Global ETD Search

191	Effects of Chronic Oxidative Stress on TRPM2 and TRPC3 Channels: Potential Implications for Bipolar Disorder Roedding, Angela 09 August 2013 (has links) Intracellular calcium and oxidative stress dyshomeostasis, which can be highly interactive, occur in bipolar disorder (BD), but the pathogenesis of these disturbances is unknown. The transient receptor potential (TRP) melastatin subtype 2 (TRPM2) and canonical subtype 3 (TRPC3) calcium-permeable non-selective ion channels, already implicated in BD, are involved in calcium and oxidative stress signalling. Thus, I sought to determine whether the expression and function of these channels are modulated by oxidative stress exposure in rat cortical neurons, astrocytes, and in human B lymphoblast cell lines (BLCLs), a cell model that reports diagnostically relevant abnormalities in BD. This thesis work demonstrated that TRPC3 expression and function are decreased after chronic, but not acute oxidative stress exposure in both human and rat cell models. TRPM2 expression, on the other hand, was increased after both acute and chronic stressor treatments in rat cortical neurons. In BLCLs, TRPM2-mediated calcium entry was blunted although no difference in TRPM2 mRNA expression was detected. Moreover, BLCLs from BD-I patients exhibited greater susceptibility to cell death and a differential sensitivity of TRPM2-mediated calcium influx to acute oxidative stress compared with healthy subjects, further supporting reduced cellular resilience in the pathophysiology of BD-I. I also demonstrated that TRPC3 protein is expressed in human brain from 8 days to 83 years old supporting an ongoing role in the developing and adult human brain. These findings support an important role for TRPM2 and TRPC3 in sensing and responding to oxidative stress, and in transducing oxidative stress signalling to intracellular calcium homeostatic and cellular stress responses, which have been implicated in the pathophysiology of BD. Finally, this work has highlighted an inherent difference in TRPM2 channel functionality in BD type I subjects compared with controls, adding functional evidence to the genetic and differential expression findings implicating TRPM2 dysfunction in BD. Transient receptor potential channels Bipolar disorder Calcium signalling Oxidative stress 0317 0347 0419
192	Sex and Strain Differences in Acute Hepatotoxic and Inflammatory Responses to Liver Procarcinogens in the Developing Mouse Hanna, Daniel 12 July 2013 (has links) We previously observed that postnatal exposure of mice to the procarcinogen 4-aminobiphenyl (ABP) produced liver tumors only in wild-type males, while arylamine N-acetyltransferase deficient males and females of either strain were protected. Others have also observed a sex difference in liver tumors in mice using the procarcinogen diethylnitrosamine (DEN). Reasons for these sex and strain differences are unclear, but differences in acute hepatotoxicity and inflammation may be involved. In this thesis we found that neither ABP nor DEN produced overt hepatotoxicity in postnatally exposed mice, and only DEN caused an increase in levels of the pro-inflammatory cytokine interleukin-6 but was not sex-dependent. The lack of sex difference suggests that sex hormone modulation of inflammation following sexual maturation might favour growth of initiated cells in males. However, the lack of detectable inflammation following ABP exposure may be due to localized responses, or that inflammation may be a DEN-specific effect. 4-aminobiphenyl Aromatic amines Diethylnitrosamine Carcinogenesis Hepatocellular carcinoma Hepatotoxicity Inflammation 0419 0383 0433 0307
193	Development and Validation of a Novel Quantitative Assay for Cell surface Expression of GPCRs using a Receptor β-lactamase fusion Protein and the Colourometric Substrate Nitrocefin Lam, Vincent 12 July 2013 (has links) Trafficking of GPCRs is a dynamic process that is tightly regulated and sometimes defective in human diseases. Therefore it is important to develop new methods to allow simple and quantitative measurement of surface expression of membrane proteins. Here we describe the development and validation of a new assay for quantification of cell surface expression of GPCRs using β-lactamase as a reporter. For this assay we N-terminally fused β-lactamase (βlac) to the β2-adrenergic receptor (β2AR) and GABA b R1 (GBR1). The results obtained by the βlac assay are quantitatively and qualitatively similar to well established ELISA when measuring agonist induced internalization of β2AR. We also show that measurement of GBR1 surface expression with GBR2 co-expression is quantitatively identical between the βlac and ELISA. In conclusion, our results show that our newly developed βlac assay is quantitatively similar while being less expensive, more robust and higher throughput compared to an ELISA. GPCR Assay β-lactamase Nitrocefin Surface Expression ELISA Internalization Pharmacological Chaperone Molecular Chaperone 0419 0379 0307
