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Personne :
Rouillard, Claude

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Rouillard

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Claude

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Université Laval. Faculté de médecine

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ncf10155491

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Voici les éléments 1 - 10 sur 12
  • PublicationRestreint
    Cystamine prevents MPTP-induced toxicity in young adult mice via the up-regulation of the brain-derived neurotrophic factor
    (Elsevier, 2009-11-11) Bousquet, Mélanie; Calon, Frédéric; Gibrat, Claire; Saint-Pierre, Martine; Lévesque, Daniel; Rouillard, Claude; Cicchetti, Francesca
    Preclinical data suggest that cystamine stands as a promising neuroprotective agent against Huntington's and Parkinson's diseases. To decipher the mechanisms of action of cystamine, we investigated the effects of various doses of cystamine (10, 50, and 200 mg/kg) on the regulation of the brain-derived neurotrophic factor (BDNF), its receptor tropomyosin-receptor-kinase B (TrkB) and on the heat shock protein 70 (Hsp70) brain mRNA expression in relation to the time after administration. We have determined that the lower cystamine dose is the most efficient to promote putative neuroprotective effects. Indeed, an acute administration of 10 mg/kg of cystamine increased the expression of BDNF mRNA in the substantia nigra compacta (SNc), although it did not significantly influence TrkB or Hsp70 mRNA. Higher cystamine doses resulted in the absence of activation of any of these markers or led to non-specific effects. We have also substantiated the neuroprotective effect of a 21-day treatment of 10 mg/kg/day of cystamine in young adult mice against MPTP-induced loss of tyrosine hydroxylase-striatal fiber density, nigral dopamine cells and nigral Nurr1 mRNA expression. The neuroprotective action of cystamine in the same animals was associated with an up-regulation of BDNF in the SNc. Taken together, these results strengthen the neuroprotective potential of cystamine in the treatment of Parkinson's disease and point towards the up-regulation of BDNF as an important mechanism of action.
  • PublicationAccès libre
    Induction patterns of transcription factors of the nur family (nurr1, nur77, and nor-1) by typical and atypical antipsychotics in the mouse brain: implication for their mechanism of action
    (American Society for Pharmacology and Experimental Therapeutics, 2004-12-22) Maheux, Jérôme; Lévesque, Daniel; Éthier, Isabelle.; Rouillard, Claude
    Monitoring gene expression has been intensively used to identify neurobiological and neuroanatomical substrates associated with administration of antipsychotic drugs. Transcription factors of the Nur family (Nurr1, Nur77, and Nor-1) are orphan nuclear receptors that have been recently associated with dopamine neurotransmission. Nurr1 is involved in midbrain dopamine neuron development. Nur77 and Nor-1 are expressed in dopaminoceptive areas such as the striatum, nucleus accumbens, and prefrontal cortex. To better understand the relationship between Nur and antipsychotic drug effects, we conducted a comprehensive evaluation of the effect of various typical and atypical antipsychotic drugs on the modulation of Nur mRNA levels. We show that differential patterns of Nur expression can be obtained with typical and atypical antipsychotic drugs. Modulation of Nur77 and Nor-1 mRNA expression by antipsychotics can be used to calculate an index that is predictive of the typical or atypical profile of antipsychotic drugs. Inductions of Nur by anti-psychotic drugs are correlated with dopamine D2 receptor in the striatum and D2 and D3 receptor subtypes in the nucleus accumbens. The 5-hydroxytryptamine 2A/D2 affinity ratio of antipsychotics can also predict these patterns of inductions. In addition to classical gene patterns induced in the striatal complex (striatum, accumbens) and cortex, most antipsychotic drugs tested strongly induced Nur77, Nor-1, and increased Nurr1 mRNA levels in the substantia nigra and ventral tegmental area. These data suggest that typical and atypical antipsychotic drugs might induce in multiple brain regions distinct Nur-dependent transcriptional activities, which may contribute to their pharmacological effects.
