Abstract

The GABA/A receptor is a hetero-oligomeric integral membrane protein that hyperpolarizes membranes by opening an intrinsic C1-channel that is gated by the neurotransmitter GABA. The receptor contains different classes of allosteric sites which modulate the action of GABA through the interaction of these sites with corresponding effector molecules, such as benzodiazepines, neurosteroids and endogenous peptides. Genes encoding subunits of the GABA/A receptor constitute a complex and tightly regulated multigene family. At least 14 different, structurally related cDNAs have been cloned from adult rat brain, each of which encodes a receptor subunit found in neuronal and glial populations. Although the stoichiometry of subunits needed to form the receptor complex is not known, it is clear that the physiologic and pharmacologic properties of GABA(A) receptors are defined by the combinations and stoichiometry of these subunits and there are reasons to believe that a vast number of receptor subtypes exists in mammalian brain. We have developed a polymerase chain reaction derived assay for quantitating the absolute amounts of each GABA/A receptor subunit mRNA for which a cDNA sequence is available. We will use this assay to analyze the profiles of expression of the receptor subunit mRNAs during development (in vivo) and as cerebellar granule cells differentiate in vitro (Aim 1). This information will be correlated with a comparable in situ hybridization analysis during development in vivo (Aim 2). We will test the hypothesis that cell type specific patterns of expression of the receptor subunit mRNAs are influenced by both heterologous (Aim 3) and homologous (Aim 4) receptor stimulation. In the contest of Aim 5 we will investigate mechanisms through which the trans-synaptic regulation of GABA/A receptor subunit mRNAs may be mediated. The significance of this work derives from the hypothesis that GABA/A receptor subtypes present in discrete neuronal populations specify the level of response that can be imposed on a post-synaptic neuron by afferent synaptic signaling. Moreover, we hypothesize that the expression of these receptor subtypes is physiologically adjusted by normal brain activity and when this tuning fails, function becomes abnormal. An understanding of this functional regulation may offer the possibility for new therapeutic approaches to rectify certain brain function abnormalities.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS030537-03
Application #
2268489
Study Section
Neurology C Study Section (NEUC)
Project Start
1993-01-01
Project End
1996-12-31
Budget Start
1995-01-01
Budget End
1995-12-31
Support Year
3
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
Allegheny-Singer Research Institute
Department
Type
DUNS #
033098401
City
Pittsburgh
State
PA
Country
United States
Zip Code
15212

  Publications

Grayson, D R; Zhu, W; Harris, B T et al. (1998) Differentially expressed GABAA-receptor subunits result in structurally and functionally receptor assemblies following excitatory afferent synaptic transmission. Perspect Dev Neurobiol 5:193-205
Wang, X H; Zhu, W J; Corsi, L et al. (1998) Chronic dizocilpine (MK-801) reversibly delays GABA(A) receptor maturation in cerebellar granule neurons in vitro. J Neurochem 71:693-704
Ikonomovic, S; Kharlamov, E; Manev, H et al. (1997) GABA and NMDA in the prevention of apoptotic-like cell death in vitro. Neurochem Int 31:283-90
Homanics, G E; Ferguson, C; Quinlan, J J et al. (1997) Gene knockout of the alpha6 subunit of the gamma-aminobutyric acid type A receptor: lack of effect on responses to ethanol, pentobarbital, and general anesthetics. Mol Pharmacol 51:588-96
Zheng, T M; Caruncho, H J; Zhu, W J et al. (1996) Chronic flumazenil alters GABA(A) receptor subunit mRNA expression, translation product assembly and channel function in neuronal cultures. J Pharmacol Exp Ther 277:525-33
Zhu, W J; Wang, J F; Vicini, S et al. (1996) Alpha 6 and gamma 2 subunit antisense oligodeoxynucleotides alter gamma-aminobutyric acid receptor pharmacology in cerebellar granule neurons. Mol Pharmacol 50:23-33
Kharlamov, E; Cagnoli, C M; Atabay, C et al. (1995) Opposite effect of protein synthesis inhibitors on potassium deficiency-induced apoptotic cell death in immature and mature neuronal cultures. J Neurochem 65:1395-8
Zhu, W J; Vicini, S; Harris, B T et al. (1995) NMDA-mediated modulation of gamma-aminobutyric acid type A receptor function in cerebellar granule neurons. J Neurosci 15:7692-701
Manev, H; Cagnoli, C M; Atabay, C et al. (1995) Neuronal apoptosis in an in vitro model of photochemically induced oxidative stress. Exp Neurol 133:198-206
Harris, B T; Costa, E; Grayson, D R (1995) Exposure of neuronal cultures to K+ depolarization or to N-methyl-D-aspartate increases the transcription of genes encoding the alpha 1 and alpha 5 GABAA receptor subunits. Brain Res Mol Brain Res 28:338-42

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