Signal Transduction (signal + transduction)

Distribution by Scientific Domains
Distribution within Medical Sciences

Kinds of Signal Transduction

  • insulin signal transduction
  • intracellular signal transduction

  • Terms modified by Signal Transduction

  • signal transduction cascade
  • signal transduction event
  • signal transduction inhibitor
  • signal transduction mechanism
  • signal transduction molecule
  • signal transduction pathway
  • signal transduction process
  • signal transduction protein
  • signal transduction system

  • Selected Abstracts


    Pharmacodynamic Analysis of the Interaction between Tiagabine and Midazolam with an Allosteric Model That Incorporates Signal Transduction

    EPILEPSIA, Issue 3 2003
    Daniël M. Jonker
    Summary: ,Purpose: The objective of this study was to characterize quantitatively the pharmacodynamic interaction between midazolam (MDL), an allosteric modulator of the ,-aminobutyric acid subtype A (GABAA) receptor, and tiagabine (TGB), an inhibitor of synaptic GABA uptake. Methods: The in vivo concentration,response relation of TGB was determined through pharmacokinetic/pharmacodynamic (PK/PD) modeling. Rats received a single intravenous dose of 10 mg/kg TGB in the absence and the presence of a steady-state plasma concentration of MDL. The EEG response in the 11.5- to 30-Hz frequency band was used as the pharmacodynamic end point. Results: Infusion of MDL resulted in a mean steady-state plasma concentration of 66 ± 3 ng/ml. A significant pharmacokinetic interaction with TGB was observed. MDL inhibited TGB clearance by 20 ± 7 ml/min/kg from the original value of 89 ± 6 ml/min/kg. However, no changes in plasma protein binding of both drugs were observed. The concentration,EEG relation of TGB was described by the sigmoid- Emax model. The pharmacodynamic parameter estimates of TGB were: Emax = 327 ± 10 ,V, EC50 = 392 ± 20 ng/ml, and nH = 3.1 ± 0.3. These values were not significantly different in the presence of MDL. Factors that may explain the lack of synergism were identified by a mechanism-based interaction model that separates the receptor activation from the signal-transduction process. High efficiency of signal transduction and the presence of a baseline response were shown to diminish the degree of synergism. Conclusions: We conclude that the in vivo pharmacodynamic interaction between MDL and TGB is additive rather than synergistic. This strongly suggests that allosteric modulation of the antiseizure activity of a GAT-1 inhibitor by a benzodiazepine does not offer a therapeutic advantage. [source]


    Reactive Oxygen Species and Signal Transduction

    IUBMB LIFE, Issue 1 2001
    Toren Finkel
    Abstract Increasing evidence suggests a role for intracellular reactive oxygen species (ROS) as mediators of normal and pathological signal transduction pathways. In particular, a growing list of recent reports have demonstrated a rapid and significant increases in intracellular ROS following growth factor or cytokine stimulation. These ROS appear essential for a host of downstream signaling events. Biochemical characterization of this ligand-activated ROS production has revealed important information regarding the molecular composition of the cellular oxidases and the regulation of their activity by small GTPases. Work is proceeding on identifying strategies to identify how ROS might specifically regulate signaling pathways by altering the activity of direct target molecules. This review will focus on the progress in the rapid emerging area of oxidant or redox-dependent signal transduction and speculate how these insights might alter our view and treatment of diseases thought to be caused by oxidative stress. [source]


    Poster Sessions CP08: Signal Transduction

    JOURNAL OF NEUROCHEMISTRY, Issue 2002
    G. Taglialatela
    Inducible nitric oxide synthase (iNOS) and high levels of nitric oxide (NO) are present in the CNS of patients with Alzheimer's disease (AD), resulting in both DNA and protein oxidative damage. While iNOS can result in damaging levels of NO, the neuronal constitutive form of NOS (nNOS) has a role in cell signalling and can prevent neuronal apoptosis. iNOS can be induced by inflammatory cytokines such as tumor necrosis alpha (TNF,). TNF, is found in the CNS of AD, where neurons dependent on neurotrophins such as nerve growth factor (NGF) are particularly affected. Here we determined the effect of TNF, on the three NOS isoforms (endothelial, neuronal and inducible) in NGF-responsive PC12 cells. We found that while TNF, and NGF alone were uneffective, their simultaneous addition resulted in iNOS induction and the release of NO. In addition TNF, and NGF synergistically reduced nNOS, independently of the presence of high NO levels promoted by iNOS, while no effect was observed on eNOS. A similar pattern was observed in the brain of aged human subjects as compared to young individuals. Our results suggest that synergistic iNOS induction by TNF, and NGF may occur in selective populations of NGF-responsive neurons. Oxidative damage in such neurons could then occur in the presence of elevated levels of TNF,, that potentially occur in the brain of AD patients. This damaging scenario may further be aggravated by a concomitant reduction of nNOS, brought about by similar synergistic effects between TNF, and NGF. Acknowledgements:, Supported by NIA (AG13945) and Sealy Res. Dev. grants to GT. [source]