194	Nature and Function of the Signaling Complex Formed by the M2 Muscarinic Cholinergic Receptor Ma, Amy Wing-Shan 05 December 2012 (has links) G protein-coupled receptors (GPCRs) are known to exist as oligomers, but there is much uncertainty over the oligomeric size, the number of interacting G proteins and the stability of that interaction. The present approach to these questions has been threefold. Monomers of the M2 muscarinic receptor were purified from Spodoptera frugiperda (Sf9) cells and reconstituted in phospholipid vesicles, where they spontaneously formed tetramers. The size of the reconstituted complex was determined from its electrophoretic mobility after cross-linking and inferred from a quantitative, model-based assessment of cooperative effects in the binding of two muscarinic antagonists: N-methylscopolamine and quinuclidinylbenzilate. Binding of the agonist oxotremorine-M to receptor reconstituted with purified G proteins revealed at least three classes of sites that interconverted from higher to lower affinity upon the addition of guanylylimidotriphosphate (GMP-PNP). The binding properties resemble those of muscarinic receptors in myocardial preparations, thereby implying the existence of tetramers in native tissues. G proteins that copurify with the M2 receptor from cardiac membranes also were found to exist as oligomers, some of which contain both alpha(o) and alpha(i2), and the purified complexes contained receptor and G protein in near-equal amounts. A tetrameric receptor implies a tetramer of G proteins, a conclusion that is supported by the distribution of sites between different states identified in the binding of [35S]GTPgammaS to the purified complex. Covalent adducts of a GPCR fused to a Galpha-subunit provide a model system in which the relationship between receptor and G protein complex is defined with respect to stability and composition. Such a fusion of the M2 receptor and Galpha(i1) underwent a cleavage near the amino terminus of the alpha-subunit, however, flagging the likelihood of similar effects in other such adducts. Truncation of the amino terminus prior to fusion generated a stable product that revealed GMP-PNP-sensitive, biphasic binding of oxotremorine-M and noncompetitive interactions between N-methylscopolamine and quinuclidinylbenzilate. A covalent RG complex therefore exhibits the functional properties of M2 receptors in native systems. These observations are consistent with the notion that signaling through the M2 receptor occurs via cooperative interactions within a stable complex that comprises four receptors and four G proteins. G protein-coupled receptor Oligomers Cooperativity Heterotrimeric G proteins Signaling 0419 0487 0491
195	A Role for Bclaf1 in mRNA Processing and Skeletal Muscle Differentiation Sarras, Haya 19 March 2013 (has links) Bcl-2 associated factor 1 (Bclaf1; previously known as Btf) is a nuclear protein that was originally identified as an interacting partner for the adenoviral anti-apoptotic Bcl-2 family member E1B-19K. Surprisingly, Bclaf1 does not share structural homology with the Bcl-2 family of proteins, but rather exhibits protein structure and subcellular distribution patterns reminiscent of proteins that regulate mRNA processing. In addition, Bclaf1 appears to be expressed at high levels in skeletal muscle and was recently shown to associate with emerin, a protein linked to muscular dystrophy. Despite these observations, roles for Bclaf1 in RNA processing and/or skeletal muscle differentiation remain to be elucidated. In an effort to identify new roles for Bclaf1 I conducted protein-protein interaction screens to identify candidate interacting proteins and pathways. I identified p32 and 9G8 as novel interacting partners for Bclaf1. Additional subsequent experiments demonstrated an interaction of Bclaf1 with tip associated protein (Tap) and association of Bclaf1 with ribonucleoprotein complexes. Given that all of these proteins have been linked to mRNA processing, a role for Bclaf1 in this pathway was investigated. Using several approaches, I demonstrated that Bclaf1 is able to associate with splicing complexes and mRNA species at various stages of processing. The function of Bclaf1 in the context of skeletal muscle differentiation was also explored using skeletal muscle cell lines and primary mouse myoblasts. Skeletal muscle differentiation led to a dramatic decrease in nuclear Bclaf1 steady-state protein, with the unexpected appearance of smaller Bclaf1 protein species that accumulated in the cytoplasm during differentiation due to cleavage by caspases. Furthermore, Bclaf1 depletion in a myoblast cell line led to increased myoblast fusion and myofiber dimensions during differentiation. Overall our findings indicate roles for Bclaf1 in the skeletal muscle differentiation program and in molecular events that regulate pre-mRNA splicing and related events. Bclaf1 myoblasts pre-mRNA processing skeletal muscle yeast two-hybrid apoptosis 0419