  • PublicationAccès libre
    Nurr1 is required for maintenance of maturing and adult midbrain dopamine neurons
    (Society for Neuroscience, 2009-12-16) Kadkhodaei, Banafsheh; Rouillard, Claude; Ito, Takehito; Joodmardi, Eliza; Mattsson, Bengt; Carta, Manolo; Muramatsu, Shin-Ichi; Sumi-Ichinose, Chiho; Nomura, Takahide; Metzger, Daniel; Chambon, Pierre; Lindqvist, Eva; Larsson, Nils-Göran; Olson, Lars; Björklund, Anders; Ichinose, Hiroshi; Perlmann, Thomas
    Transcription factors involved in the specification and differentiation of neurons often continue to be expressed in the adult brain, but remarkably little is known about their late functions. Nurr1, one such transcription factor, is essential for early differentiation of midbrain dopamine (mDA) neurons but continues to be expressed into adulthood. In Parkinson's disease, Nurr1 expression is diminished and mutations in the Nurr1 gene have been identified in rare cases of disease; however, the significance of these observations remains unclear. Here, a mouse strain for conditional targeting of the Nurr1 gene was generated, and Nurr1 was ablated either at late stages of mDA neuron development by crossing with mice carrying Cre under control of the dopamine transporter locus or in the adult brain by transduction of adeno-associated virus Cre-encoding vectors. Nurr1 deficiency in maturing mDA neurons resulted in rapid loss of striatal DA, loss of mDA neuron markers, and neuron degeneration. In contrast, a more slowly progressing loss of striatal DA and mDA neuron markers was observed after ablation in the adult brain. As in Parkinson's disease, neurons of the substantia nigra compacta were more vulnerable than cells in the ventral tegmental area when Nurr1 was ablated at late embryogenesis. The results show that developmental pathways play key roles for the maintenance of terminally differentiated neurons and suggest that disrupted function of Nurr1 and other developmental transcription factors may contribute to neurodegenerative disease.
  • PublicationRestreint
    Effect of non-dopaminergic drug treatment on Levodopa induced dyskinesias in MPTP monkeys : common implication of striatal neuropeptides
    (2009-07-02) Ouattara, Bazoumana; Tamim, Mohamed Khalil; Morissette, Marc; Di Paolo, Thérèse; Lévesque, Daniel; Rouillard, Claude; Grégoire, Laurent; Samadi, Pershia
    Dopamine denervation in Parkinson's disease and repeated Levodopa (L-DOPA) administration that induces dyskinesias are associated with an enhancement of basal ganglia neuropeptide transmission. Various adjunct non-dopaminergic treatments to Levodopa were shown to reduce and/or prevent dyskinesias. The aim of this study was to seek if non-dopaminergic drug treatments to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) lesioned monkeys combined with L-DOPA to prevent dyskinesia were associated with changes of striatal neuropeptides. Chronic treatment with Ro 61-8048 a kynurenine hydroxylase inhibitor, docosahexaenoic acid (DHA) a polyunsaturated fatty acid (omega-3), naltrexone an opioidergic antagonist and CI-1041 an N-methyl-d-aspartate (NMDA) glutamate receptor antagonist with L-DOPA prevented dyskinesias to various extents except naltrexone whereas all MPTP monkeys treated with L-DOPA alone developed dyskinesias. Striatal preproenkephalin (PPE), preprodynorphin (PPD) and preprotachykinin A (PPT-A) mRNA levels were measured by in situ hybridization. An increase of PPE and PPD mRNA levels was observed in anterior caudate nucleus of L-DOPA treated MPTP monkeys compared to controls and to Saline-treated MPTP monkeys whereas PPT-A mRNA levels were unchanged. Striatal PPE and PPD mRNA levels remained elevated in L-DOPA plus naltrexone-treated MPTP monkeys, while co-treatment with DHA, CI-1041 or Ro 61-8048 prevented their increase to various extents. Maximal dyskinesias scores of MPTP monkeys correlated significantly with striatal PPE and PPD mRNA levels but not with PPT-A mRNA levels. These results show that drugs displaying a wide range of pharmacological activities can modulate L-DOPA induced dyskinesias and this activity is correlated with striatal PPD and PPE mRNA levels suggesting a convergent mechanism.
