Your search keyword '"Gratton, Alain"' showing total 19 results

1. Cholinergic dysfunction in the dorsal striatum promotes habit formation and maladaptive eating

Author

Favier, Mathieu, Janickova, Helena, Justo, Damian, Kljakic, Ornela, Runtz, Leonie, Natsheh, Joman Y., Pascoal, Tharick A., Germann, Jurgen, Gallino, Daniel, Kang, Jun-Il, Meng, Xiang Qi, Antinora, Christina, Raulic, Sanda, Jacobsen, Jacob P.R., Moquin, Luc, Vigneault, Erika, Gratton, Alain, Caron, Marc G., Duriez, Philibert, Brandon, Mark P., Neto, Pedro Rosa, Chakravarty, M. Mallar, Herzallah, Mohammad M., Gorwood, Philip, Prado, Marco A.M., Prado, Vania F., and El Mestikawy, Salah

Subjects

Cholinergic mechanisms -- Health aspects, Anorexia nervosa -- Development and progression -- Care and treatment, Health behavior -- Observations, Health care industry

Abstract

Dysregulation of habit formation has been recently proposed as pivotal to eating disorders. Here, we report that a subset of patients suffering from restrictive anorexia nervosa have enhanced habit formation compared with healthy controls. Habit formation is modulated by striatal cholinergic interneurons. These interneurons express vesicular transporters for acetylcholine (VAChT) and glutamate (VGLUT3) and use acetylcholine/glutamate cotransmission to regulate striatal functions. Using mice with genetically silenced VAChT (VAChT conditional KO, VAChTcKO) or VGLUT3 (VGLUT3cKO), we investigated the roles that acetylcholine and glutamate released by cholinergic interneurons play in habit formation and maladaptive eating. Silencing glutamate favored goal-directed behaviors and had no impact on eating behavior. In contrast, VAChTcKO mice were more prone to habits and maladaptive eating. Specific deletion of VAChT in the dorsomedial striatum of adult mice was sufficient to phenocopy maladaptive eating behaviors of VAChTcKO mice. Interestingly, VAChTcKO mice had reduced dopamine release in the dorsomedial striatum but not in the dorsolateral striatum. The dysfunctional eating behavior of VAChTcKO mice was alleviated by donepezil and by l-DOPA, confirming an acetylcholine/dopamine deficit. Our study reveals that loss of acetylcholine leads to a dopamine imbalance in striatal compartments, thereby promoting habits and vulnerability to maladaptive eating in mice., Introduction Eating disorders such as anorexia nervosa, bulimia nervosa, and binge eating disorder are severe psychiatric illnesses that are difficult to treat (1). Anorexia nervosa, in particular, has the highest [...]

Published

2020

2. Global Brain Gene Expression Analysis Links Glutamatergic and GABAergic Alterations to Suicide and Major Depression

Author

Sequeira, Adolfo, Mamdani, Firoza, Ernst, Carl, Vawter, Marquis P., Bunney, William E., Lebel, Veronique, Rehal, Sonia, Klempan, Tim, Gratton, Alain, Benkelfat, Chawki, Rouleau, Guy A., Mechawar, Naguib, and Turecki, Gustavo

Subjects

magnetic-resonance spectroscopy, chronic ethanol treatment, messenger-rna expression, gamma-aminobutyric-acid, false discovery rate, postmortem brain, mood disorders, hippocampal volume, prefrontal cortex, locus-coeruleus