196	Effects of Chronic Oxidative Stress on TRPM2 and TRPC3 Channels: Potential Implications for Bipolar Disorder Roedding, Angela 09 August 2013 (has links) Intracellular calcium and oxidative stress dyshomeostasis, which can be highly interactive, occur in bipolar disorder (BD), but the pathogenesis of these disturbances is unknown. The transient receptor potential (TRP) melastatin subtype 2 (TRPM2) and canonical subtype 3 (TRPC3) calcium-permeable non-selective ion channels, already implicated in BD, are involved in calcium and oxidative stress signalling. Thus, I sought to determine whether the expression and function of these channels are modulated by oxidative stress exposure in rat cortical neurons, astrocytes, and in human B lymphoblast cell lines (BLCLs), a cell model that reports diagnostically relevant abnormalities in BD. This thesis work demonstrated that TRPC3 expression and function are decreased after chronic, but not acute oxidative stress exposure in both human and rat cell models. TRPM2 expression, on the other hand, was increased after both acute and chronic stressor treatments in rat cortical neurons. In BLCLs, TRPM2-mediated calcium entry was blunted although no difference in TRPM2 mRNA expression was detected. Moreover, BLCLs from BD-I patients exhibited greater susceptibility to cell death and a differential sensitivity of TRPM2-mediated calcium influx to acute oxidative stress compared with healthy subjects, further supporting reduced cellular resilience in the pathophysiology of BD-I. I also demonstrated that TRPC3 protein is expressed in human brain from 8 days to 83 years old supporting an ongoing role in the developing and adult human brain. These findings support an important role for TRPM2 and TRPC3 in sensing and responding to oxidative stress, and in transducing oxidative stress signalling to intracellular calcium homeostatic and cellular stress responses, which have been implicated in the pathophysiology of BD. Finally, this work has highlighted an inherent difference in TRPM2 channel functionality in BD type I subjects compared with controls, adding functional evidence to the genetic and differential expression findings implicating TRPM2 dysfunction in BD. Transient receptor potential channels Bipolar disorder Calcium signalling Oxidative stress 0317 0347 0419
197	Structure-based Development of Vitamin B5 Analogs and Evaluation of their Antimicrobial Efficiency against S. aureus and E. coli Mottaghi, Katayoun 18 March 2013 (has links) The objective of this study is to evaluate pseudo-substrates of pantothenate kinase (PanK) for the therapeutic treatment of multidrug resistant bacterial infections of Staphylococcus aureus (S. aureus) and Escherichia coli (E. coli). Pantothenate (Pan) analogs, including N- pentylpantothenamide (N5-Pan) and N-heptylpantothenamide (N7-Pan), hamper bacterial growth by utilizing the PanK enzymes, which normally catalyze the rate determining step of the Coenzyme A biosynthetic pathway. Here we report the structures of SaPanK, Human PanK3 and EcPanK complexed with N7-Pan or N5-Pan, all of which have provided the opportunity to investigate the structural differences of bacterial and human Pan binding sites. The MTT assay showed these analogs to exhibit no apparent cytotoxicity against Human A549 lung adenocarcinoma cells, human HepG2 hepatoma cells and human umbilical vein endothelial cells (HUVEC). The presented structural differences have the potential for aiding the development of species-specific antimicrobial compounds with minimal effects on human cells. Structural biology N-substituted Pan analogs Structure-based development Antimicrobial compounds Pantothenate 0419
