Uncoupling protein 2 (UCP2) is a member of the mitochondrial proton transport family that uncouples proton entry to the mitochondria from ATP synthesis. UCP2 expression levels have been linked to predisposition to diabetes and obesity. In addition, UCP2 prevents neuronal death and injury. Here we show that the common -866G/A promoter polymorphism is associated with susceptibility to multiple sclerosis (MS) in the German population. We analysed altogether 1,097 MS patients and 462 control subjects from two cohorts and found that the common G allele is associated with disease susceptibility (p = 0.0015). The UCP2 -866G allele is correlated with lower levels of UCP2 expression as shown here in vitro and in vivo. Thus, UCP2 promoter polymorphism may contribute to MS susceptibility by regulating the level of UCP2 protein in the central nervous and/or the immune systems.
Interferon-β (IFN-β) is one of the major drugs for multiple sclerosis (MS) treatment. The purpose of this study was to characterize the transcriptional effects induced by intramuscular IFN-β-1a therapy in patients with relapsing-remitting form of MS. By using Affymetrix DNA microarrays, we obtained genome-wide expression profiles of peripheral blood mononuclear cells of 24 MS patients within the first 4 weeks of IFN-β administration. We identified 121 genes that were significantly up- or downregulated compared with baseline, with stronger changed expression at 1 week after start of therapy. Eleven transcription factor-binding sites (TFBS) are overrepresented in the regulatory regions of these genes, including those of IFN regulatory factors and NF-κB. We then applied TFBS-integrating least angle regression, a novel integrative algorithm for deriving gene regulatory networks from gene expression data and TFBS information, to reconstruct the underlying network of molecular interactions. An NF-κB-centered sub-network of genes was highly expressed in patients with IFN-β-related side effects. Expression alterations were confirmed by real-time PCR and literature mining was applied to evaluate network inference accuracy.
Genetic linkage and association studies define chromosomal regions, quantitative trait loci (QTLs), which influence the phenotype of polygenic diseases. Here, we describe a global approach to determine intergenomic consensus of those regions in order to fine map QTLs and select particularly promising candidate genes for disease susceptibility or other polygenic traits. Exemplarily, human multiple sclerosis (MS) susceptibility regions were compared for sequence similarity with mouse and rat QTLs in its animal model experimental allergic encephalomyelitis (EAE). The number of intergenomic MS/EAE consensus genes (295) is significantly higher than expected if the animal model was unrelated to the human disease. Hence, this approach contributes to the empirical evaluation of animal models for their applicability to the study of human diseases.
The move towards disciplinary independence in Germany turned out to be more troublesome than in France or Great Britain and real institutional independence was not established at German universities until the 1970s of the 20th century, and this in the Federal Republic of Germany only. In East Germany (German Democratic Republic--GDR), a division into Chairs of Psychiatry and Neurology took place at individual universities and medical colleges only. Nevertheless, in exceptional circumstances, neurology did gain academic autonomy in the GDR. One such exception was the University of Rostock, where as early as 1958, the Chair of Psychiatry had been divided into three independent Chairs of Psychiatry, Neurology and Child Psychiatry. Besides internal scientific factors, socio-political constraints played a particular role here and had an influence on the disciplinary differentiation.
We characterized the early effects of anti-very late antigen (VLA-4) and its counterligand vascular cell adhesion molecule-1 (VCAM-1) antibody therapy on T cell infiltration and apoptosis in adoptive transfer experimental autoimmune neuritis of female Lewis rats. At the peak of disease, animals were treated with anti-VCAM-1 monoclonal antibody (mAb), anti-VLA-4 mAb, or the respective isotype mAb controls 18, 12, or 6 h before perfusion. Anti-VCAM-1 led to a rapid, significant increase of apoptotic T cells in the sciatic nerve with a maximum after 6 h, preceding the significant decrease of T cell infiltration seen after 18 h. This was accompanied by a significant reduction in mRNA levels for IFN-gamma and inducible nitric oxide synthase. The results for anti-VLA-4 treatment showed a similar trend. The early increase of T cell apoptosis following disruption of VLA-4/VCAM-1 interaction may reflect a novel signaling component of proapoptotic pathways.
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