Abstract

BackgroundMost studies investigating the neurobiology of depression and suicide have focused on the serotonergic system. While it seems clear that serotonergic alterations play a role in the pathogenesis of these major public health problems, dysfunction in additional neurotransmitter systems and other molecular alterations may also be implicated. Microarray expression studies are excellent screening tools to generate hypotheses about additional molecular processes that may be at play. In this study we investigated brain regions that are known to be implicated in the neurobiology of suicide and major depression are likely to represent valid global molecular alterations.Methodology/Principal FindingsWe performed gene expression analysis using the HG-U133AB chipset in 17 cortical and subcortical brain regions from suicides with and without major depression and controls. Total mRNA for microarray analysis was obtained from 663 brain samples isolated from 39 male subjects, including 26 suicide cases and 13 controls diagnosed by means of psychological autopsies. Independent brain samples from 34 subjects and animal studies were used to control for the potential confounding effects of comorbidity with alcohol. Using a Gene Ontology analysis as our starting point, we identified molecular pathways that may be involved in depression and suicide, and performed follow-up analyses on these possible targets. Methodology included gene expression measures from microarrays, Gene Score Resampling for global ontological profiling, and semi-quantitative RT-PCR. We observed the highest number of suicide specific alterations in prefrontal cortical areas and hippocampus. Our results revealed alterations of synaptic neurotransmission and intracellular signaling. Among these, Glutamatergic (GLU) and GABAergic related genes were globally altered. Semi-quantitative RT-PCR results investigating expression of GLU and GABA receptor subunit genes were consistent with microarray data.Conclusions/SignificanceThe observed results represent the first overview of global expression changes in brains of suicide victims with and without major depression and suggest a global brain alteration of GLU and GABA receptor subunit genes in these conditions.

Published

2009

3. Selective genetic disruption of dopaminergic, serotonergic and noradrenergic neurotransmission: insights into motor, emotional and addictive behaviour

Author

Isingrini, Elsa, Perret, Lea, Rainer, Quentin, Sagueby, Sara, Moquin, Luc, Gratton, Alain, and Giros, Bruno

Subjects

Emotions -- Genetic aspects, Motor ability -- Genetic aspects, Gene expression -- Observations, Addiction -- Genetic aspects, Neural transmission -- Observations, Health, Psychology and mental health

Abstract

Background: The monoaminergic transmitters dopamine (DA), noradrenaline (NE) and serotonin (5-HT) modulate cerebral functions via their extensive effects in the brain. Investigating their roles has led to the creation of vesicular monoaminergic transporter-2 (VMAT2) knockout (KO) mice. While this mutation results in postnatal death, VMAT2- heterozygous (HET) mice are viable and show a complex behavioural phenotype. However, the simultaneous alteration of the 3 systems prevents investigations into their individual functions. Methods: To assess the specific role of NE, 5-HT and DA, we genetically disrupted their neurotransmission by creating conditional VMAT2-KO mice with targeted recombination. These specific recombinations were obtained by breeding [VMAT2.sup.lox/lox] mice with DBHcre, SERTcre and DATcre mice, respectively. We conducted a complete neurochemical and behavioural characterization of VMAT2-HET animals in each system. Results: Conditional VMAT2-KO mice revealed an absence of VMAT2 expression, and a specific decrease in the whole brain levels of each monoamine. Although NE- and 5-HT-depleted mice are viable into adulthood, DA depletion results in postnatal death before weaning. Interestingly, alteration of the DA transmission fully accounted for the increased amphetamine response formerly observed in the VMAT2-HET mice, whereas alteration of the 5-HT system was solely responsible for the increase in cocaine response. Limitations: We used VMAT2-HET mice that displayed a mild phenotype. Because the VMAT2-KO in DA neurons is lethal, it precluded a straightforward comparison of the full KOs in the 3 systems. Conclusion: Given the intermingled functions of NE, 5-HT and DA in regulating cognitive and affective functions, this model will enhance understanding of their respective roles in the pathophysiology of psychiatric disorders., Introduction Monoaminergic neurotransmitters, namely dopamine (DA), noradrenaline (NE) and serotonin (5-HT), extensively modulate cognitive, affective, neuroendocrine and motor functions in the brain. (1) The role of the monoaminergic systems in [...]

Published

2016

4. Imaging in Vivo Glutamate Fluctuations with [11C]ABP688: A GLT-1 Challenge with Ceftriaxone

Author

Zimmer, Eduardo R, Parent, Maxime J, Leuzy, Antoine, Aliaga, Antonio, Aliaga, Arturo, Moquin, Luc, Schirrmacher, Esther S, Soucy, Jean-Paul, Skelin, Ivan, Gratton, Alain, Gauthier, Serge, and Rosa-Neto, Pedro

Published

2015

5. Hypothalamic Reward Mechanism: Two First-Stage Fiber Populations with a Cholinergic Component

Author

Gratton, Alain and Wise, Roy A.

