Literature DB >> 18473190

Roles of micro-opioid receptors in GABAergic synaptic transmission in the striosome and matrix compartments of the striatum.

Masami Miura1, Masao Masuda, Toshihiko Aosaki.   

Abstract

The striatum is divided into two compartments, the striosomes and extrastriosomal matrix, which differ in several cytochemical markers, input-output connections, and time of neurogenesis. Since it is thought that limbic, reward-related information and executive aspects of behavioral information may be differentially processed in the striosomes and matrix, respectively, intercompartmental communication should be of critical importance to proper functioning of the basal ganglia-thalamocortical circuits. Cholinergic interneurons are in a suitable position for this communication since they are preferentially located in the striosome-matrix boundaries and are known to elicit a conditioned pause response during sensorimotor learning. Recently, micro-opioid receptor (MOR) activation was found to presynaptically suppress the amplitude of GABAergic inhibitory postsynaptic currents in striosomal cells but not in matrix cells. Disinhibition of cells in the striosomes is further enhanced by inactivation of the protein kinase C cascade. We discuss in this review the possibility that MOR activation in the striosomes affects the activity of cholinergic interneurons and thus leads to changes in synaptic efficacy in the striatum.

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Year:  2008        PMID: 18473190     DOI: 10.1007/s12035-008-8023-2

Source DB:  PubMed          Journal:  Mol Neurobiol        ISSN: 0893-7648            Impact factor:   5.590


  133 in total

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Authors:  L Prensa; J M Giménez-Amaya; A Parent
Journal:  J Comp Neurol       Date:  1999-11-01       Impact factor: 3.215

2.  Histochemically distinct compartments in the striatum of human, monkeys, and cat demonstrated by acetylthiocholinesterase staining.

Authors:  A M Graybiel; C W Ragsdale
Journal:  Proc Natl Acad Sci U S A       Date:  1978-11       Impact factor: 11.205

3.  Electrical and chemical transmission between striatal GABAergic output neurones in rat brain slices.

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Journal:  J Physiol       Date:  2004-07-02       Impact factor: 5.182

4.  Dopaminergic control of corticostriatal long-term synaptic depression in medium spiny neurons is mediated by cholinergic interneurons.

Authors:  Zhongfeng Wang; Li Kai; Michelle Day; Jennifer Ronesi; Henry H Yin; Jun Ding; Tatiana Tkatch; David M Lovinger; D James Surmeier
Journal:  Neuron       Date:  2006-05-04       Impact factor: 17.173

5.  Mosaic distribution of opiate receptors, parafascicular projections and acetylcholinesterase in rat striatum.

Authors:  M Herkenham; C B Pert
Journal:  Nature       Date:  1981-06-04       Impact factor: 49.962

6.  Distribution and targeting of a mu-opioid receptor (MOR1) in brain and spinal cord.

Authors:  U Arvidsson; M Riedl; S Chakrabarti; J H Lee; A H Nakano; R J Dado; H H Loh; P Y Law; M W Wessendorf; R Elde
Journal:  J Neurosci       Date:  1995-05       Impact factor: 6.167

7.  Responses of tonically active neurons in the primate's striatum undergo systematic changes during behavioral sensorimotor conditioning.

Authors:  T Aosaki; H Tsubokawa; A Ishida; K Watanabe; A M Graybiel; M Kimura
Journal:  J Neurosci       Date:  1994-06       Impact factor: 6.167

8.  [Molecular and anatomical bases of dystonia: X-linked recessive dystonia-parkinsonism (DYT3)].

Authors:  Ryuji Kaji; Satoshi Goto; Gen Tamiya; L V Lee
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9.  Compartment-specific changes in striatal neuronal activity during expression of amphetamine sensitization are the result of drug hypersensitivity.

Authors:  Louk J M J Vanderschuren; Anton N M Schoffelmeer; Sarah D C Van Leeuwen; Liesbeth Hof; Allert J Jonker; Pieter Voorn
Journal:  Eur J Neurosci       Date:  2002-12       Impact factor: 3.386

10.  Delta-opioid receptor antagonists attenuate motor activity induced by amphetamine but not cocaine.

Authors:  D N Jones; W D Bowen; P S Portoghese; S G Holtzman
Journal:  Eur J Pharmacol       Date:  1993-11-09       Impact factor: 4.432
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  21 in total

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3.  GABAergic inputs from direct and indirect striatal projection neurons onto cholinergic interneurons in the primate putamen.

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Authors:  Kristen A Horner; Mary Caroline Logan; Trevor J Fisher; Jordan B Logue
Journal:  Eur J Pharmacol       Date:  2017-01-03       Impact factor: 4.432

5.  Progressive Degeneration and Adaptive Excitability in Dopamine D1 and D2 Receptor-Expressing Striatal Neurons Exposed to HIV-1 Tat and Morphine.

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Journal:  Cell Mol Neurobiol       Date:  2022-06-13       Impact factor: 5.046

6.  Selective Manipulation of G-Protein γ7 Subunit in Mice Provides New Insights into Striatal Control of Motor Behavior.

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7.  Cocaine dysregulates opioid gating of GABA neurotransmission in the ventral pallidum.

Authors:  Yonatan M Kupchik; Michael D Scofield; Kenner C Rice; Kejun Cheng; Bernard P Roques; Peter W Kalivas
Journal:  J Neurosci       Date:  2014-01-15       Impact factor: 6.167

8.  Overlapping striatal sites mediate scopolamine-induced feeding suppression and mu-opioid-mediated hyperphagia in the rat.

Authors:  Michelle L Perry; Wayne E Pratt; Brian A Baldo
Journal:  Psychopharmacology (Berl)       Date:  2013-11-05       Impact factor: 4.530

9.  Response of striosomal opioid signaling to dopamine depletion in 6-hydroxydopamine-lesioned rat model of Parkinson's disease: a potential compensatory role.

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10.  Causal Evidence for Induction of Pessimistic Decision-Making in Primates by the Network of Frontal Cortex and Striosomes.

Authors:  Satoko Amemori; Ann M Graybiel; Ken-Ichi Amemori
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