A Role for Electrotonic Coupling in the Striatum in the Expression of Dopamine Receptor-mediated Stereotypies,

Moore, Holly; Grace, Anthony A.

doi:10.1016/s0893-133x(02)00383-4

Cited by 68 publications

(34 citation statements)

References 69 publications

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Section: Da Modulation Of Dye Coupling Between Nac Spiny Neurons In Wsupporting

confidence: 56%

“…In contrast, D1/D5 agonist administration (SKF 38393, 10 μM) did not significantly alter the incidence of dye coupling (1/9; 11%; p = 0.7) compared to predrug conditions (1/11; 9%). Furthermore, following treatment with the gap junction blocker carbenoxelene (100 μM, 10 min; Travaglia et al, 1995;Moore and Grace, 2002), the D2-like agonist quinpirole did not result in coupling (0/5; 0%), which is consistent with gap-junction mediated dye coupling between spiny neurons (Venance et al, 2004).Injection of single neurons in KO mouse slices revealed 24 % (4/17) baseline coupling compared to WT (1/11, p = 0.66; N.S., Figure 1E). However, in KO spiny neurons, neither D1-nor D2-like agonist administration significantly affected dye coupling (Fig 1E: D1 agonist: 33 %; 2/6; D2 agonist: 33%, 3/9; p = 0.5; N.S.…”

mentioning

confidence: 99%

“…We have demonstrated a DA D2 receptor dependent modulation (enhancement) of this non-synaptic, electrotonic, transmission in striatal/accumbens spiny projection neurons in anesthetized rats (Onn and Grace, 1994) and in rat brain slices (O'Donnell and Grace, 1993). This coupling is potently modulated by behaviorally (Moore and Grace, 2002) and psychiatrically relevant treatment regimens in intact animals, including amphetamine withdrawal , DA depletion (Onn and Grace, 1999) and antipsychotic drug administration (Onn and Grace, 1995). Given the potent modulation of coupling induced in intact anesthetized rats by psychiatrically relevant manipulations of the DA system, it is likely that modulation of gap junctional conductance plays a major role in the response of the mesocorticolimbic systems to decompensation, as occurs with drug dependency and schizophrenia (Grace, 1991;Hyman and Malenka, 2001;Albert et al, 2002;Saal et al, 2003;Svenningsson et al, 2005) In the present study we evaluated the incidence of intercellular coupling in WT and DARPP-32 KO accumbens core spiny neurons and its modulation by DA D1-and D2-like agonists using conventional intracellular sharp-electrode recording in brain slices from WT and DARPP-32 KO mice.…”

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confidence: 99%

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Dopamine and cyclic-AMP regulated phosphoprotein-32–dependent modulation of prefrontal cortical input and intercellular coupling in mouse accumbens spiny and aspiny neurons

et al. 2008

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The roles of DARPP-32 in mediating dopamine (DA)-dependent modulation of corticoaccumbens transmission and intercellular coupling were examined in mouse accumbens (NAC) neurons by both intracellular sharp electrode and whole cell recordings. In wildtype (WT) mice bath application of the D2-like agonist quinpirole resulted in 73% coupling incidence in NAC spiny neurons, compared to baseline (9%), whereas quinpirole failed to affect the basal coupling (24%) in slices from DARPP-32 knockout (KO) mice. Thus, D2 stimulation attenuated DARPP-32-mediated suppression of coupling in WT spiny neurons, but this modulation was absent in KO mice. Further, whole cell recordings revealed that quinpirole reversibly decreased the amplitude of cortical-evoked EPSPs in spiny neurons of WT mice, but this reduction was markedly attenuated in KO mice. Bath application of the D1/D5 agonist SKF 38393 did not alter evoked EPSP amplitude in WT or KO spiny neurons. Therefore, DA D2 receptor regulation of both cortical synaptic (chemical) and local non-synaptic (dye coupling) communications in NAC spiny neurons is critically dependent on intracellular DARPP-32 cascades. Conversely, in fast-spiking interneurons, blockade of D1/D5 receptors produced a substantial decrease in EPSP amplitude in WT, but not in KO mice. Lastly, in putative cholinergic interneurons, cortical-evoked disynaptic IPSPs were attenuated by D2-like receptor stimulation in WT but not KO slices. These data indicate that DARPP-32 plays a central role in 1) modulating intercellular coupling, 2) cortical excitatory drive of spiny and aspiny GABAergic neurons, and 3) local feedforward inhibitory drive of cholinergic-like interneurons within accumbens circuits KeywordsExcitatory and inhibitory synaptic transmission; non-synaptic gap junction-mediated morphological coupling; DA D1 & D2 receptor; mouse accumbens neurons; whole cell recording; sharp-electrode recording Altered glutamate transmission from the prefrontal cortex (PFC) to the ventral striatum is often implicated in schizophrenia and drug addiction; disorders that involve dopamine (DA) dysfunctional states (Grace, 1991;2000;2001;Albert et al., 2002;Saal et al., 2003). DA acting on D2-like receptors present on prefrontal cortical terminals (Levey et Correspondence: Shao-Pii Onn, PhD, Department of Neuroscience, University of Pittsburgh, Pittsburgh, PA 15260, Onn@bns.pitt.edu. NIH Public Access Author ManuscriptNeuroscience. Author manuscript; available in PMC 2011 March 8. Sesack et al., 1994;Delle Donne et al., 1997;Filoux et al., 1988;Jansson et al., 1998) plays an important role in regulating cortico-striatal/accumbal glutamate transmission in spiny projection neurons (Brown and Arbuthnott, 1983;O'Donnell and Grace, 1994;Flores-Hernandez et al., 1997;Cepeda et al., 2001; Bamford et al., 2004). One molecule involved in dopamine (DA) transmission, DA and cyclic-AMP Regulated Phosphoprotein-32 (DARPP-32), exerts complex actions on DA-dependent modulation in limbic prefrontal corticoaccumbens circuits and i...

