Intra mice were phenotypically characterized and were employed to investigate the physiological consequences of FasL reverse signaling at the molecular and cellular level. To ensure that FasL Delta Intra mice represent a suitable model to study the consequences of FasL reverse signaling, we demonstrated that activated lymphocytes from homozygous FasL Delta Intra or wildtype mice express comparable amounts of (truncated) FasL at the cell surface. The truncated protein retains the capacity to induce apoptosis in Fas receptor-positive target cells, as co-culture assays with FasL-expressing activated lymphocytes and Fas-sensitive target cells showed. Additionally, systematic screening of unchallenged mice did not reveal any phenotypic abnormalities. Notably, signs of a lymphoproliferative autoimmune disease associated with FasL-deficiency could not be detected. As several reports have implicated FasL reverse signaling in the regulation of T cell expansion and activation, proliferation of lymphocytes isolated from FasL Delta Intra and wildtype mice in response to antigen receptor stimulation was investigated. Using CFSE dilution assays it could be demonstrated that the proliferative response of CD4+ T cells, CD8+ T cells and of B cells was enhanced in the absence of the FasL ICD. Interestingly, this effect was most pronounced in B cells and could only be detected in CD4+ T cells after depletion of CD4+CD25+ regulatory T cells. To our Summary knowledge, this is the first time that FasL reverse signaling has been demonstrated in B cells. In a series of experiments, the activation of several pathways that are known to play important roles in signal-transmission initiated upon antigen receptor triggering was assessed. As a molecular correlate for the observed enhancement of activation-induced proliferation, Extracellular signal regulated kinase (ERK1/2) phosphorylation was significantly increased in FasL Delta Intra mice following antigen receptor crosslinking. Surprisingly, B cell stimulation lead to a comparable extent of activating phosphorylations on S38 in c-Raf and S218/S222 in MEK1/2 in cells isolated from wildtype and FasL Delta Intra mice, indicating that Mitogen activated protein kinases (MAPKs) upstream of ERK1/2 (Raf-1 and MEK1/2) apparently do not contribute to the differential regulation of ERK1/2. Experiments in which activation-induced Akt phosphorylation (S473) was quantified also did not suggest a participation of Phosphoinositol specific kinase 3 (PI3K)/Akt signals in this process. Instead, further characterization of the upstream pathway revealed an involvement of Phospholipase C gamma (PLC gamma) and Protein kinase C (PKC) signals in FasL-dependent ERK1/2- regulation. Previous studies in our group revealed a Notch-like processing of FasL, resulting in the transcriptional regulation of a reporter gene. Furthermore, an interaction of the FasL ICD with the transcription factor Lymphoid-enhancer binding factor-1 (Lef-1) that affected Lef-1-dependent reporter gene transcription could be demonstrated. Therefore, a molecular analysis of activated lymphocytes was performed to identify FasL reverse signaling target genes. The differential expression of promising candidates was verified by quantitative real-time PCR (qRT-PCR), which showed that the transcription of genes associated with lymphocyte proliferation and activation was increased in FasL Delta Intra mice compared to wildtype mice. Interestingly, an extensive regulation of Lef-1-dependent Wnt/beta-Catenin signalingrelated genes was found. Lef-1 mRNA (RT-PCR) and protein (intracellular FACS staining) could be detected in mature B cells, suggesting the possibility of FasL ICD-mediated inhibition of Lef-1-dependent gene expression in these cells, initiated by Notch-like processing of FasL. To investigate the consequences of FasL reverse signaling in vivo, a potential participation of the FasL ICD in the regulation of immune responses upon various challenges was analyzed. In experiments in which thymocyte proliferation or the expansion of antigen-specific T cells following a challenge with the superantigen Staphylococcus enterotoxin B (SEB), with Lymphocytic choriomeningitis virus (LCMV) or with Listeria monocytogenes were investigated, comparable results were obtained with wildtype and FasL Delta Intra mice. Likewise, the recruitment of neutrophils in a thioglycollate-induced model of peritonitis was not affected by deletion of the FasL ICD. These findings might reflect regulatory mechanisms operating in vivo, such as control exerted by regulatory T cells. Along these lines, proliferative