  • PublicationRestreint
    The transcription factor NGFI-B (Nur77) and retinoids play a critical role in acute neuroleptic-induced extrapyramidal effect and striatal neuropeptide gene expression
    (American College of Neuropsychopharmacology, 2003-11-05) St-Hilaire, Michel; Beaudry, Geneviève; Lévesque, Daniel; Milbrandt, Jeff; Éthier, Isabelle.; Rouillard, Claude
    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 RXRgamma1 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.
  • PublicationRestreint
    Contrasting patterns and cellular specificity of transcriptional regulation of the nuclear receptor nerve growth factor-inducible B by haloperidol and clozapine in the rat forebrain
    (Wiley-Blackwell Publishing Ltd., 2000-10-03) Langlois, Marie-Claire; Beaudry, Geneviève; Weppe, Isabelle; Lévesque, Daniel; Rouillard, Claude
    This study was designed to investigate the possible involvement of members of the nuclear receptor family of transcription factors in the effects of antipsychotic drugs used in the treatment of schizophrenia. We have identified, using RT-PCR screening, an important modulation of nerve growth factor-inducible B (NGFI-B) mRNA levels by typical and atypical neuroleptics in the rat forebrain. NGFI-B, a member of the nuclear receptor family, can be observed in target structures of dopaminergic pathways. Using in situ hybridization, we also demonstrate that typical and atypical antipsychotics induced contrasting patterns of expression of NGFI-B after both acute and chronic administration. An acute treatment with clozapine or haloperidol induces high NGFI-B mRNA levels in the prefrontal and cingulate cortices and in the nucleus accumbens shell. However, haloperidol, but not clozapine, dramatically increases NGFI-B expression in the dorsolateral striatum. In contrast, chronic treatment with clozapine reduces NGFI-B expression below basal levels in the rat forebrain, whereas haloperidol still induces high NGFI-B mRNA levels in the dorsolateral striatum. Finally, using a double in situ hybridization technique, we show that acute administration of both neuroleptics increases NGFI-B expression in neurotensin-containing neurons in the nucleus accumbens shell, whereas the effects of haloperidol in the dorsolateral striatum are mainly observed in enkephalin-containing neurons. These results are the first demonstration that members of the nuclear receptor family of transcription factors could play an important role in the effects of antipsychotic drugs.
  • PublicationRestreint
    Differences between subacute and chronic MPTP mice models: investigation of dopaminergic neuronal degeneration and alpha-synuclein inclusions
    (Raven Press, 2009-05-12) Bousquet, Mélanie; Gibrat, Claire; Saint-Pierre, Martine; Lévesque, Daniel; Rouillard, Claude; Cicchetti, Francesca
    Animal models are invaluable tools to study neurodegenerative disorders but a general consensus on the most accurate rodent model of Parkinson’s disease has not been reached. Here, we examined how different methods of MPTP administration influence the degeneration of the dopaminergic (DA) system. Adult male C57BL/6 mice were treated with the same cumulative dose of MPTP following four distinct procedures: (i) subacute i.p. injections; (ii) 28-day chronic s.c. infusion; (iii) 28-day chronic i.p. infusion; and (iv) 14-day chronic i.p. infusion. Subacute MPTP treatment significantly affected all aspects of the DA system within the nigral and striatal territories. In contrast, the 28-day chronic s.c. infusion did not significantly alter any components of the DA system. The 28- and 14-day chronic i.p. infusions induced loss of tyrosine hydroxylase (TH)-positive cells correlated with a decrease in Nurr1 mRNA levels, but no significant decrease in the density of TH striatal fibers. Importantly, however, only the 14-day chronic MPTP i.p. infusion protocol promoted the formation of neuronal inclusions as noted by the expression of α-synuclein protein within the cytoplasm of TH nigral neurons. Overall, we found that the 14-day chronic MPTP i.p. infusion reproduces more accurately the pathological characteristics of early stage Parkinson’s disease.