    Signal Transduction in Alcohol-Related Diseases

    ALCOHOLISM, Issue 7 2005
    Minoti V. Apte
    This article summarizes the proceedings of a symposium presented at the 12th World Congress on Biomedical Alcohol Research, organized by the International Society for Biomedical Research on Alcoholism, held at the University of Heidelberg in Mannheim, Germany, in September and October 2004. The organizers and chairpersons were Manfred V. Singer and Stephen J. Pandol. The presentations were (1) Ethanol-induced acinar cell injury, by Minoti V. Apte; (2) Oxidants and antioxidants: signal transduction and alcohol, by Thomá Zima; (3) Anti,TGF-, strategies for the treatment of chronic liver disease, by Steven Dooley; (4) Immune mechanisms in alcohol-induced liver disease, by Sören V. Siegmund; and (5) Alcoholic pancreatitis: insights from animal models, by Steven J. Pandol. [source]


    Differential Effects of Ethanol on Signal Transduction

    ALCOHOLISM, Issue 1 2000
    Gail H. Levine
    Background: PC12 pheochromocytoma cells were used as a model to study the effect of long-term ethanol exposure on signal transduction systems. In PC12 cells, the agonist bradykinin stimulates a phospholipase C specific for inositol-containing phospholipids and a phospholipase D specific for phosphatidylcholine. Methods: PC12 cells were grown in monolayer and cultured in the presence and absence of 1% ethanol for 5 days. After this period, bradykinin-stimulated phospholipase C and D were measured. The effect of long-term ethanol on the bradykinin-mediated activation of mitogen-activated protein (MAP) kinase was also measured. Results: In cells exposed to 1% ethanol for 5 days, bradykinin-stimulated phospholipase D was greatly attenuated, whereas bradykinin-stimulated phospholipase C was not altered. The tyrosine kinase inhibitor, genistein, blocked the bradykinin-mediated activation of phospholipase D but did not affect the stimulation of phospholipase C. However, long-term ethanol treatment did not attenuate the ability of bradykinin to activate MAP kinase, which suggests that ethanol did not have a general effect on all tyrosine kinase pathways. Conclusions: Ethanol has a differential effect on signal transduction in PC12 cells. Activation of phospholipase D may be mediated by a kinase, whereas the activation of phospholipase C is probably mediated by the guanine nucleotide binding protein, Gq. Because of these differences in activation mechanism, the pathways may adapt differently to long-term exposure to ethanol. [source]


    Sensor Mechanism and Afferent Signal Transduction of the Urinary Bladder: Special Focus on transient receptor potential Ion Channels

    LUTS, Issue 2 2010
    Masayuki TAKEDA
    In the urine storage phase, mechanical stretch stimulates bladder afferents. These urinary bladder afferent sensory nerves consist of small diameter A, - and C-fibers running in the hypogastic and pelvic nerves. Neuroanatomical studies have revealed a complex neuronal network within the bladder wall. The exact mechanisms that underline mechano-sensory transduction in bladder afferent terminals remain ambiguous; however, a wide range of ion channels (e.g. TTX-resistant Na+ channels, Kv channels and hyperpolarization-activated cyclic nucleotidegated cation channels, degenerin/epithelial Na+ channel), and receptors (e.g. TRPV1, TRPM8, TRPA1, P2X2/3, etc.) have been identified at bladder afferent terminals and have implicated in the generation and modulation of afferent signals, which are elcited by a wide range of bladder stimulations including physiological bladder filling, noxious distension, cold, chemical irritation and inflammation. The mammalian transient receptor potential (TRP) family consists of 28 channels that can be subdivided into six different classes: TRPV (Vanilloid), TRPC (Canonical), TRPM (Melastatin), TRPP (Polycystin), TRPML (Mucolipin), and TRPA (Ankyrin). TRP channels are activated by a diversity of physical (voltage, heat, cold, mechanical stress) or chemical (pH, osmolality) stimuli and by binding of specific ligands, enabling them to act as multifunctional sensors at the cellular level. TRPV1, TRPV2, TRPV4, TRPM8, and TRPA1 have been described in different parts of the urogenital tract. Although only TRPV1 among TRPs has been extensively studied so far, more evidence is slowly accumulating about the role of other TRP channels, ion channels, and receptors in the pathophysiology of the urogenital tract, and may provide a new strategy for the treatment of bladder dysfunction. [source]


