The mechanisms generating epileptic neuronal networks following insults such as severe seizures are unknown. We have previously shown that interfering with the function of the neuron-restrictive silencer factor (NRSF/REST), an important transcription factor that influences neuronal phenotype, attenuated development of this disorder. In this study, we found that epilepsy-provoking seizures increased the low NRSF levels in mature hippocampus several fold yet surprisingly, provoked repression of only a subset (∼10%) of potential NRSF target genes. Accordingly, the repressed gene-set was rescued when NRSF binding to chromatin was blocked. Unexpectedly, genes selectively repressed by NRSF had mid-range binding frequencies to the repressor, a property that rendered them sensitive to moderate fluctuations of NRSF levels. Genes selectively regulated by NRSF during epileptogenesis coded for ion channels, receptors, and other crucial contributors to neuronal function. Thus, dynamic, selective regulation of NRSF target genes may play a role in influencing neuronal properties in pathological and physiological contexts.DOI:
http://dx.doi.org/10.7554/eLife.01267.001
Lithium is an effective, well-established treatment for bipolar disorder (BD). However, the mechanisms of its action, and reasons for variations in clinical response, are unclear. We used neural precursor cells (NPCs) and lymphoblastoid cell lines (LCLs), from BD patients characterized for clinical response to lithium (using the “Alda scale” and “NIMH Retrospective Life chart method”), to interrogate cellular phenotypes related to both disease and clinical lithium response. NPCs from two biologically related BD patients who differed in their clinical response to lithium were compared with healthy controls. RNA-Seq and analysis, mitochondrial membrane potential (MMP), cell viability, and cell proliferation parameters were assessed, with and without in vitro lithium. These parameters were also examined in LCLs from 25 BD patients (16 lithium responders and 9 non-responders), and 12 controls. MMP was lower in both NPCs and LCLs from BD; but it was reversed with in vitro lithium only in LCLs, and this was unrelated to clinical lithium response. The higher cell proliferation observed in BD was unaffected by in vitro lithium. Cell death was greater in BD. However, LCLs from clinical lithium responders could be rescued by addition of in vitro lithium. In vitro lithium also enhanced BCL2 and GSK3B expression in these cells. Our findings indicate cellular phenotypes related to the disease (MMP, cell proliferation) in both NPCs and LCLs; and those related to clinical lithium response (cell viability, BCL2/GSK3B expression) in LCLs.
Human induced Pluripotent Stem Cells (HiPSCs) have immense potential in research and therapeutics. Under the aegis of Department of Biotechnology funded national program entitled, "The Accelerator program for Discovery in Brain Disorders using Stem Cells (ADBS)" we have established a HiPSC biorepository (https://www.ncbs.res.in/adbs/bio-repository) with an objective to study severe mental illness. The repository comprises of HiPSC lines derived from healthy control donors and individuals with life time diagnosis of severe mental illness from dense families. In the current report we submit information regarding two population control reference lines (male = 1; female = 1) from this biorepository.
The object-oriented p aradigm has been found to be useful for the construction of large and complex concurrent systems. Reachability analysis is an important and well-known tool for static pre-run-time analysis of concurrent programs. However, direct application of traditional reachability analysis to concurrent object-oriented p r ograms has many problems, such as incomplete analysis for reusable classes not safe and increased c omputational complexity not e cient.We have proposed a novel technique called apportioning, for e ective reachability analysis of concurrent object-oriented p r ograms, that integrates the techniques of abstraction considering a reduced r epresentation of the system and partitioning dividing the system into smaller units. The given program is apportioned i n t o a r educed version of each of its classes, as well as a reduced version of the program. The error to be checked is also decomposed into appropriate sub-properties for checking in the reachability graphs corresponding to the apportioned p r ogram.We have developed a number of apportioning-based algorithms, having di erent degrees of safety and effectiveness. In this paper, we present the details of one of these algorithms.
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