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Infliximab is a monoclonal antibody directed against TNF-alpha. It has been approved for use in rheumatoid arthritis, ankylosing spondylitis, inflammatory bowel disease, psoriatic arthritis and plaque-type psoriasis. In case reports, positive effects on pustular variants of psoriasis have also been reported. However, paradoxically, manifestation of pustular psoriasis and plaque-type psoriasis has been reported in patients treated with TNF antagonists including infliximab for other indications. Here, we report on 5 patients with chronic plaque-type psoriasis who developed palmoplantar pustulosis during or after discontinuation of infliximab therapy. In two of the five cases, manifestation of palmoplantar pustulosis was not accompanied by worsening of plaque-type psoriasis. Possibly, site-specific factors or a differential contribution of immunological processes modulated by TNF inhibitors to palmoplantar pustulosis and plaque-type psoriasis may have played a role.
Background: Adrenal chromaffin cells and sympathetic neurons both originate from the neural crest, yet signals that trigger chromaffin development remain elusive. Bone morphogenetic proteins (BMPs) emanating from the dorsal aorta are important signals for the induction of a sympathoadrenal catecholaminergic cell fate. Results: We report here that BMP-4 is also expressed by adrenal cortical cells throughout chick embryonic development, suggesting a putative role in chromaffin cell development. Moreover, bone morphogenetic protein receptor IA is expressed by both cortical and chromaffin cells. Inhibiting BMP-4 with noggin prevents the increase in the number of tyrosine hydroxylase positive cells in adrenal explants without affecting cell proliferation. Hence, adrenal BMP-4 is likely to induce tyrosine hydroxylase in sympathoadrenal progenitors. To investigate whether persistent BMP-4 exposure is able to induce chromaffin traits in sympathetic ganglia, we locally grafted BMP-4 overexpressing cells next to sympathetic ganglia. Embryonic day 8 chick sympathetic ganglia, in addition to principal neurons, contain about 25% chromaffin-like cells. Ectopic BMP-4 did not increase this proportion, yet numbers and sizes of "chromaffin" granules were significantly increased. Conclusions: BMP-4 may serve to promote specific chromaffin traits, but is not sufficient to convert sympathetic neurons into a chromaffin phenotype.
Self-inactivating gammaretroviral vectors for the gene therapy of chronic granulomatous disease
(2008)
Chronic granulomatous disease (CGD) is a rare inherited primary immunodeficiency characterized by defective intracellular oxidative killing of ingested invading microbes by PMN and monocytes. It is caused by mutations in one of the four genes coding for the essential subunits of the NADPH oxidase (gp91phox, p47phox, p67phox and p22phox). Approximately 75% of the CGD cases are due to mutations in the gp91phox gene. If regular care and conventional therapy fail, the recommended therapy is allogeneic bone marrow transplantation (BMT), but only if a matched donor is available. A therapeutic option for patients lacking suitable donors is the genetic modification of autologous hematopoietic stem cells. The gene therapy offers an interesting alternative to BMT since it implies a less invasive treatment and represents a possibly unique curative option for patients with no suitable donor. Gammaretroviral vectors were already used in some gene therapy trials for CGD and other immunodeficiencies showing relevant clinical benefit. However, these trials uncovered an unexpected mutagenic side effect. If the retrovial integration ocurrs near to, or into proto-oncogenes this might lead to clonal dominance or even malignant transformation (Hacein-Bey-Abina et al., 2003a; Ott et al., 2006). Therefore, there was a need to further improve the safety of these vectors and to this end the self-inactivating gammaretroviral vectors were engineered. Non essential sequences for virus infectivity and integration, which might influence the surrounding gene expression, were deleted in these vectors. In the first set of experiments, a series of SIN gamma retroviral vectors was cloned driving the expression of the wild-type gp91phox cDNA under the control of a viral constitutive SFFV promoter. However initial studies with these vectors failed because the titers of the virus produced by transient transfection protocols were extremely low (<5x105 TU/ml). Therefore, a codon optimization of the gp91phox cDNA was considered as an alternative. The codon optimized synthetic gp91phox gene was used to construct a SIN gammaretroviral vector, again under the control of the SFFV promoter (Schambach et al., 2006c). With this vector an increase in titer was observed compared to the native gp91phox