    The Physiology of Endothelial Xanthine Oxidase: From Urate Catabolism to Reperfusion Injury to Inflammatory Signal Transduction

    MICROCIRCULATION, Issue 3 2002
    AVEDIS MENESHIAN
    ABSTRACT Xanthine oxidoreductase (XOR) is a ubiquitous metalloflavoprotein that appears in two interconvertible yet functionally distinct forms: xanthine dehydrogenase (XD), which is constitutively expressed in vivo; and xanthine oxidase (XO), which is generated by the posttranslational modification of XD, either through the reversible, incremental thiol oxidation of sulfhydryl residues on XD or the irreversible proteolytic cleavage of a segment of XD, which occurs at low oxygen tension and in the presence of several proinflammatory mediators. Functionally, both XD and XO catalyze the oxidation of purines to urate. However, whereas XD requires NAD+ as an electron acceptor for these redox reactions, thereby generating the stable product NADH, XO is unable to use NAD+ as an electron acceptor, requiring instead the reduction of molecular oxygen for this purine oxidation and generating the highly reactive superoxide free radical. Nearly 100 years of study has documented the physiologic role of XD in urate catabolism. However, the rapid, posttranslational conversion of XD to the oxidantgenerating form XO provides a possible physiologic mechanism for rapid, posttranslational, oxidant-mediated signaling. XO-generated reactive oxygen species (ROS) have been implicated in various clinicopathologic entities, including ischemia/reperfusion injury and multisystem organ failure. More recently, the concept of physiologic signal transduction mediated by ROS has been proposed, and the possibility of XD to XO conversion, with subsequent ROS generation, serving as the trigger of the microvascular inflammatory response in vivo has been hypothesized. This review presents the evidence and basis for this hypothesis. [source]


    Upward mobility and alternative lifestyles: a report from the 10th biennial meeting on Bacterial Locomotion and Signal Transduction

    MOLECULAR MICROBIOLOGY, Issue 1 2009
    Birgit E. Scharf
    Summary This past January, in Cuernavaca Mexico, a conglomerate of scientists met to discuss the contemporary view of Bacterial Locomotion and Signal Transduction (BLAST). The BLAST meetings represent a field that has its roots in chemotaxis and the flagellum-based motility but now encompass all types of cellular movement and signalling. The topics varied from the interactions between molecules to the interactions between species. We heard about 3D reconstructions of transmembrane chemoreceptors within cells, new biophysical methods for understanding cellular engines, intricate phosphorelays, elaborate gene networks, new messenger molecules and emerging behaviours within complex populations of cells. At BLAST X we gained an appreciation for the lifestyle choices bacteria make, how they get to where they are going and the molecular mechanisms that underlie their decisions. Herein we review the highlights of the meeting. [source]


    Introduction to the Symposium-in-Print on Photoreceptors and Signal Transduction in Honor of Professor Fumio Tokunaga

    PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 4 2008
    Osamu Hisatomi
    No abstract is available for this article. [source]


    Survival Pathway Signal Transduction is Reduced in Alveolar Macrophages during Pneumocystis Pneumonia

    THE JOURNAL OF EUKARYOTIC MICROBIOLOGY, Issue 2006
    MARK E. LASBURY
    [source]


    ORIGINAL ARTICLE: Genistein Reverses Diminished T-Cell Signal Transduction, Induced by Post-Menopausal Estrogen Levels

    AMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 1 2009
    J. Preston Parry
    Problem, This study addressed the ability of genistein to reverse the loss of T-cell signaling components, induced by estrogen deficiency associated with aging. Method of study, Using Jurkat 6.1 T cells, genistein regulation of CD3,, JAK3, and NF,B was analysed by Western immunoblotting at 4 or 40 pg/mL (post- and pre-menopausal levels, respectively) estradiol (E2). Corresponding gene expressions were quantified by real-time polymerase chain reaction (RT-PCR). For functionality, levels of IL-2 were correlated with its transcription by RT-PCR. Results, At 4 pg/mL E2, signaling proteins were decreased compared with 40 pg/mL: CD3,, 1.58-fold; JAK3, 1.75-fold; and NF,B, 1.73-fold (P < 0.001). Genistein, at 0.5 and 5.0 ,m, added to 4 pg/mL E2 induced their expression to 40 pg/mL levels. While significantly diminished IL-2 mRNA levels were observed at 4 pg/mL E2, genistein induced IL-2 mRNA to 40 pg/mL levels. Conclusion, Genistein restores CD3,, NF,B and JAK3 proteins and mRNAs at post-meonopausal estrogen levels, in vitro, with no significant effect at pre-menopausal estrogen levels. [source]


