Mary Chiu scite author profile

Mary Chiu

4Publications

37Citation Statements Received

59Citation Statements Given

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102

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University of Toronto, Hospital for Sick Children

Publications

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Distinct properties of murine α5 γ‐aminobutyric acid type a receptors revealed by biochemical fractionation and mass spectroscopy

Guzzo

Chiu

et al. 2009

J of Neuroscience Research

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Gamma-aminobutyric acid type A receptors (GABA(A)Rs) that contain the alpha 5 subunit are expressed predominantly in the hippocampus, where they regulate learning and memory processes. Unlike conventional postsynaptic receptors, GABA(A)Rs containing the alpha 5 subunit (alpha 5 GABA(A)Rs) are localized primarily to extrasynaptic regions of neurons, where they generate a tonic inhibitory conductance. The unique characteristics of alpha 5 GABA(A)Rs have been examined with pharmacological, immunostaining, and electrophysiological techniques; however, little is known about their biochemical properties. The aim of this study was to modify existing purification and enrichment techniques to isolate alpha 5 GABA(A)Rs preferentially from the mouse hippocampus and to identify the alpha 5 subunit by using tandem mass spectroscopy (MS/MS). The results showed that the detergent solubility of the alpha 5 subunits was distinct from that of alpha1 and alpha2 subunits, and the relative distribution of the alpha 5 subunits in Triton X-100-soluble fractions was correlated with that of the extracellular protein radixin but not with that of the postsynaptic protein gephyrin. Mass spectrometry identified the alpha 5 subunit and showed that this subunit associates with multiple alpha, beta, and gamma subunits, but most frequently the beta 3 subunit. Thus, the alpha 5 subunits coassemble with similar subunits as their synaptic counterparts yet have a distinct detergent solubility profile. Mass spectroscopy now offers a method for detecting and characterizing factors that confer the unique detergent solubility and possibly cellular location of alpha 5 GABA(A)Rs in hippocampal neurons.

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Gabapentin Increases a Tonic Inhibitory Conductance in Hippocampal Pyramidal Neurons

Cheng

Bonin²,

Chiu³

et al. 2006

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Probing the identity of gabaa receptors that underlie amnestic properties of anesthetics

Guzzo

Chiu

et al. 2007

Can J Anesth/J Can Anesth

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INTRODUCTION:The desirable components of the anesthetic state include amnesia, hypnosis, immobility and analgesia. Different anatomical regions and receptors are thought to mediate these distinct behavioral end-points. In order to design specific drugs, it is essential to know the protein structure of anesthetic targets. Our aim is to identify specific receptors that underlie the amnestic properties of anesthetics. GABAA receptors which mediate most inhibitory neurotransmission are targets for injectable and inhaled anesthetics. GABAA receptors are pentameric complexes that are composed of multiple subunits (α1-6, β1-3, γ1-4, δ, ρ1-3, σ, π) which determine physiologic properties and sensitivities to anesthetics (1,2). In particular, GABAA receptors that contain the α5 subunit play a critical role in learning and memory (3,4). Genetic deletion of the α5 subunit conferred resistance to the amnestic properties of the anesthetic etomidate in a mouse model, whereas sedation and hypnosis remained intact (5). The goal of this study was to identify the subunits that combine with the α5 subunit to form functional GABAA receptors in hippocampal neurons. METHODS: Studies were approved by the local Animal Care Committee. C57/BL6 mouse hippocampi were isolated and fractionated to enrich for synaptosomal and nonsynaptosomal protein complexes. Immunoprecipitation was performed using a polyclonal antibody raised against the major intracytoplasmic loop of the GABAA receptor α5 subunit (Sigma, Saint Louis, MO). The complexes were fractionated by size using SDS-gel electrophoresis and purified. After trypsin digestion, proteins were identified using mass spectrometry. RESULTS: Mass spectrometry showed that α5 subunit associates with not one α or β isoform, but rather with a diverse number of subunits including α1, α2, β1, β3 and γ2. DISCUSSION: The results provide the first direct evidence that GABAA receptors that contain the α5 subunit represent a heterogenous population which incorporate several α and β isoforms. Since current models suggest that individual GABAA receptor isoforms mediate the specificity of GABA's physiological effects, the results predict that α5 GABAA containing receptors will exhibit diversity in their trafficking (6), pharmacology and physiological properties (1,2). The results change our basic understanding of these receptors and will modify our approach to future drug design.

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Novel extrasynaptic gabaa receptor populations in murine spinal cord

Chiu

Orser

2006

Can J Anesth/J Can Anesth

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Mary Chiu

Distinct properties of murine α5 γ‐aminobutyric acid type a receptors revealed by biochemical fractionation and mass spectroscopy

Gabapentin Increases a Tonic Inhibitory Conductance in Hippocampal Pyramidal Neurons

Probing the identity of gabaa receptors that underlie amnestic properties of anesthetics

Novel extrasynaptic gabaa receptor populations in murine spinal cord

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