1,508 research outputs found

    PDB29 COST OF DIABETES MELLITUS TYPE 1 AND 2 STUDIES IN COUNTRIES OF CENTRAL AND EASTERN EUROPE—A SYSTEMATIC REVIEW OF THE LITARATURE

    Get PDF

    Stearoyl-CoA desaturase 2 is required for peroxisome proliferator-activated receptor gamma expression and adipogenesis in cultured 3T3-L1 cells

    Get PDF
    Based on recent evidence that fatty acid synthase and endogenously produced fatty acid derivatives are required for adipogenesis in 3T3-L1 adipocytes, we conducted a small interfering RNA-based screen to identify other fatty acid-metabolizing enzymes that may mediate this effect. Of 24 enzymes screened, stearoyl-CoA desaturase 2 (SCD2) was found to be uniquely and absolutely required for adipogenesis. Remarkably, SCD2 also controls the maintenance of adipocyte-specific gene expression in fully differentiated 3T3-L1 adipocytes, including the expression of SCD1. Despite the high sequence similarity between SCD2 and SCD1, silencing of SCD1 did not down-regulate 3T3-L1 cell differentiation or gene expression. SCD2 mRNA expression was also uniquely elevated 44-fold in adipose tissue upon feeding mice a high fat diet, whereas SCD1 showed little response. The inhibition of adipogenesis caused by SCD2 depletion was associated with a decrease in peroxisome proliferator-activated receptor gamma (PPARgamma) mRNA and protein, whereas in mature adipocytes loss of SCD2 diminished PPARgamma protein levels, with little change in mRNA levels. In the latter case, SCD2 depletion did not change the degradation rate of PPARgamma protein but decreased the metabolic labeling of PPARgamma protein using [(35)S]methionine/cysteine, indicating protein translation was decreased. This requirement of SCD2 for optimal protein synthesis in fully differentiated adipocytes was verified by polysome profile analysis, where a shift in the mRNA to monosomes was apparent in response to SCD2 silencing. These results reveal that SCD2 is required for the induction and maintenance of PPARgamma protein levels and adipogenesis in 3T3-L1 cells

    Shutdown is a component of the Drosophila piRNA biogenesis machinery

    Get PDF
    In animals, the piRNA pathway preserves the integrity of gametic genomes, guarding them against the activity of mobile genetic elements. This innate immune mechanism relies on distinct genomic loci, termed piRNA clusters, to provide a molecular definition of transposons, enabling their discrimination from genes. piRNA clusters give rise to long, single-stranded precursors, which are processed into primary piRNAs through an unknown mechanism. These can engage in an adaptive amplification loop, the ping-pong cycle, to optimize the content of small RNA populations via the generation of secondary piRNAs.Many proteins have been ascribed functions in either primary biogenesis or the ping-pong cycle, though for the most part the molecular functions of proteins implicated in these pathways remain obscure. Here, we link shutdown (shu), a gene previously shown to be required for fertility in Drosophila, to the piRNA pathway. Analysis of knockdown phenotypes in both the germline and somatic compartments of the ovary demonstrate important roles for shutdown in both primary biogenesis and the ping-pong cycle. shutdown is a member of the FKBP family of immunophilins. Shu contains domains implicated in peptidyl-prolyl cis-trans isomerase activity and in the binding of HSP90-family chaperones, though the relevance of these domains to piRNA biogenesis is unknown. Published by Cold Spring Harbor Laboratory Press. Copyright © 2012 RNA Society

    Expression of ITGB8 in Epicardial Adipose Tissue is Highly and Directly Correlated with the Severity of Coronary Atherosclerosis

    Get PDF
    Background: In patients with coronary artery disease (CAD), epicardial adipose tissue (EAT) has been shown to express increased levels of inflammatory cytokines (IL-1β, IL-6, MCP-1, TNFα) and decreased levels of anti-inflammatory and cardioprotective adipokines. However, it is not known whether or not inflammation in EAT is a primary cause or a secondary response to atherosclerosis. In order to better understand this pathophysiology, we tested the hypothesis that expression of certain genes in EAT would correlate with the degree of coronary atherosclerosis. Purpose: The purpose of this study was to determine whether there is a difference in gene expression in epicardial fat of patients with and without coronary artery disease and if there is a difference, whether these differentially expressed genes participate in the inflammatory pathways. Methods: EAT and paired subcutaneous adipose tissue (SAT) samples collected from cardiac surgery patients with and without coronary disease were fixed for microscopy and frozen for RNA extraction. RNA was hybridized to Affymetrix Human Gene 1.0 ST chips. We used an unbiased approach to identify genes highly and differentially expressed in EAT vs. SAT (FC\u3e3.0). The probe intensities for these resultant genes were then correlated with the severity of atherosclerosis in each patient as determined by the Gensini score. Results:35 genes were differentially expressed in EAT at \u3e3.0 fold change (p Conclusions: Using an unbiased whole genome approach, we identified ITGB8 and TG2 as genes whose expression is correlated with CAD severity. ITGB8 has been previously shown to be expressed by fibroblasts and functions to activate TGFβ. TGFβ signaling has also been correlated with advanced atherosclerosis. We speculate that EAT expression of ITGB8 may have pro-inflammatory effects, possibly by activating TGFβ, and stimulating recruitment of dendritic cells or T cells to secondary lymphoid organs in EAT. Whether or not this is the case is a goal of future studies

    Expression of the Integrin Beta 8 Gene (ITGB8) in Epicardial Adipose Tissue is Highly and Directly Correlated with the Degree of Coronary Atherosclerosis

    Get PDF
    Background: In patients with coronary artery disease (CAD), epicardial adipose tissue (EAT) expression of inflammatory genes is high while expression of anti-inflammatory genes is low. We hypothesized that expression of certain genes in EAT would correlate directly with the degree of adjacent CAD. Methods: EAT and paired subcutaneous adipose tissue (SAT) samples were collected from cardiac surgery patients (n=9) with and without CAD. RNA was isolated and hybridized to Affymetrix 1.0 ST chips. Genes differentially expressed in EAT vs. SAT were identified. Probe intensities were correlated with the severity of CAD in each patient using the Gensini score. Results: 35 genes were differentially expressed in EAT at \u3e3.0 fold change (p Conclusions: Expression of ITGB8 is directly correlated with CAD severity. ITGB8 has been previously shown to be expressed by fibroblasts and functions to activate TGFβ. TGFβ signaling has also been correlated with advanced atherosclerosis. We speculate that EAT expression of ITGB8 may have pro-inflammatory effects, possibly by activating TGFβ, and stimulating recruitment of dendritic cells or T cells to secondary lymphoid organs in EAT. Whether or not this is the case is a goal of future studies

    Dipolar ordering in Fe8?

    Full text link
    We show that the low-temperature physics of molecular nanomagnets, contrary to the prevailing one-molecule picture, must be determined by the long-range magnetic ordering due to many-body dipolar interactions. The calculations here performed, using Ewald's summation, suggest a ferromagnetic ground state with a Curie temperature of about 130 mK. The energy of this state is quite close to those of an antiferromagnetic state and to a glass of frozen spin chains. The latter may be realized at finite temperature due to its high entropy.Comment: 7 pages, no figures, submitted to EP
    • …
    corecore