    Phospholipid-Coated Carbon Nanotubes as Sensitive Electrochemical Labels with Controlled-Assembly-Mediated Signal Transduction for Magnetic Separation Immunoassay,

    ANGEWANDTE CHEMIE, Issue 52 2009
    Huagui Nie Dr.
    Ein elektrochemisches Immunassay nutzt mehrwandige Kohlenstoffnanoröhren (MWNTs) mit Phospholipidüberzug als elektrochemische Markierungen (siehe Schema; PSA=Antigenprotein; MB=magnetisches Kügelchen). Die Signalübertragung bei dieser Strategie ist hoch empfindlich und spezifisch. [source]


    Entirely Artificial Signal Transduction with a Primary Messenger,

    ANGEWANDTE CHEMIE, Issue 43 2009
    Kai Bernitzki
    In einem künstlichen System gelingt die Botenstoff-induzierte Signalleitung über eine Membran. Die Zugabe des primären Botenstoffs (DET; siehe Bild) führt zur Bildung eines heterodimeren Komplexes aus Transmembran-Einheiten mit Tryptophan-Donor (Trp) und Dansyl-Akzeptor (Dan), der wiederum einen starken FRET-Effekt auf der Innenseite der Membran induziert (FRET: resonanter Fluoreszenzenergietransfer). [source]


    Signal transduction by the lipopolysaccharide receptor, Toll-like receptor-4

    IMMUNOLOGY, Issue 2 2004
    Eva M. Pålsson-McDermott
    Summary An understanding of lipopolysaccharide (LPS) signal transduction is a key goal in the effort to provide a molecular basis for the lethal effect of LPS during septic shock and point the way to novel therapies. Rapid progress in this field during the last 6 years has resulted in the discovery of not only the receptor for LPS , Toll-like receptor 4 (TLR4) , but also in a better appreciation of the complexity of the signalling pathways activated by LPS. Soon after the discovery of TLR4, the formation of a receptor complex in response to LPS, consisting of dimerized TLR4 and MD-2, was described. Intracellular events following the formation of this receptor complex depend on different sets of adapters. An early response, which is dependent on MyD88 and MyD88-like adapter (Mal), leads to the activation of nuclear factor-,B (NF-,B). A later response to LPS makes use of TIR-domain-containing adapter-inducing interferon-, (TRIF) and TRIF-related adapter molecule (TRAM), and leads to the late activation of NF-,B and IRF3, and to the induction of cytokines, chemokines, and other transcription factors. As LPS signal transduction is an area of intense research and rapid progress, this review is intended to sum up our present understanding of the events following LPS binding to TLR4, and we also attempt to create a model of the signalling pathways activated by LPS. [source]


    The proportion of CD40+ mucosal macrophages is increased in inflammatory bowel disease whereas CD40 ligand (CD154)+ T cells are relatively decreased, suggesting differential modulation of these costimulatory molecules in human gut lamina propria

    INFLAMMATORY BOWEL DISEASES, Issue 11 2006
    Dr. Hege S. Carlsen MD
    Abstract Background: Signal transduction through binding of CD40 on antigen-presenting cells and CD40 ligand (CD154) on T cells appears to be crucial for mutual cellular activation. Antibodies aimed at blocking the CD40,CD154 costimulatory pathway dampen the severity of experimental colitis. To elucidate the microanatomical basis for signaling through this costimulatory pathway in human inflammatory bowel disease, we studied in situ the cellular distribution of these 2 molecules on lamina propria macrophages and T cells, respectively. Methods: Colonic specimens from 8 patients with ulcerative colitis and 8 with Crohn's disease, 8 small bowel specimens of Crohn's disease, and histologically normal control samples (6 from colon and 6 from small bowel) were included. Multicolor immunofluorescence in situ staining was performed to determine the percentage of subepithelial macrophages expressing CD40 and that of lamina propria T cells expressing CD154 while avoiding cells in lymphoid aggregates. Results: The proportion of subepithelial CD40highCD68+ macrophages was significantly increased in normal colon compared with normal small bowel and showed further elevation in both colon and small bowel afflicted with inflammatory bowel disease. In addition, on a per-CD68+ -cell basis, CD40 expression was significantly increased in severely inflamed compared with moderately inflamed colonic specimens. Conversely, the proportion of CD154+ T cells was similar in colon and small bowel, and interestingly, it was significantly reduced in colonic inflammatory bowel disease. Conclusions: Our findings suggested that modulation of CD40 expression by subepithelial macrophages and CD154 by lamina propria T cells is inversely modulated in the human gut. [source]