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Section: Da Modulation Of Dye Coupling Between Nac Spiny Neurons In Wsupporting

confidence: 56%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Dopamine and cyclic-AMP regulated phosphoprotein-32–dependent modulation of prefrontal cortical input and intercellular coupling in mouse accumbens spiny and aspiny neurons

et al. 2008

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“…Furthermore closure of glial gap junctions by PPA could lead to neuronal hyperexcitablilty by impaired glial spatial buffering of cytosolic potassium or glutamate [105] . Moreover, intrastriatal infusions of gap junction blockers produce movement disorder in rodents [106] . Thus, the altered neural excitablility of neocortical, hippocampal and striatal neuronal groups in PPA treated rats would be consistent with the closure of neural or glial gap junctions by PPA [101] .…”

Section: Fig 6: Group Means (±Sem) For (A) Glutathione (Gsh) (B) Glmentioning

confidence: 99%

A Novel Rodent Model of Autism: Intraventricular Infusions of Propionic Acid Increase Locomotor Activity and Induce Neuroinflammation and Oxidative Stress in Discrete Regions of Adult Rat Brain

MacFabe¹,

Rodríguez-Capote²,

Hoffman³

et al. 2008

American J. of Biochemistry and Biotechnology

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Innate neuroinflammatory changes, increased oxidative stress and disorders of glutathione metabolism may be involved in the pathophysiology of autism spectrum disorders (ASD). Propionic acid (PPA) is a dietary and gut bacterial short chain fatty acid which can produce brain and behavioral changes reminiscent of ASD following intraventricular infusion in rats. Adult Long-Evans rats were given intraventricular infusions of either PPA (.26M, 4µl animal −1 ) or phosphate buffered saline (PBS)vehicle, twice daily for 7 days. Immediately following the second daily infusion, the locomotor activity of each rat was assessed in an automated open field (Versamax) for 30 min. PPA-treated rats showed significant increases in locomotor activity compared to PBS vehicle controls. Following the last treatment day, specific brain regions were assessed for neuroinflammatory or oxidative stress markers. Immunohistochemical analyses revealed reactive astrogliosis (GFAP), activated microglia (CD68, Iba1) without apoptotic cell loss (Caspase 3' and NeuN) in hippocampus and white matter (external capsule) of PPA treated rats. Biomarkers of protein and lipid peroxidation, total glutathione (GSH) as well as the activity of the antioxidant enzymes superoxide dismutase (SOD), catalase, glutathione peroxidase (GPx), glutathione reductase (GR) and glutathione S-transferase (GST) were examined in brain homogenates. Some brain regions of PPA treated animals (neocortex, hippocampus, thalamus, striatum) showed increased lipid and protein oxidation accompanied by decreased total GSH in neocortex. Catalase activity was decreased in most brain regions of PPA treated animals suggestive of reduced antioxidant enzymatic activity. GPx and GR activity was relatively unaffected by PPA treatment while GST was increased, perhaps indicating involvement of GSH in the removal of PPA or related catabolites. Impairments in GSH and catalase levels may render CNS cells more susceptible to oxidative stress from a variety of toxic insults. Overall, these findings are consistent with those found in ASD patients and further support intraventricular PPA administration as an animal model of ASD.

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“…Dye coupling, an indication for gap junction coupling, was increased in the striatum after dopamine loss in rats [Cepeda et al, 1989, Onn andGrace, 1999]. Dopamine modulation of gap junction coupling in the striatum has also been associated with stereotypic behavior [Moore and Grace, 2002], emphasizing the potential impact of gap junction coupling on clinical characteristics. Although the presence of gap junctions in the human GPe, GPi and STN would significantly impact information processing in the basal ganglia, it remains unknown whether they exist and how they may remodel after dopamine depletion.…”

Section: Introductionmentioning

confidence: 99%

Do gap junctions regulate synchrony in the Parkinsonian basal ganglia?

Schwab¹

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A Role for Electrotonic Coupling in the Striatum in the Expression of Dopamine Receptor-mediated Stereotypies,

Cited by 68 publications

References 69 publications

Dopamine and cyclic-AMP regulated phosphoprotein-32–dependent modulation of prefrontal cortical input and intercellular coupling in mouse accumbens spiny and aspiny neurons

Dopamine and cyclic-AMP regulated phosphoprotein-32–dependent modulation of prefrontal cortical input and intercellular coupling in mouse accumbens spiny and aspiny neurons

A Novel Rodent Model of Autism: Intraventricular Infusions of Propionic Acid Increase Locomotor Activity and Induce Neuroinflammation and Oxidative Stress in Discrete Regions of Adult Rat Brain

Do gap junctions regulate synchrony in the Parkinsonian basal ganglia?

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