Intracellular Modulation of NMDA Receptor Function by Antipsychotic Drugs

Lévêque, Jean; Macı́as, Wendy; Rajadhyaksha, Anjali M.; Carlson, Richard R.; Barczak, Amy K.; Kang, Stanley; Li, Xin Min; Coyle, Joseph T.; Huganir, Richard L.; Heckers, Stephan; Konradi, Christine

doi:10.1523/jneurosci.20-11-04011.2000

Cited by 143 publications

(120 citation statements)

References 45 publications

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“…Other signaling pathways such as those implicating phospholipase C, intracellular calcium stores and protein kinase C (PKC) might also be involved (see Hernandez-Lopez et al, 2000). In addition, modulation of NGFI-B expression might also be indirect through modulation of glutamate neurotransmission by neuroleptic drugs (Leveque et al, 2000). Additional investigations are needed in order to identify the cellular The present results also indicate that retinoids might be involved in behavioral and biochemical effects of neuroleptics.…”

Section: Ngfi-b(+/+) Ngfi-b(-/-) Ngfi-b(+/+) Ngfi-b(-/mentioning

confidence: 81%

The Transcription Factor NGFI-B (Nur77) and Retinoids Play a Critical Role in Acute Neuroleptic-Induced Extrapyramidal Effect and Striatal Neuropeptide Gene Expression

Éthier

Beaudry

St-Hilaire

et al. 2003

Neuropsychopharmacol

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Despite extensive investigation, the cellular mechanisms responsible for neuroleptic actions remain elusive. We have previously shown that neuroleptics modulated the expression of some members of the ligand-activated transcription factors (nuclear receptors) including the nerve-growth factor inducible gene B (NGFI-B or Nur77) and retinoid X receptor (RXR) isoforms. Using genetic and pharmacological approaches, we investigated the role of NGFI-B and retinoids in acute behavioral and biochemical responses to dopamine antagonists. NGFI-B knockout (KO) mice display a profound alteration of haloperidol-induced catalepsy and striatal neuropeptide gene expression. Haloperidol-induced increase of striatal enkephalin mRNA is totally abolished in NGFI-B KO mice whereas the increase of neurotensin mRNA expression is reduced by 50%. Interestingly, catalepsy induced by raclopride, a specific dopamine D 2 /D 3 antagonist is completely abolished in NGFI-B-deficient mice whereas the cataleptic response to SCH 23390, a dopamine D 1 agonist, is preserved. Accordingly, the effects of haloperidol on striatal c-fos, Nor-1, and dynorphin mRNA expression are also preserved in NGFI-B-deficient mice. The cataleptic response and the increase of enkephalin mRNA expression induced by haloperidol can also be suppressed by administration of retinoid ligands 9-cis retinoic acid and docosahexaenoic acid. In addition, we demonstrate that haloperidol enhances colocalization of NGFI-B and RXRg1 isoform mRNAs, suggesting that both NGFI-B and a RXR isoform are highly coexpressed after haloperidol administration. Our data demonstrate, for the first time, that NGFI-B and retinoids are actively involved in the molecular cascade induced by neuroleptic drugs.

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Section: Ngfi-b(+/+) Ngfi-b(-/-) Ngfi-b(+/+) Ngfi-b(-/mentioning

confidence: 81%

The Transcription Factor NGFI-B (Nur77) and Retinoids Play a Critical Role in Acute Neuroleptic-Induced Extrapyramidal Effect and Striatal Neuropeptide Gene Expression

Éthier

Beaudry

St-Hilaire

et al. 2003

Neuropsychopharmacol

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“…Primary striatal cultures were obtained as previously described [18]. The pENKAT12, Δ80 and −772 constructs were obtained from Michael Comb.…”

Section: Methodsmentioning

confidence: 99%

“…No differences in gene regulation pattern have been observed between pENKAT12 and longer constructs, however, pENKAT12 was most responsive [14]. Enkephalin constructs were transfected into primary striatal cultures using Ca 2+ transfection [25], as described previously [18]. RNA was extracted and analyzed as described previously [18].…”

Section: Methodsmentioning

confidence: 99%

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Striatal proenkephalin gene induction: coordinated regulation by cyclic AMP and calcium pathways

Konradi

Macı́as

Dudman

et al. 2003

Molecular Brain Research

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Enkephalin modulates striatal function, thereby affecting motor performance and addictive behaviors. The proenkephalin gene is also used as a model to study cyclic AMP-mediated gene expression in striatal neurons. The second messenger pathway leading to proenkephalin expression demonstrates how cyclic AMP pathways are synchronized with depolarization. We show that cyclic AMP-mediated regulation of the proenkephalin gene is dependent on the activity of L-type Ca 2+ channels. Inhibition of L-type Ca 2+ channels blocks forskolin-mediated induction of proenkephalin. The Ca 2+ -activated kinase, Ca 2+ /calmodulin kinase, as well as the cyclic AMPactivated kinase, protein kinase A (PKA), are both necessary for the induction of the proenkephalin promoter. Similarly, both kinases are needed for the L-type Ca 2+ channel-mediated induction of proenkephalin. This synchronization of second messenger pathways provides a coincidence mechanism that gates proenkephalin synthesis in striatal neurons, ensuring that levels are increased only in the presence of activated PKA and depolarization.