    Signal transduction and functional changes in neutrophils with aging

    AGING CELL, Issue 4 2004
    Tamas Fulop
    Summary It is well known that the immune response decreases during aging, leading to a higher susceptibility to infections, cancers and autoimmune disorders. Most widely studied have been alterations in the adaptive immune response. Recently, the role of the innate immune response as a first-line defence against bacterial invasion and as a modulator of the adaptive immune response has become more widely recognized. One of the most important cell components of the innate response is neutrophils and it is therefore important to elucidate their function during aging. With aging there is an alteration of the receptor-driven functions of human neutrophils, such as superoxide anion production, chemotaxis and apoptosis. One of the alterations underlying these functional changes is a decrease in signalling elicited by specific receptors. Alterations were also found in the neutrophil membrane lipid rafts. These alterations in neutrophil functions and signal transduction that occur during aging might contribute to the significant increase in infections in old age. [source]


    Signal transduction of lipopolysaccharide-induced osteoclast differentiation

    PERIODONTOLOGY 2000, Issue 1 2007
    Nobuyuki Udagawa
    First page of article [source]


    Signal transduction in Mimosa pudica: biologically closed electrical circuits

    PLANT CELL & ENVIRONMENT, Issue 5 2010
    ALEXANDER G. VOLKOV
    ABSTRACT Biologically closed electrical circuits operate over large distances in biological tissues. The activation of such circuits can lead to various physiological and biophysical responses. Here, we analyse the biologically closed electrical circuits of the sensitive plant Mimosa pudica Linn. using electrostimulation of a petiole or pulvinus by the charged capacitor method, and evaluate the equivalent electrical scheme of electrical signal transduction inside the plant. The discharge of a 100 µF capacitor in the pulvinus resulted in the downward fall of the petiole in a few seconds, if the capacitor was charged beforehand by a 1.5 V power supply. Upon disconnection of the capacitor from Ag/AgCl electrodes, the petiole slowly relaxed to the initial position. The electrical properties of the M. pudica were investigated, and an equivalent electrical circuit was proposed that explains the experimental data. [source]


    Transmembrane signal transduction of the ,IIb,3 integrin

    PROTEIN SCIENCE, Issue 7 2002
    Kay E. Gottschalk
    Abstract Integrins are composed of noncovalently bound dimers of an ,- and a ,-subunit. They play an important role in cell-matrix adhesion and signal transduction through the cell membrane. Signal transduction can be initiated by the binding of intracellular proteins to the integrin. Binding leads to a major conformational change. The change is passed on to the extracellular domain through the membrane. The affinity of the extracellular domain to certain ligands increases; thus at least two states exist, a low-affinity and a high-affinity state. The conformations and conformational changes of the transmembrane (TM) domain are the focus of our interest. We show by a global search of helix,helix interactions that the TM section of the family of integrins are capable of adopting a structure similar to the structure of the homodimeric TM protein Glycophorin A. For the ,IIb,3 integrin, this structural motif represents the high-affinity state. A second conformation of the TM domain of ,IIb,3 is identified as the low-affinity state by known mutational and nuclear magnetic resonance (NMR) studies. A transition between these two states was determined by molecular dynamics (MD) calculations. On the basis of these calculations, we propose a three-state mechanism. [source]


    Signal transduction by G-proteins, Rho-kinase and protein phosphatase to smooth muscle and non-muscle myosin II

    THE JOURNAL OF PHYSIOLOGY, Issue 2 2000
    Andrew P. Somlyo
    We here review mechanisms that can regulate the activity of myosin II, in smooth muscle and non-muscle cells, by modulating the Ca2+ sensitivity of myosin regulatory light chain (RLC) phosphorylation. The major mechanism of Ca2+ sensitization of smooth muscle contraction and non-muscle cell motility is through inhibition of the smooth muscle myosin phosphatase (MLCP) that dephosphorylates the RLC in smooth muscle and non-muscle. The active, GTP-bound form of the small GTPase RhoA activates a serine/threonine kinase, Rho-kinase, that phosphorylates the regulatory subunit of MLCP and inhibits phosphatase activity. G-protein-coupled release of arachidonic acid may also contribute to inhibition of MLCP acting, at least in part, through the Rho/Rho-kinase pathway. Protein kinase C(s) activated by phorbol esters and diacylglycerol can also inhibit MLCP by phosphorylating and thereby activating CPI-17, an inhibitor of its catalytic subunit; this mechanism is independent of the Rho/Rho-kinase pathway and plays only a minor, transient role in the G-protein-coupled mechanism of Ca2+ sensitization. Ca2+ sensitization by the Rho/Rho-kinase pathway contributes to the tonic phase of agonist-induced contraction in smooth muscle, and abnormally increased activation of myosin II by this mechanism is thought to play a role in diseases such as high blood pressure and cancer cell metastasis. [source]


