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Validation of a food-frequency questionnaire assessment of carotenoid and vitamin E intake using weighed food records and plasma biomarkers: the method of triads model.
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      DAT isn’t all that: cocaine reward and reinforcement requires Toll Like Receptor 4 signaling

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          Abstract

          The initial reinforcing properties of drugs of abuse, such as cocaine, are largely attributed to their ability to activate the mesolimbic dopamine system. Resulting increases in extracellular dopamine in the nucleus accumbens (NAc) are traditionally thought to result from cocaine’s ability to block dopamine transporters (DATs). Here we demonstrate that cocaine also interacts with the immunosurveillance receptor complex, Toll-Like Receptor 4 (TLR4), on microglial cells to initiate central innate immune signaling. Disruption of cocaine signaling at TLR4 suppresses cocaine-induced extracellular dopamine in the NAc, as well as cocaine conditioned place preference and cocaine self-administration. These results provide a novel understanding of the neurobiological mechanisms underlying cocaine reward/reinforcement that includes a critical role for central immune signaling, and offer a new target for medication development for cocaine abuse treatment.

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          MD-2, a Molecule that Confers Lipopolysaccharide Responsiveness on Toll-like Receptor 4

          Rintaro Shimazu, Sachiko Akashi-Takamura, Hirotaka Ogata (1999)
          Toll-like receptor 4 (TLR4) is a mammalian homologue of Drosophila Toll, a leucine-rich repeat molecule that can trigger innate responses against pathogens. The TLR4 gene has recently been shown to be mutated in C3H/HeJ and C57BL/10ScCr mice, both of which are low responders to lipopolysaccharide (LPS). TLR4 may be a long-sought receptor for LPS. However, transfection of TLR4 does not confer LPS responsiveness on a recipient cell line, suggesting a requirement for an additional molecule. Here, we report that a novel molecule, MD-2, is requisite for LPS signaling of TLR4. MD-2 is physically associated with TLR4 on the cell surface and confers responsiveness to LPS. MD-2 is thus a link between TLR4 and LPS signaling. Identification of this new receptor complex has potential implications for understanding host defense, as well as pathophysiologic, mechanisms.
          Article 0 comments Cited 359 times – based on 0 reviews     Review now
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            Differential regulation of AMPA receptor and GABA receptor trafficking by tumor necrosis factor-alpha.

            David Stellwagen, Eric Beattie, Jae Y. Seo (2005)
            The proinflammatory cytokine tumor necrosis factor-alpha (TNFalpha) causes a rapid exocytosis of AMPA receptors in hippocampal pyramidal cells and is constitutively required for the maintenance of normal surface expression of AMPA receptors. Here we demonstrate that TNFalpha acts on neuronal TNFR1 receptors to preferentially exocytose glutamate receptor 2-lacking AMPA receptors through a phosphatidylinositol 3 kinase-dependent process. This increases excitatory synaptic strength while changing the molecular stoichiometry of synaptic AMPA receptors. Conversely, TNFalpha causes an endocytosis of GABA(A) receptors, resulting in fewer surface GABA(A) receptors and a decrease in inhibitory synaptic strength. These results suggest that TNFalpha can regulate neuronal circuit homeostasis in a manner that may exacerbate excitotoxic damage resulting from neuronal insults.
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              Regulation of synaptic connectivity by glia.

              Cagla Eroglu, Ben A. Barres (2010)
              The human brain contains more than 100 trillion (10(14)) synaptic connections, which form all of its neural circuits. Neuroscientists have long been interested in how this complex synaptic web is weaved during development and remodelled during learning and disease. Recent studies have uncovered that glial cells are important regulators of synaptic connectivity. These cells are far more active than was previously thought and are powerful controllers of synapse formation, function, plasticity and elimination, both in health and disease. Understanding how signalling between glia and neurons regulates synaptic development will offer new insight into how the nervous system works and provide new targets for the treatment of neurological diseases.
              Article 0 comments Cited 288 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-journal-id): 9607835
                Journal ID (pubmed-jr-id): 20545
                Journal ID (nlm-ta): Mol Psychiatry
                Journal ID (iso-abbrev): Mol. Psychiatry
                Title: Molecular psychiatry
                ISSN (Print): 1359-4184
                ISSN (Electronic): 1476-5578
                Publication date Nihms-submitted: 28 November 2014
                Publication date (Electronic): 03 February 2015
                Publication date (Print): December 2015
                Publication date PMC-release: 01 June 2016
                Volume: 20
                Issue: 12
                Pages: 1525-1537
                Affiliations
                [1a ]Center for neuroscience, University of Colorado Boulder, Departments of Psychology and Neuroscience, Boulder, Colorado, USA
                [b ]Department of Chemistry and Biochemistry, Boulder, Colorado, USA
                [c ]Institute for Behavioral Genetics, Boulder, Colorado, USA
                [d ]Biofrontiers Institute, Boulder, Colorado, USA
                [2 ]Discipline of Physiology, School of Medical Sciences, University of Adelaide, Adelaide, South Australia 5005, Australia
                [3 ]Department of Health and Human Services, Medications Discovery Research Branch, National Institute on Drug Abuse, National Institutes of Health, Intramural Research Program, Biomedical Research Center MDRB, Baltimore, Maryland, USA
                [4 ]Drug Studies Unit, Department of Bioengineering and Therapeutic Sciences, University of California, San Francisco, California, USA
                [5 ]Department of Pharmacology and Program in Neuroscience, University of Colorado Denver, Denver, Colorado, USA
                [6 ]Chemical Biology Research Branch, National Institute on Drug Abuse and National Institute on Alcohol Abuse and Alcoholism, National Institutes of Health, Rockville, Maryland, USA
                [7 ]Center of Basic Molecular Science and Department of Chemistry, Tsinghua University, Beijing, China, 100082
                Author notes
                Correspondence: Dr. Alexis Northcutt, University of Colorado Boulder, Department of Psychology & Neuroscience, Campus Box 345, Boulder, Colorado 80309-0345 USA, Alexis.Northcutt@ 123456Colorado.EDU
                [*]

                Equal author contributions

                Article
                Manuscript ID: NIHMS642463
                DOI: 10.1038/mp.2014.177
                PMC ID: 4523496
                PubMed ID: 25644383
                SO-VID: 03fe467e-046d-4135-ab39-d789fd1de710
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                Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms

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                ScienceOpen disciplines: Molecular medicine
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                ScienceOpen disciplines: Molecular medicine

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