Literature DB >> 22396414

Striatal D2 receptors regulate dendritic morphology of medium spiny neurons via Kir2 channels.

Maxime Cazorla1, Mariya Shegda, Bhavani Ramesh, Neil L Harrison, Christoph Kellendonk.   

Abstract

Structural plasticity in the adult brain is essential for adaptive behaviors and is thought to contribute to a variety of neurological and psychiatric disorders. Medium spiny neurons of the striatum show a high degree of structural plasticity that is modulated by dopamine through unknown signaling mechanisms. Here, we demonstrate that overexpression of dopamine D2 receptors in medium spiny neurons increases their membrane excitability and decreases the complexity and length of their dendritic arbors. These changes can be reversed in the adult animal after restoring D2 receptors to wild-type levels, demonstrating a remarkable degree of structural plasticity in the adult striatum. Increased excitability and decreased dendritic arborization are associated with downregulation of inward rectifier potassium channels (Kir2.1/2.3). Downregulation of Kir2 function is critical for the neurophysiological and morphological changes in vivo because virally mediated expression of a dominant-negative Kir2 channel is sufficient to recapitulate the changes in D2 transgenic mice. These findings may have important implications for the understanding of basal ganglia disorders, and more specifically schizophrenia, in which excessive activation of striatal D2 receptors has long been hypothesized to be of pathophysiologic significance.

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Year:  2012        PMID: 22396414      PMCID: PMC3564593          DOI: 10.1523/JNEUROSCI.6056-11.2012

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  48 in total

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Journal:  J Neurosci       Date:  2001-08-15       Impact factor: 6.167

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Authors:  Christoph Kellendonk; Eleanor H Simpson; H Jonathan Polan; Gaël Malleret; Svetlana Vronskaya; Vanessa Winiger; Holly Moore; Eric R Kandel
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  56 in total

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3.  GPRIN3 Controls Neuronal Excitability, Morphology, and Striatal-Dependent Behaviors in the Indirect Pathway of the Striatum.

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5.  Coordinated postnatal maturation of striatal cholinergic interneurons and dopamine release dynamics in mice.

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7.  Loss of the neurodevelopmental gene Zswim6 alters striatal morphology and motor regulation.

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9.  Haloperidol Selectively Remodels Striatal Indirect Pathway Circuits.

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10.  Enhanced GABA Transmission Drives Bradykinesia Following Loss of Dopamine D2 Receptor Signaling.

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