    A C-terminal segment of the V1R vasopressin receptor is unstructured in the crystal structure of its chimera with the maltose-binding protein

    ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 4 2005
    Syed Saad Mahmood
    The V1 vascular vasopressin receptor (V1R) is a G-protein-coupled receptor (GPCR) involved in the regulation of body-fluid osmolality, blood volume and blood pressure. Signal transduction is mediated by the third intracellular loop of this seven-transmembrane protein as well as by the C-terminal cytoplasmic segment. A chimera of the maltose-binding protein (MBP) and the C-terminal segment of V1R has been cloned, expressed, purified and crystallized. The crystals belong to space group P21, with unit-cell parameters a = 51.10, b = 66.56, c = 115.72,Å, , = 95.99°. The 1.8,Å crystal structure reveals the conformation of MBP and part of the linker region of this chimera, with the C-terminal segment being unstructured. This may reflect a conformational plasticity in the C-­terminal segment that may be necessary for proper function of V1R. [source]


    Signal transduction of inflammatory cytokines and tumor development

    CANCER SCIENCE, Issue 6 2006
    Akihiko Yoshimura
    It has been estimated that >20% of all malignancies are initiated or exacerbated by inflammation. Until recently, the molecular basis of this process has not been clarified. However, recent studies have uncovered the molecular mechanism of intracellular signaling pathways of inflammatory cytokines such as tumor necrosis factor (TNF)-,, interferon (IFN)-, and interleukin (IL)-6. Three major transcription factors including NF-,B, STAT1 and STAT3 have been shown to play major roles in transmitting inflammatory cytokine signals to the nucleus. One function of NF-,B and STAT3 in tumor cells is the promotion of cell growth and cell survival through the induction of target genes, whose products promote cell division and inhibit apoptosis. In addition, NF-,B and STAT1 are important transcription factors that induce inflammatory mediators from inflammatory cells, especially macrophages, while STAT3 often antagonizes this process. STAT1 is generally believed to be an anti-oncogene because it promotes apoptosis through p53, but it could promote inflammation-mediated tumor development by enhancing tissue injury, remodeling, fibrosis and inflammation. Hence, the inhibition of NF-,B and STATs offers a strategy for treatment of a variety of malignancies and can convert inflammation-induced tumor growth into inflammation-induced tumor regression. (Cancer Sci 2006; 97) [source]


    Proteome responses to stable hepatitis B virus transfection and following interferon alpha treatment in human liver cell line HepG2

    PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 6 2009
    Jianghua Wang
    Abstract Hepatitis B virus (HBV) infection is a worldwide health problem and may develop to liver fibrosis, cirrhosis, and even hepatocellular carcinoma. To investigate the global proteome responses of liver-derived cells to HBV infection and IFN, treatment, 2-DE and MS-based analysis were performed to compare the proteome changes between HBV stably transfected cell line HepG2.2.15 and its parental cell line HepG2, as well as HepG2.2.15 before and after IFN, treatment (5000,IU/mL for 72,h). Compared to HepG2, 12 of 18 down-regulated and 27 of 32 up-regulated proteins were identified in HepG2.2.15. After IFN, treatment, 6 of 7 down-regulated and 11 of 14 up-regulated proteins were identified. Differentially expressed proteins caused by HBV infection were involved with cytoskeletal matrix, heat shock stress, kinases/signal transduction, protease/proteasome components, etc. Prohibitin showed a dose-dependent up-regulation during IFN, treatment and might play a potent role in anti-HBV activities of IFN, by enhancing the crossbinding p53 expression to achieve the apoptosis of HBV infected liver cells. Down-regulation of interferon-stimulated gene 15 (ISG15) in HepG2.2.15 and recovery by IFN, suggested its relationship with IFN,'s anti-HBV effect. [source]


    Diabetic embryopathy: Studies using a rat embryo culture system and an animal model

    CONGENITAL ANOMALIES, Issue 3 2005
    Shoichi Akazawa
    ABSTRACT The mechanism of diabetic embryopathy was investigated using in vitro experiments in a rat embryo culture system and in streptozotocin-induced diabetic pregnant rats. The energy metabolism in embryos during early organogenesis was characterized by a high rate of glucose utilization and lactic acid production (anaerobic glycolysis). Embryos uninterruptedly underwent glycolysis. When embryos were cultured with hypoglycemic serum, such embryos showed malformations in association with a significant reduction in glycolysis. In a diabetic environment, hyperglycemia caused an increased glucose flux into embryonic cells without a down-regulation of GLUT1 and an increased metabolic overload on mitochondria, leading to an increased formation of reactive oxygen species (ROS). Activation of the hexamine pathway, subsequently occurring with increased protein carbonylation and increased lipid peroxidation, also contributed to the increased generation of ROS. Hyperglycemia also caused a myo-inositol deficiency with a competitive inhibition of ambient glucose, which might have been associated with a diminished phosphoinositide signal transduction. In the presence of low activity of the mitochondrial oxidative glucose metabolism, the ROS scavenging system in the embryo was not sufficiently developed. Diabetes further weakened the antioxidant system, especially, the enzyme for GSH synthesis, ,-GCS, thereby reducing the GSH concentration. GSH depletion also disturbed prostaglandin biosynthesis. An increased formation of ROS in a diminished GSH-dependent antioxidant system may, therefore, play an important role in the development of embryonic malformations in diabetes. [source]