Published

1985

6. Lesch-Nyhan disease causes impaired energy metabolism and reduced developmental potential in midbrain dopaminergic cells

Author

Bell, Scott, primary, McCarty, Vincent, additional, Peng, Huashan, additional, Jefri, Malvin, additional, Hettige, Nuwan, additional, Antonyan, Lilit, additional, Crapper, Liam, additional, O'Leary, Liam A., additional, Zhang, Xin, additional, Zhang, Ying, additional, Wu, Hanrong, additional, Sutcliffe, Diane, additional, Kolobova, Ilaria, additional, Rosenberger, Thad A., additional, Moquin, Luc, additional, Gratton, Alain, additional, Popic, Jelena, additional, Gantois, Ilse, additional, Stumpf, Patrick S., additional, Schuppert, Andreas A., additional, Mechawar, Naguib, additional, Sonenberg, Nahum, additional, Tremblay, Michel L., additional, Jinnah, Hyder A., additional, and Ernst, Carl, additional

Published

2021

7. Stimulation of L-type calcium channels increases tyrosine hydroxylase and dopamine in ventral midbrain cells induced from somatic cells

Author

Jefri, Malvin, primary, Bell, Scott, additional, Peng, Huashan, additional, Hettige, Nuwan, additional, Maussion, Gilles, additional, Soubannier, Vincent, additional, Wu, Hanrong, additional, Silveira, Heika, additional, Theroux, Jean-Francois, additional, Moquin, Luc, additional, Zhang, Xin, additional, Aouabed, Zahia, additional, Krishnan, Jeyashree, additional, O’Leary, Liam A., additional, Antonyan, Lilit, additional, Zhang, Ying, additional, McCarty, Vincent, additional, Mechawar, Naguib, additional, Gratton, Alain, additional, Schuppert, Andreas, additional, Durcan, Thomas M., additional, Fon, Edward A., additional, and Ernst, Carl, additional

Published

2020

8. Oxytocin-Dopamine Interactions Mediate Variations in Maternal Behavior in the Rat

Author

Shahrokh, Dara K., Zhang, Tie-Yuan, Diorio, Josie, Gratton, Alain, and Meaney, Michael J.

Published

2010

9. Genetic elimination of dopamine vesicular stocks in the nigrostriatal pathway replicates Parkinson’s disease motor symptoms without neuronal degeneration in adult mice

Author

Isingrini, Elsa, primary, Guinaudie, Chloé, additional, C Perret, Léa, additional, Rainer, Quentin, additional, Moquin, Luc, additional, Gratton, Alain, additional, and Giros, Bruno, additional

Published

2017

10. A highly tunable dopaminergic oscillator generates ultradian rhythms of behavioral arousal

Author

Blum, Ian D, primary, Zhu, Lei, additional, Moquin, Luc, additional, Kokoeva, Maia V, additional, Gratton, Alain, additional, Giros, Bruno, additional, and Storch, Kai-Florian, additional

Published

2014

11. Evidence of Altered Polyamine Concentrations in Cerebral Cortex of Suicide Completers

Author

Chen, Gary Gang, primary, Fiori, Laura M, additional, Moquin, Luc, additional, Gratton, Alain, additional, Mamer, Orval, additional, Mechawar, Naguib, additional, and Turecki, Gustavo, additional

Published

2010

12. Imaging in vivo glutamate fluctuations with [11C]ABP688: a GLT-1 challenge with ceftriaxone.

Author

R Zimmer, Eduardo, Parent, Maxime J, Leuzy, Antoine, Aliaga, Antonio, Aliaga, Arturo, Moquin, Luc, S Schirrmacher, Esther, Soucy, Jean-Paul, Skelin, Ivan, Gratton, Alain, Gauthier, Serge, and Rosa-Neto, Pedro

Subjects

GLUTAMATE receptors, CEFTRIAXONE, BRAIN imaging, POSITRON emission tomography, MICRODIALYSIS, BINDING sites, NEUROBEHAVIORAL disorders, LABORATORY rats