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“…Indeed, blockade of D 2 receptors on glutamatergic terminals may potentiate the stimulus-evoked GLU release (Peris et al 1988;Cepeda et al 2001) while blockade of postsynaptic D 2 receptors may increase excitability of GABAergic (Cepeda et al 2001;Harsing and Zigmond 1997), possibly striatopallidal (Hernandez-Lopez et al 2000) neurons. D 2 antagonists may also directly enhance NMDA channel conductance through phosphorylation of the NR1 subunit (Leveque et al 2000), possibly via a DARPP-32 involving pathway (Blank et al 1997). It is noteworthy that, in the presence of raclopride, an increase in NMDA concentration up to 10 lM led to extinction of the NMDA effect.…”

Section: )mentioning

confidence: 99%

Striatal dopamine–NMDA receptor interactions in the modulation of glutamate release in the substantia nigra pars reticulata in vivo: opposite role for D₁ and D₂ receptors

Marti

Mela

Bianchi

et al. 2002

Journal of Neurochemistry

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Dual probe microdialysis was employed in conscious rats to investigate whether endogenous dopamine is involved in the stimulation of glutamate release in the substantia nigra pars reticulata following striatal NMDA receptor activation. Intrastriatal perfusion with NMDA (1 and 10 lM) facilitated nigral glutamate release (dizocilpine-and tetrodotoxin-sensitive). The D 2 dopamine receptor antagonist raclopride increased spontaneous nigral glutamate release and caused a leftward shift in the NMDA sensitivity, lowering NMDA effective concentrations to submicromolar levels. Conversely, the D 1 antagonist SCH23390 prevented the effect of NMDA (1 lM) and caused a rightward shift in the NMDA sensitivity. It was tested whether the antagonist effects were due to dopamine receptor blockade or increased tone on D 1 /D 2 receptors. SCH23390 prevented the raclopride-induced enhancement of spontaneous but not NMDA-evoked glutamate release while raclopride left unchanged the SCH23390-induced inhibition. The physiopathological relevance of the dopaminergic modulation was strengthened by perfusing NMDA in the dopaminedepleted striatum of hemiparkinsonian rats. Nigral glutamate responsiveness to NMDA was enhanced as with raclopride. We conclude that endogenous striatal dopamine regulates both spontaneous and NMDA-induced nigral glutamate release via an opposite control mediated by D 1 facilitatory and D 2 inhibitory receptors. Alterations of this control may subserve the motor symptoms of Parkinson's disease.

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Intracellular Modulation of NMDA Receptor Function by Antipsychotic Drugs

Cited by 143 publications

References 45 publications

The Transcription Factor NGFI-B (Nur77) and Retinoids Play a Critical Role in Acute Neuroleptic-Induced Extrapyramidal Effect and Striatal Neuropeptide Gene Expression

The Transcription Factor NGFI-B (Nur77) and Retinoids Play a Critical Role in Acute Neuroleptic-Induced Extrapyramidal Effect and Striatal Neuropeptide Gene Expression

Striatal proenkephalin gene induction: coordinated regulation by cyclic AMP and calcium pathways

Striatal dopamine–NMDA receptor interactions in the modulation of glutamate release in the substantia nigra pars reticulata in vivo: opposite role for D₁ and D₂ receptors

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Intracellular Modulation of NMDA Receptor Function by Antipsychotic Drugs

Cited by 143 publications

References 45 publications

The Transcription Factor NGFI-B (Nur77) and Retinoids Play a Critical Role in Acute Neuroleptic-Induced Extrapyramidal Effect and Striatal Neuropeptide Gene Expression

The Transcription Factor NGFI-B (Nur77) and Retinoids Play a Critical Role in Acute Neuroleptic-Induced Extrapyramidal Effect and Striatal Neuropeptide Gene Expression

Striatal proenkephalin gene induction: coordinated regulation by cyclic AMP and calcium pathways

Striatal dopamine–NMDA receptor interactions in the modulation of glutamate release in the substantia nigra pars reticulata in vivo: opposite role for D1 and D2 receptors

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Striatal dopamine–NMDA receptor interactions in the modulation of glutamate release in the substantia nigra pars reticulata in vivo: opposite role for D₁ and D₂ receptors