    The birth and postnatal development of purinergic signalling

    ACTA PHYSIOLOGICA, Issue 2 2010
    G. Burnstock
    Abstract The purinergic signalling system is one of the most ancient and arguably the most widespread intercellular signalling system in living tissues. In this review we present a detailed account of the early developments and current status of purinergic signalling. We summarize the current knowledge on purinoceptors, their distribution and role in signal transduction in various tissues in physiological and pathophysiological conditions. [source]


    Reactive oxygen and nitrogen species in normal physiological processes

    ACTA PHYSIOLOGICA, Issue 1 2010
    J. Pourova
    Abstract Reactive oxygen species (ROS) and reactive nitrogen species have generally been considered as being highly reactive and cytotoxic molecules. Besides their noxious effects, ROS participate in physiological processes in a carefully regulated manner. By way of example, microbicidal ROS are produced in professional phagocytes, ROS function as short-lived messengers having a role in signal transduction and, among other processes, participate in the synthesis of the iodothyronine hormones, reproduction, apoptosis and necrosis. Because of their ability to mediate a crosstalk between key molecules, their role might be dual (at least in some cases). The levels of ROS increase from a certain age, being associated with various diseases typical of senescence. The aim of this review is to summarize the recent findings on the physiological role of ROS. Other issues addressed are an increase in ROS levels during ageing, and the possibility of the physiological nature of this process. [source]


    P38 mitogen-activated protein kinase signal transduction in the diagnosis and follow up of immunotherapy of wasp venom allergy,

    CYTOMETRY, Issue 5 2010
    Marjoke M. Verweij
    Abstract Background: P38 mitogen-activated protein kinase (MAPK) is known to govern IgE-mediated basophil activation. Intracellular phosphorylated p38 MAPK (Pp38 MAPK) in IgE-activated basophils can be quantified flow cytometrically. Objectives: To study whether Pp38 MAPK constitutes a potential novel read-out for flow-assisted diagnosis of hymenoptera venom allergy and to investigate whether this marker allows follow-up of successful venom immunotherapy (VIT). Methods: Fifty-two patients with documented wasp venom allergy and seven wasp-stung asymptomatic control individuals were enrolled. Wasp venom-induced basophil activation was analyzed flow cytometrically with anti-IgE, anti-CD63, and anti-Pp38 MAPK to assess their activation status before starting immunotherapy. To assess whether p38 MAPK constitutes a candidate marker for monitoring VIT, we repeated the basophil activation test (BAT) in 25 patients on the fifth day of a build-up immunotherapy. In addition, we investigated whether the Pp38 MAPK-based BAT could contribute in the decision of discontinuing VIT in a cross-sectional analysis in 13 patients receiving treatment for 3 years and 14 patients receiving treatment for 5 years. Results: Patients exhibited a dose-dependent basophil activation with phosphorylation of p38 MAPK and upregulation of downstream CD63. In contrast, stung controls demonstrated a dose-dependent but "abrogated" signal transduction in basophils with less and shorter duration of the phosphorylation of p38 MAPK and without subsequent upregulation of CD63. When repeated after 5 days of VIT and when investigated cross-sectionally after 3 years or 5 years of maintenance therapy, no effect of VIT on the phosphorylation of p38 MAPK was demonstrable. Conclusions: This study discloses that not only basophils from patients, but also from the stung control individuals, respond to wasp venom stimulation with phosphorylation of p38 MAPK, although to a lesser extend. No clear effect of VIT on the phosphorylation of p38 MAPK was shown. Thus, although p38 MAPK provides an additional tool in the diagnosis of wasp venom allergy, it does not contribute to the decision whether to stop successful VIT. © 2010 International Clinical Cytometry Society [source]