Abstract

Molecular imaging offers unprecedented opportunities for investigating dynamic changes underlying neuropsychiatric conditions. Here, we evaluated whether [11C]ABP688, a positron emission tomography (PET) ligand that binds to the allosteric site of the metabotropic glutamate receptor type 5 (mGluR5), is sensitive to glutamate fluctuations after a pharmacological challenge. For this, we used ceftriaxone (CEF) administration in rats, an activator of the GLT-1 transporter (EAAT2), which is known to decrease extracellular levels of glutamate. MicroPET [11C]ABP688 dynamic acquisitions were conducted in rats after a venous injection of either saline (baseline) or CEF 200 mg/kg (challenge). Binding potentials (BPND) were obtained using the simplified reference tissue method. Between-condition statistical parametric maps indicating brain regions showing the highest CEF effects guided placement of microdialysis probes for subsequent assessment of extracellular levels of glutamate. The CEF administration increased [11C]ABP688 BPND in the thalamic ventral anterior (VA) nucleus bilaterally. Subsequent microdialysis assessment revealed declines in extracellular glutamate concentrations in the VA. The present results support the concept that availability of mGluR5 allosteric binding sites is sensitive to extracellular concentrations of glutamate. This interesting property of mGluR5 allosteric binding sites has potential applications for assessing the role of glutamate in the pathogenesis of neuropsychiatric conditions. [ABSTRACT FROM AUTHOR]

Published

2015

13. Perinatal Distress Leads to Lateralized Medial Prefrontal Cortical Dopamine Hypofunction in Adult Rats

Author

Brake, Wayne G., primary, Sullivan, Ron M., additional, and Gratton, Alain, additional

Published

2000

14. Lateralized Effects of Medial Prefrontal Cortex Lesions on Neuroendocrine and Autonomic Stress Responses in Rats

Author

Sullivan, Ron M., primary and Gratton, Alain, additional

Published

1999

15. Changes in Medial Prefrontal Cortical Dopamine Levels Associated with Response-Contingent Food Reward: An Electrochemical Study in Rat

Author

Richardson, Nicole R., primary and Gratton, Alain, additional

Published

1998

16. Behavior-Relevant Changes in Nucleus Accumbens Dopamine Transmission Elicited by Food Reinforcement: An Electrochemical Study in Rat

Author

Richardson, Nicole R., primary and Gratton, Alain, additional

Published

1996

17. Evidence of Altered Polyamine Concentrations in Cerebral Cortex of Suicide Completers.

Author

Gary Gang Chen, Fiori, Laura M., Moquin, Luc, Gratton, Alain, Mamer, Orval, Mechawar, Naguib, and Turecki, Gustavo

Subjects

POLYAMINES, CEREBRAL cortex, SUICIDE, ACETYLTRANSFERASES, MASS spectrometry

Abstract

Recent studies have implicated alterations in the expression of polyamine-related genes in the brains of suicide completers including widespread downregulation of spermidine/spermine N1-acetyltransferase, the key enzyme in polyamine catabolism, suggesting compensatory mechanisms attempting to increase brain levels of polyamines. Given the complexity of the polyamine system, quantification of the levels of the polyamines is an essential step in understanding the downstream effects of dysregulated gene expression. We developed a method using high-resolution capillary gas chromatography (GC) in combination with mass spectrometry (MS) for quantitation of polyamines from post-mortem brain tissue, which allowed us to accurately measure spermidine and putrescine concentrations in post-mortem brain tissues. Using this method, we analyzed putrescine and spermidine levels in a total of 126 samples from Brodmann areas 4, 8/9, and 11, from 42 subjects, comprising 16 suicide completers with major depression, 13 non-depressed suicide completers, and 13 control subjects. Both putrescine and spermidine levels fell within the expected nanomolar ranges and were significantly elevated in the brain of suicide completers with a history of major depression as compared with controls. These results were not accounted by possible confounders. This is the first GC–MS study to analyze the expression of putrescine and spermidine from post-mortem brain tissue and confirms the hypothesis raised by previous studies indicating alterations in putrescine and spermidine levels in suicide/major depression. [ABSTRACT FROM AUTHOR]

Published

2010

18. Interhemispheric Regulation of the Medial Prefrontal Cortical Glutamate Stress Response in Rats.

Author

Lupinsky, Derek, Moquin, Luc, and Gratton, Alain

Subjects

PREFRONTAL cortex, PHYSIOLOGICAL stress, MICRODIALYSIS, PHARMACODYNAMICS, LABORATORY rats