sequence, which was due to the improved transcription in 293T transfected cells. The enhancement of the synthetic gp91phox transcription led to a higher internal transcript production and protein expression. An enhanced superoxide production in transduced myelomonocytic X-CGD PLB-985 populations was also detected. All these data indicate that the synthetic gp91phox might represent an excellent alternative to those former constructs expressing the native gp91phox transgene. Since it was postulated that the SFFV promoter could still cause transactivation of neighboring genes due to its strength (Modlich et al., 2006), three different non-viral promoters were tested, one constitutive (the EFs promoter) and two myeloid-specific promoters (the c-fes and MRP8 promoter). The three SIN gammaretroviral vectors were able to generate high titers after transient transfection of 293T packaging cells, to efficiently transduce the X-CGD PLB-985 cell line and to reconstitute the NADPH oxidase activity to a high degree. In mouse transplantation experiments, the EFs promoter showed a high variable transgene expression in the different lineages analyzed, and the c-fes promoter showed also a ubiquitinous expression. In contrast, the MRP8 promoter showed a high myeloid specificity since gp91phox expression in mSca-1+ cells and lymphoid B cells from transplanted mice was extremly low and even absent. However, the lowest levels of transgene expression were observed in the myeloid populations both in bone marrow and peripheral blood with this vector. When the oxidase reconstitution ability of these promoters was tested, the numbers of superoxide producing cells obtained were similar than those observed in the clinical X-CGD trial conducted by the groups of Dr. M. Grez and Prof. R. A. Seger (over 35% in one patient and ~15% in the second), which led to the eradication of therapy refractory infections (Ott et al., 2006). Between the three constructs, the MRP8 promoter was less effective in restoring the NADPH oxidase activity than the EFs and c-fes promoters. The c-fes promoter reached the highest levels of DHR reactive cells in the highest number of mice. Overall, these data showed that between all constructs tested, the c-fes containing construct in combination with the codon optimized gp91phox sequence showed the best performance within the SIN gammaretroviral backbone. It generated the highest titers in combination with a better NADPH oxidase reconstituting ability. One main goal in the development of SIN gammaretroviral vectors is reducing the genotoxic effect due to random vector integration. An improved gene transfer and expression, and a constant performance are also highly desirable. The present study shows that the c-fes SIN vector in combination with the synthetic gp91phox may be considered as an effective gene therapy strategy for the restoration of the NADPH oxidase activity in CGD. It allows the use of a cellular promoter generating adequate physiological levels of the therapeutic protein and reduces the number of vector copies required for a therapeutic effect.
Conclusion Scale Integration Based on the results of spike-field coherence, the underlying process of shortterm memory seems to involve networks of different sizes within and, most probably, beyond prefrontal cortex. Spikes, which were generated by single neurons, cooperate with local field potentials, which were the slower fluctuations of the environment. Although differences among behavioral conditions appear to be based on rather few instances of phase-locked spikes, the task-related effects on spike-field coherence are highly reliable and cannot be explained by chance, as the comparison of results from experimental and simulated data shows. The differential locking of prefrontal neuron populations with two different frequency bands in their input signals suggests that neuronal activity underlying short-term memory in prefrontal cortex transiently engages cortical circuits on different spatial scales, probably in order to coordinate distributed processes. NeuroXidence method and Synchronizedfiring Based on the results of the calibration datasets, for bi- and multi-variate cases, the extension of NeuroXidence remains its sensitivity and reliability of detecting coordinate firing events for different processes. Based on this extension of NeuroXidence, we demonstrated that in monkey’s prefrontal cortex during short-term memory task, encoding and maintenance of the information rely on the formation of neuronal assemblies characterized by precise and reliable synchronization of spiking activity on a millisecond time scale, which is consistent with the results from spike-spike coherence. The task and performance dependent modulation of synchrony reflects the dynamic formation of group of neurons has large effect on short-term-memory.