    Flow cytometry for ZAP-70: New colors for chronic lymphocytic leukemia

    CYTOMETRY, Issue 4 2006
    Adrian Wiestner
    Abstract ZAP-70 has become one of the most studied prognostic markers in Chronic Lymphocytic Leukemia (CLL). ZAP-70 is remarkable in many ways: ZAP-70 has been identified as the best discriminating gene between prognostically distinct CLL subtypes using large scale gene expression profiling; ZAP-70 has been shown to enhance signal transduction in CLL B-cells and therefore could contribute to disease progression; and ZAP-70 is one of the rare examples of an intracellular target considered for clinical flow cytometry. This issue attests to the enormous effort and the steady progress made in overcoming technical challenges of testing for ZAP-70 expression and sets the foundation for a successful translation of this important marker into clinical practice. Despite the best effort, one will likely have to accept that not all cases can be clearly assigned to one or the other group, given that ZAP-70 expression between CLL patients falls along a continuum from absent to high. Nevertheless, ZAP-70 expression could become a key parameter to guide patients towards risk adapted treatment strategies in prospective clinical trials. © 2006 International Society for Analytical Cytology [source]


    Effect of ,-trinositol on secretion induced by Escherichia coli ST-toxin in rat jejunum

    ACTA PHYSIOLOGICA, Issue 4 2003
    A.-M. Lahti
    Abstract Aim:,d -myo-inositol-1,2,6-trisphosphate (, -trinositol, PP56), is a synthetic isomer of the intracellular second messenger, d -myo-inositol-1,4,5-trisphospahate. The pharmacological actions of , -trinositol include potent anti-inflammatory properties and inhibition of the secretion induced by cholera toxin and obstructive ileus. In the present study, we investigated whether , -trinositol was able to influence the secretion induced by heat-stable ST-toxin from Escherichia coli in the rat jejunum. Methods:, A midline abdominal incision was performed in anaesthetized male Sprague,Dawley rats and a 6,7 cm long jejunal segment was isolated with intact vascular supply and placed in a chamber suspended from a force displacement transducer connected to a Grass® polygraph. Intestinal net fluid transport was continuously monitored gravimetrically. Crystalline ST-toxin (120 mouse units) was introduced into the intestinal lumen and left there for the rest of the experiment. When a stable secretion was observed, , -trinositol (60 mg kg,1 h,1) or saline were infused during 2 h, followed by a 2-h control period. Results:, , -Trinositol induced a significant (P < 0.001) inhibition of ST-toxin secretion within 30 min, lasting until 2 h after infusion had stopped. The agent also moderately increased (P < 0.05) net fluid absorption in normal jejunum. Mean arterial pressure (P < 0.001) and heart rate (P < 0.001) were reduced by , -trinositol. Conclusion:, The inhibition by , -trinositol of ST-toxin induced intestinal secretion is primarily secondary to inhibition of secretory mechanisms and only to lesser extent due to increased absorption. The detailed mechanisms of action have not been clarified but may involve suppression of inflammation possibly by means of cellular signal transduction. [source]


    Adenosine induces prolonged anti-,-adrenergic effects in guinea-pig papillary muscle

    ACTA PHYSIOLOGICA, Issue 1 2002
    L. ARVOLA
    ABSTRACT A sustained anti- , -adrenergic effect of adenosine has been reported. This study was initiated to investigate this topic and especially elucidate the role of protein kinase C (PKC). Contractile force amplitude and action potential duration at 90% repolarization (APD90) were measured in guinea-pig papillary muscles before and after 5 min challenge with 5 nm isoproterenol. Protocols contained 30 min exposure to the test agents adenosine 33 ,m (ado), adenosine + PKC-inhibitor bisindolylmaleimide 20 nM (ado + BIM), PKC-activator 1,2-dioctanoyl-sn-glycerol 10 ,m (DOG) and , -agonist phenylephrine 5 ,m (phe). Isoproterenol was given at the end of test exposure and after 15 min washout. Results are mean ± SEM of percentage-change, P , 0.05 considered significant and labelled *. The first isoproterenol challenge significantly increased contractile force (27 ± 7%*) in the control group. Responses in the test groups were 2 ± 4 (ado), 1 ± 5 (ado + BIM), 14 ± 4* (DOG), 0 ± 2% (phe). After washout of adenosine, DOG and phenylephrine, isoproterenol induced 3 ± 8 (ado), 23 ± 5* (ado + BIM), 13 ± 5* (DOG), 15 ± 7% (phe) increase in test groups compared with 22 ± 5%* increase in contractile force in the control group. After 45 min washout of adenosine the inotropic response was still significantly reduced compared with control (29 ± 4 vs. 79 ± 8%*). Isoproterenol stimulation shortened APD90 in controls at both time points (5 ± 1%* and 4 ± 1%*), with no significant shortening in test groups. Adenosine induces sustained anti- , -adrenergic effects on contractile force as well as APD90. A role for PKC in signal transduction is supported with respect to contractile force. [source]