Abstract

While stressors are known to increase medial prefrontal cortex (PFC) glutamate (GLU) levels, the mechanism(s) subserving this response remain to be elucidated. We used microdialysis and local drug applications to investigate, in male Long-Evans rats, whether the PFCGLU stress response might reflect increased interhemispheric communication by callosal projection neurons. We report here that tail-pinch stress (20 min) elicited comparable increases in GLU in the left and right PFC that were sodium and calcium dependent and insensitive to local glial cystine-GLU exchanger blockade. Unilateral ibotenate-induced PFC lesions abolished the GLU stress response in the opposite hemisphere, as did contralateral mGlu2/3 receptor activation. Local dopamine (DA) D1 receptor blockade in the left PFC potently enhanced the right PFC GLU stress response, whereas the same treatment applied to the right PFC had a much weaker effect on the left PFC GLU response. Finally, the PFC GLU stress response was attenuated and potentiated, respectively, following α1-adrenoreceptor blockade and GABAB receptor activation in the opposite hemisphere. These findings indicate that the PFC GLU stress response reflects, at least in part, activation of callosal neurons located in the opposite hemisphere and that stress-induced activation of these neurons is regulated by GLU-, DA-, norepinephrine-, and GABA-sensitive mechanisms. In the case of DA, this control is asymmetrical, with a marked regulatory bias of the left PFC DA input over the right PFC GLU stress response. Together, these findings suggest that callosal neurons and their afferentation play an important role in the hemispheric specialization of PFC-mediated responses to stressors. [ABSTRACT FROM AUTHOR]

Published

2010

19. Variations in nucleus accumbens dopamine associated with individual differences in maternal behavior in the rat.

Author

Champagne FA, Chretien P, Stevenson CW, Zhang TY, Gratton A, and Meaney MJ

Subjects

Animals, Animals, Newborn, Behavior, Animal drug effects, Behavior, Animal physiology, Binding, Competitive, Dopamine analysis, Dopamine Plasma Membrane Transport Proteins, Dopamine Uptake Inhibitors pharmacology, Electrochemistry, Electrodes, Implanted, Female, Grooming drug effects, Lactation physiology, Maternal Behavior drug effects, Membrane Transport Proteins metabolism, Nerve Tissue Proteins metabolism, Nucleus Accumbens drug effects, Rats, Rats, Long-Evans, Receptors, Dopamine metabolism, Time Factors, Tongue physiology, Dopamine metabolism, Grooming physiology, Individuality, Maternal Behavior physiology, Membrane Glycoproteins, Nucleus Accumbens metabolism

Abstract

Lactating rats exhibit stable individual differences in pup licking/grooming. We used in vivo voltammetry to monitor changes in extracellular dopamine (DA) in the nucleus accumbens (n. Acc) shell of lactating rats interacting with pups and found that (1) the DA signal increased significantly with pup licking/grooming; (2) the onset of such increases preceded pup licking/grooming; and (3) the magnitude and duration of the increase in the DA signal were significantly correlated with the duration of the licking/grooming bout. In females characterized on the basis of behavioral observations as high-licking/grooming mothers, the magnitude of the increase in the DA signal associated with licking/grooming was significantly greater than in low-licking/grooming dams. Dopamine transporter binding in the n. Acc was increased in low-compared with high-licking/grooming mothers. Injection of the selective DA uptake inhibitor GBR 12909 [1-(2-(Bis-(4-fluorophenyl)methoxy)ethyl)-4-(3 phenypropyl)piperazine dihydrochloride] (5 mg/kg, s.c.) increased the DA signal in the n. Acc and pup licking/grooming in low-licking/grooming mothers to levels comparable with those observed in high-licking/grooming dams. Receptor autoradiographic studies showed elevated levels of D1 and D3 receptors in the n. Acc shell region in high-licking/grooming dams. These results suggest that high- and low-licking/grooming dams differ in mesolimbic dopaminergic activity associated with mother-pup interactions. Such differences may serve as neural substrates for individual differences in the motivational component of maternal behavior.

Published

2004