differences in CD4+ T cells could only be detected ex vivo after depletion of CD4+CD25+ regulatory T cells. Furthermore, several in vitro studies indicate that retrograde FasL signals can be observed under conditions of suboptimal lymphocyte stimulation, but not when the TCR is optimally stimulated. Therefore, the potent initiation of antigen receptor signaling by stimuli like SEB or LCMV might have masked inhibitory FasL reverse signaling in these experiments. In agreement with the observed hyperactivation of lymphocytes in the absence of the ICD ex vivo, the increase in germinal center B cells (GCs) following immunization with the hapten 3-hydroxy 4-nitrophenylacetyl (NP) and the number of antibody-secreting PCs was significantly higher in FasL Delta Intra mice. The larger quantity of PCs correlated with increased titers of NP-binding, i.e. antigen-specific, IgM and IgG1 antibodies in the serum of FasL Delta Intra mice after immunization. These data suggest that FasL reverse signaling exerts immunmodulatory functions. Supporting this notion, a model of Ovalbumin-induced allergic airway inflammation revealed an involvement of retrograde FasL-signals in the recruitment of immune effector cells into the lung and in the activation of T cells following exposure of mice to Ovalbumin. Together, our ex vivo and in vivo findings based on endogenous FasL protein levels demonstrate that FasL ICD-mediated reverse signaling is a negative modulator of certain immune responses. It is tempting to speculate that FasL reverse signaling might be a fine-tuning mechanism to prevent autoimmune diseases, a theory which will be tested in adequate mouse models in the future.
Lattice Yang-Mills theories at finite temperature can be mapped onto effective 3d spin systems, thus facilitating their numerical investigation. Using strong-coupling expansions we derive effective actions for Polyakov loops in the SU(2) and SU(3) cases and investigate the effect of higher order corrections. Once a formulation is obtained which allows for Monte Carlo analysis, the nature of the phase transition in both classes of models is investigated numerically, and the results are then used to predict – with an accuracy within a few percent – the deconfinement point in the original 4d Yang-Mills pure gauge theories, for a series of values of Nt at once.
To investigate the formation and the propagation of relativistic shock waves in viscous gluon matter we solve the relativistic Riemann problem using a microscopic parton cascade. We demonstrate the transition from ideal to viscous shock waves by varying the shear viscosity to entropy density ratio n/s. Furthermore we compare our results with those obtained by solving the relativistic causal dissipative fluid equations of Israel and Stewart (IS), in order to show the validity of the IS hydrodynamics. Employing the parton cascade we also investigate the formation of Mach shocks induced by a high-energy gluon traversing viscous gluon matter. For n/s = 0.08 a Mach cone structure is observed, whereas the signal smears out for n/s >=0.32.
Starting from a classical picture of shear viscosity we construct a steady velocity gradient in the partonic cascade BAMPS. Using the Navier-Stokes-equation we calculate the shear viscosity coefficient. For elastic isotropic scatterings we find a very good agreement with the analytic values. For both elastic and inelastic scatterings with pQCD cross sections we find good agreement with previously published calculations.
This paper shows the equivalence of applicative similarity and contextual approximation, and hence also of bisimilarity and contextual equivalence, in the deterministic call-by-need lambda calculus with letrec. Bisimilarity simplifies equivalence proofs in the calculus and opens a way for more convenient correctness proofs for program transformations. Although this property may be a natural one to expect, to the best of our knowledge, this paper is the first one providing a proof. The proof technique is to transfer the contextual approximation into Abramsky’s lazy lambda calculus by a fully abstract and surjective translation. This also shows that the natural embedding of Abramsky’s lazy lambda calculus into the call-by-need lambda calculus with letrec is an isomorphism between the respective term-models. We show that the equivalence property proven in this paper transfers to a call-by-need letrec calculus developed by Ariola and Felleisen. 1998 ACM Subject Classification: F.4.2, F.3.2, F.3.3, F.4.1. Key words and phrases: semantics, contextual equivalence, bisimulation, lambda calculus, call-by-need, letrec.