In addition, RBECs constitutively released PAI-1 into the blood-f

In addition, RBECs constitutively released PAI-1 into the blood-facing (luminal) and brain-facing (abluminal) sides. This release was polarized selleck chemical in favor of the luminal side and facilitated by serum. The neutralization of PAI-1 by an antibody to PAI-1 in RBEC/pericyte co-culture more robustly reduced TEER of RBECs than in RBEC monolayers. These findings suggest that PAI-1 derived from the neurovascular unit and peripheral vascular system

participates as a positive regulator of the BBB in facilitating the barrier function of the endothelial tight junctions. (C) 2010 Elsevier Inc. All rights reserved.”
“The authors performed a three-dimensional shape deformation analysis to clarify the various patterns of specific thalamic nuclei abnormality using three age-matched and sex-matched groups of 22 patients with obsessive-compulsive disorder (OCD), 22

patients with schizophrenia and 22 control participants. Compared with the healthy volunteers, the anterior, lateral outward surface deformities of the thalamus were significant in OCD patients, whereas the posterior, medial outward deformities of the thalamus were prominent in schizophrenia patients. In BIIB057 terms of thalamic asymmetry, both OCD and schizophrenia patients exhibited the loss of a leftward pattern of asymmetry on the posterior, medial surface of the thalamus. Different patterns of shape Dinaciclib nmr abnormality of specific thalamic nuclei may be related to the different phenomenology of OCD and schizophrenia.”
“Background: We performed gene expression profiling of the amygdala and hippocampus taken from inbred mouse strains C57BL/6J and A/J. The selected brain areas are implicated in neurobehavioral traits while these mouse strains are known to differ widely in behavior. Consequently, we hypothesized that comparing

gene expression profiles for specific brain regions in these strains might provide insight into the molecular mechanisms of human neuropsychiatric traits. We performed a whole-genome gene expression experiment and applied a systems biology approach using weighted gene co-expression network analysis.\n\nResults: We were able to identify modules of co-expressed genes that distinguish a strain or brain region. Analysis of the networks that are most informative for hippocampus and amygdala revealed enrichment in neurologically, genetically and psychologically related pathways. Close examination of the strain-specific gene expression profiles, however, revealed no functional relevance but a significant enrichment of single nucleotide polymorphisms in the probe sequences used for array hybridization. This artifact was not observed for the modules of co-expressed genes that distinguish amygdala and hippocampus.

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