  • PublicationAccès libre
    Nur77 and retinoid X receptors : critical factors in dopamine-related neuroadaptation
    (Elsevier Science Publishers, 2006-11-28) Lévesque, Daniel; Rouillard, Claude
    Dopaminergic systems in the brain adapt in response to various stimuli from the internal and external world, but the mechanisms underlying this process are incompletely understood. Here, we review recent evidence that certain types of transcription factor of the nuclear receptor family, specifically Nur77 and retinoid X receptors, have important roles in adaptation and homeostatic regulation of dopaminergic systems. These findings call for a reassessment of our fundamental understanding of the molecular and cellular basis of dopamine-mediated transmission. Given that diseases such as Parkinson's disease and schizophrenia are thought to involve adaptation of dopamine signalling, these findings might provide new insight into these pathologies and offer new avenues for drug development.
  • PublicationAccès libre
    Nur77 gene knockout alters dopamine neuron biochemical activity and dopamine turnover
    (Society of Biological Psychiatry, 2006-09-15) St-Hilaire, Michel; Paquet, Brigitte; Morissette, Marc; Gilbert, François; Di Paolo, Thérèse; Lévesque, Daniel; Rouillard, Claude
    Background: Transcription factors of the Nur family (Nurr1, Nur77, and Nor-1) are orphan nuclear receptors closely associated with dopamine neurotransmission in the central nervous system. Nur77 expression is strongly modulated by antipsychotic and ant-parkinsonian drugs in dopaminoceptive brain areas. However, the role of Nur77 in dopamine neuron activity and turnover remains elusive. Methods: We compared various behavioral and biochemical parameters between Nur77 knockout −/− and wild-type +/+ mice in basal and haloperidol-challenged conditions. Results: We report here that Nur77-deficient mice display enhanced spontaneous locomotor activity, greater sensitivity to a small dose of the dopamine D2 receptor agonist quinpirole acting mainly at autoreceptor sites, and higher levels of the dopamine metabolite DOPAC relative to wild-type mice. Dopamine turnover disturbances are also found after acute challenge with haloperidol, a dopamine D2 receptor antagonist. These alterations are associated with increased tyrosine hydroxylase expression and activity, and reduced catechol-O-methyltransferase expression. Conclusion: Taken together, these results are consistent with the involvement of Nur77 in dopamine neuron biochemical activity and dopamine turnover.
  • PublicationAccès libre
    Nur77 mRNA levels and L-Dopa-induced dyskinesias in MPTP monkeys treated with docosahexaenoic acid
    (Blackwell Science, 2009-07-25) Mahmoudi, Souha; Ouattara, Bazoumana; Morissette, Marc; Gilbert, François; Di Paolo, Thérèse; Lévesque, Daniel; Rouillard, Claude; Grégoire, Laurent; Samadi, Pershia
    We have previously shown that docosahexaenoic acid (DHA) significantly reduced L-Dopa-induced dyskinesia (LID) in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) monkeys (Samadi et al., Ann. Neurol. 59:282–288, 2006). In the present study, we measured for the first time mRNA levels of Nur77, an orphan nuclear receptor that participates to adaptive and/or aberrant dopamine-related behaviors, and retinoid X receptor γ1 (RXRγ1), a putative brain receptor for DHA and transcriptional partner of Nur77, in MPTP monkeys treated with L-Dopa and DHA. The RXRγ1 mRNA is strongly expressed in monkey caudate nucleus and putamen, but no change in levels of RXRγ1 was observed following MPTP and L-Dopa treatments. On the other hand, denervation reduced Nur77 mRNA levels, whereas chronic L-Dopa treatment strongly induced Nur77 transcripts. These modulations are taking place in substance P positive cells and are associated with both caudate-putamen matrix and striosome compartments. Interestingly, combination of L-Dopa with DHA further increases Nur77 mRNA levels in the anterior caudate-putamen, and mainly in striosomes. This is accompanied by a significant inverse correlation between Nur77 mRNA levels and dyskinetic scores. Taken together, our results show that Nur77 expression is modulated following dopamine denervation and chronic L-Dopa therapy in a non-human primate model of Parkinson's disease, and suggest that strong modulation of Nur77 expression might be linked to a reduced risk to develop LIDs.