David Bauer scite author profile

Background Predicting susceptibility to multiple sclerosis may have important clinical applications either as part of a diagnostic algorithm or as a tool with which to identify high-risk individuals for prospective studies. Here, we examine the utility of an aggregate measure of risk of multiple sclerosis (MS) based on genetic susceptibility loci. Secondarily, we assess the added effect of environmental risk factors that have been associated with susceptibility for MS. Methods We created a weighted genetic risk score (wGRS) that includes 16 MS susceptibility loci. We tested our model using data from (1) 2215 MS cases and 2189 controls (derivation samples), (2) a validation set of 1340 cases and 1109 controls taken from several MS therapeutic trials (TT samples), and (3) a second validation set of 143 cases and 281 controls from the U.S. Nurses’ Health Studies I and II (NHS) for whom we also have information regarding exposure to smoking and Epstein-Barr Virus (EBV). Findings . Patients with wGRS > 1.25 standard deviations from the mean had a significantly higher odds ratio for MS in all datasets. The area under the curve for a purely genetic model was 0.70 and for a gender + genetic model was 0.74 in the derivation samples (P <0.0001), 0.64 and 0.72 in the TT cohort (P <0.0001). Similarly, consideration of smoking and immune response to EBV enhanced the AUC of 0.64 for the genetic model to 0.68 in the NHS cohort (P =0.02). The wGRS does not appear to be correlated with conversion of a clinically isolated syndrome to MS. Interpretation The current combination of 16 susceptibility alleles into a wGRS modestly predicts MS risk and shows consistent discriminatory ability in independent subject samples and is enhanced by considering non-genetic risk factors.

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Oxidation of magnetite nanoparticles: impact on surface and crystal properties

Schwaminger

et al. 2017

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Iron oxide nanoparticles are of great scientific interest due to their huge versatility of applications. The oxidation process of magnetite to maghemite is difficult to monitor as both iron oxide polymorphs possess connatural chemical properties. Especially the surface composition and reactivity of these nanosystems, which are most relevant for interactions with their environment, are not completely understood. Here, the oxidation of magnetite is investigated under mild and harsh conditions in order to understand the oxidation behaviour and the chemical stability of transition forms. Therefore, the oxidation process, is investigated with Raman, Mössbauer and X-ray photoelectron spectroscopy as well as X-ray diffraction and magnetometry. The multi-analytical approach allows new insights into surface composition and rearrangement according to respective different depth profiles. For both conditions investigated, the ferrous iron components are oxidised prior to structural changes in the Fe-O vibrations and crystal structure. The process starts from the outer layers and is acid catalysed. Oxidation leads to a decrease of magnetisation which still remains higher than 54 emu g −1. The charge and surface reactivity can be affected by the different oxidation methods and the irreversible adsorption of acid molecules. Biocompatibility and catalytic properties of iron oxide nanoparticles open doors to future applications.

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Dysfunction of dysferlin-deficient hearts

et al. 2007

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Mutations in the gene encoding dysferlin cause limb-girdle muscular dystrophy 2B (LGMD2B), a disorder that is believed to spare the heart. We observed dilated cardiomyopathy in two out of seven LGMD2B patients and cardiac abnormalities in three others. Cardiac biopsies showed that dysferlin was completely absent from the sarcolemma and appeared to be trapped within the cardiomyocytes. SJL/J mice (33-week-old) had diminished end-systolic pressure and reduced dP/dt; however, the hearts were histologically normal. Gene expression profiles of cardiac tissue were obtained and later confirmed by quantitative RT-PCR. Dysferlin-deficient and control mice had different gene expression patterns in terms of cardiomyocyte Z-disc and signal transduction proteins. CapZ, LIM-domain-binding protein 3 (LDB3, MLP), cypher (ZASP), desmin, and the cardiac ankyrin-repeated protein (CARP) were differentially expressed, compared to controls. Mechanical stress induced by the nonselective beta-adrenergic agonist isoproterenol (5 mg/kg body weight) given daily for 10 days resulted in reduced fractional shortening and increased cardiac fibrosis in SJL/J mice as compared to controls. Isoproterenol also caused metalloproteinase-2 upregulation in SJL/J mice. In A/J mice, the effect of isoproterenol injection was even more dramatic and lead to premature death as well as marked sarcolemmal injury as demonstrated by Evans blue dye penetration. Our data suggest that disturbances in dysferlin as well as Z-line proteins and transcription factors particularly under mechanical stress cause cardiomyopathy.

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Metal–Organic Framework Nanoparticles Induce Pyroptosis in Cells Controlled by the Extracellular pH

et al. 2020

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Ion homeostasis is essential for cellular survival, and elevated concentrations of specific ions are used to start distinct forms of programmed cell death. However, investigating the influence of certain ions on cells in a controlled way has been hampered due to the tight regulation of ion import by cells. Here, it is shown that lipid‐coated iron‐based metal–organic framework nanoparticles are able to deliver and release high amounts of iron ions into cells. While high concentrations of iron often trigger ferroptosis, here, the released iron induces pyroptosis, a form of cell death involving the immune system. The iron release occurs only in slightly acidic extracellular environments restricting cell death to cells in acidic microenvironments and allowing for external control. The release mechanism is based on endocytosis facilitated by the lipid‐coating followed by degradation of the nanoparticle in the lysosome via cysteine‐mediated reduction, which is enhanced in slightly acidic extracellular environment. Thus, a new functionality of hybrid nanoparticles is demonstrated, which uses their nanoarchitecture to facilitate controlled ion delivery into cells. Based on the selectivity for acidic microenvironments, the described nanoparticles may also be used for immunotherapy: the nanoparticles may directly affect the primary tumor and the induced pyroptosis activates the immune system.

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Discovery and Optimization of Triazolopyridazines as Potent and Selective Inhibitors of the c-Met Kinase

et al. 2008

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Tumorigenesis is a multistep process in which oncogenes play a key role in tumor formation, growth, and maintenance. MET was discovered as an oncogene that is activated by its ligand, hepatocyte growth factor. Deregulated signaling in the c-Met pathway has been observed in multiple tumor types. Herein we report the discovery of potent and selective triazolopyridazine small molecules that inhibit c-Met activity.

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David Bauer

Integration of genetic risk factors into a clinical algorithm for multiple sclerosis susceptibility: a weighted genetic risk score

Oxidation of magnetite nanoparticles: impact on surface and crystal properties

Dysfunction of dysferlin-deficient hearts

Metal–Organic Framework Nanoparticles Induce Pyroptosis in Cells Controlled by the Extracellular pH

Discovery and Optimization of Triazolopyridazines as Potent and Selective Inhibitors of the c-Met Kinase

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