198	Sex and Strain Differences in Acute Hepatotoxic and Inflammatory Responses to Liver Procarcinogens in the Developing Mouse Hanna, Daniel 12 July 2013 (has links) We previously observed that postnatal exposure of mice to the procarcinogen 4-aminobiphenyl (ABP) produced liver tumors only in wild-type males, while arylamine N-acetyltransferase deficient males and females of either strain were protected. Others have also observed a sex difference in liver tumors in mice using the procarcinogen diethylnitrosamine (DEN). Reasons for these sex and strain differences are unclear, but differences in acute hepatotoxicity and inflammation may be involved. In this thesis we found that neither ABP nor DEN produced overt hepatotoxicity in postnatally exposed mice, and only DEN caused an increase in levels of the pro-inflammatory cytokine interleukin-6 but was not sex-dependent. The lack of sex difference suggests that sex hormone modulation of inflammation following sexual maturation might favour growth of initiated cells in males. However, the lack of detectable inflammation following ABP exposure may be due to localized responses, or that inflammation may be a DEN-specific effect. 4-aminobiphenyl Aromatic amines Diethylnitrosamine Carcinogenesis Hepatocellular carcinoma Hepatotoxicity Inflammation 0419 0383 0433 0307
199	Development and Validation of a Novel Quantitative Assay for Cell surface Expression of GPCRs using a Receptor β-lactamase fusion Protein and the Colourometric Substrate Nitrocefin Lam, Vincent 12 July 2013 (has links) Trafficking of GPCRs is a dynamic process that is tightly regulated and sometimes defective in human diseases. Therefore it is important to develop new methods to allow simple and quantitative measurement of surface expression of membrane proteins. Here we describe the development and validation of a new assay for quantification of cell surface expression of GPCRs using β-lactamase as a reporter. For this assay we N-terminally fused β-lactamase (βlac) to the β2-adrenergic receptor (β2AR) and GABA b R1 (GBR1). The results obtained by the βlac assay are quantitatively and qualitatively similar to well established ELISA when measuring agonist induced internalization of β2AR. We also show that measurement of GBR1 surface expression with GBR2 co-expression is quantitatively identical between the βlac and ELISA. In conclusion, our results show that our newly developed βlac assay is quantitatively similar while being less expensive, more robust and higher throughput compared to an ELISA. GPCR Assay β-lactamase Nitrocefin Surface Expression ELISA Internalization Pharmacological Chaperone Molecular Chaperone 0419 0379 0307
200	Transcriptional Regulation of the Mouse Adrenal Cyclase Type 4 (Adcy4) in Y1 Adrenocortical Tumor Cells Rui, Xianliang 20 May 2010 (has links) Adenylyl cyclase (Adcy) is an important early effector of adrenocorticotrophin (ACTH) on the adrenal cortex; however, this enzyme consists of ten isozymes in mammalian cells and the factors governing the expression of different Adcy isozymes have not been well defined. The aim of this study is to investigate the regulation of mouse Adcy4, one of ten isozymes, in Y1 adrenocortical tumor cells and in mutant subclones derived from the Y1 cells. Adcy4 is expressed at a high level in brain but at lower levels in many other tissues including the Y1 cells. Moreover, this isozyme is specifically deficient in Y1 mutants with impaired steroidogenic factor 1 (SF1) activity. These observations support a hypothesis that Adcy4 expression is influenced by both ubiquitously expressed and tissue-specific transcription factors. My sequencing results indicate that mouse Adcy4 is highly homologous to the human and rat counterparts; its gene is located less than 1 kb downstream of Ripk3 and contains 26 exons. Primer extension and in silico analyses suggest that Adcy4 contains a TATA-less promoter and initiates transcription from multiple sites. Luciferase reporter gene assays indicate that Adcy4 promoter activity is mainly stimulated by the proximal GC-rich region but is inhibited by the first intron. This 124 bp GC-rich region is well conserved among several mammalian species and exhibits strong promoter activity in Y1 cells, which is functionally compromised in the Adcy4-deficient mutant. Within this region, three Sp1/Sp3- and one SF1-binding sites have been identified which bind the corresponding proteins Sp1 and Sp3 or SF1 in electrophoretic mobility shift assays (EMSAs). Site-directed mutagenesis reveals that the 5’-most Sp1/Sp3 site enhances Adcy4 promoter activity, whereas the middle Sp1/Sp3 and SF1 sites each repress this activity. In Y1 mutant cells, mutating the SF1 site restores Adcy4 promoter activity and knocking down SF1 with shRNA increases Adcy4 expression. All these data demonstrate that Adcy4 expression is under the control of the ubiquitous factors Sp1 and Sp3 and the tissue-specific factor SF1 and establish that SF1 is a repressor for Adcy4 promoter activity. This study is the first to demonstrate a repressor function for SF1 in certain promoter contexts. Adenylyl cyclase Steroidogenesis Steroidogenic factor 1 (SF1) Gene regulation Pharmacology 0419

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