Development of chromium(VI)-free defect etching solutions for application on silicon substrates
(2008)
Spectroscopic responses of the potentiometric probe 2-(4-(dimethylamino)styryl)-1-methylpyridinium iodide (DASPMI) were investigated in living cells by means of a time- and space-correlated single photon counting technique. Spatially resolved fluorescence decays from single mitochondria or only a very few organelles of XTH2 cells exhibited three-exponential decay kinetics. Based on DASPMI photophysics in a variety of solvents, these lifetimes were attributed to the fluorescence from the locally excited state, intramolecular charge transfer state, and twisted intramolecular charge transfer state. A considerable variation in lifetimes among mitochondria of different morphologies and within single cells was evident, corresponding to high physiological variations within single cells. Considerable shortening of the short lifetime component ({tau}1) under a high-membrane-potential condition, such as in the presence of ATP and/or substrate, was similar to quenching and a dramatic decrease of lifetime in polar solvents. Under these conditions {tau}2 and {tau}3 increased with decreasing contribution. Inhibiting respiration by cyanide resulted in a notable increase in the mean lifetime and a decrease in mitochondrial fluorescence. Increased DASPMI fluorescence under conditions that elevate the mitochondrial membrane potential has been attributed to uptake according to Nernst distributions, delocalization of {pi}-electrons, quenching processes of the methyl pyridinium moiety, and restricted torsional dynamics at the mitochondrial inner membrane. Accordingly, determination of anisotropy in DASPMI-stained mitochondria in living cells revealed a dependence of anisotropy on the membrane potential. The direct influence of the local electric field on the transition dipole moment of the probe and its torsional dynamics monitor changes in mitochondrial energy status within living cells.
A series of production and perception experiments investigating the prosody and well-formedness of special sentences, called Wide Focus Partial Fronting (WFPF), which consist of only one prosodic phrase and a unique initial accented argument, are reported on here. The results help us to decide between different models of German prosody. The absence of pitch height difference on the accent of the sentence speaks in favor of a relative model of prosody, in which accents are scaled relative to each other, and against models in which pitch accents are scaled in an absolute way. The results also speak for a model in which syntax, but not information structure, influences the prosodic phrasing. Finally, perception experiments show that the prosodic structure of sentences with a marked word order needs to be presented for grammaticality judgments. Presentation of written material only is not enough, and falsifies the results.
Focus asymmetries in Bura
(2008)
This article presents the central aspects of the focus system of Bura (Chadic), which exhibits a number of asymmetries: Grammatical focus marking is obligatory only with focused subjects, where focus is marked by the particle án following the subject. Focused subjects remain in situ and the complement of án is a regular VP. With nonsubject foci, án appears in a cleft-structure between the fronted focus constituent and a relative clause. We present a semantically unified analysis of focus marking in Bura that treats the particle as a focusmarking copula in T that takes a property-denoting expression (the background) and an individual-denoting expression (the focus) as arguments. The article also investigates the realization of predicate and polarity focus, which are almost never marked. The upshot of the discussion is that Bura shares many characteristic traits of focus marking with other Chadic languages, but it crucially differs in exhibiting a structural difference in the marking of focus on subjects and non-subject constituents.
The term cephalic sensory organ (CSO) is used for specialised structures in the head region of adult Opisthobranchia. These sensory organs show a high diversity in form and function, and the gross morphology of these organs differs considerably among taxa. They can be identified as cephalic shields, oral veils, Hancocks organs, lip organs, rhinophores or oral tentacles. Because of this extremely high diversity, the homology and the evolution of these organs have not been clarified yet. My intention was to use neuroanatomical data sets in order to find putative homologous CSOs. In this study, I will show data about immunohistochemical neurotransmitter content and cellular innervation patterns and their applicability as morphological characters for the homologisation of structures. I support earlier investigations that neurotransmitter content is often related to function. In contrast, axonal tracing patterns can be used to homologise nerves. Overall the aim of this study was to reconstruct the evolution of the CSOs of the Opisthobranchia, by projecting our neuroanatomical data sets onto a molecular phylogeny.