28 results on '"Lassalle O"'
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2. Reelin, an extracellular matrix protein linked to early onset psychiatric diseases, drives postnatal development of the prefrontal cortex via GluN2B-NMDARs and the mTOR pathway
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Iafrati, J, Orejarena, M J, Lassalle, O, Bouamrane, L, and Chavis, P
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- 2014
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3. Erratum: Reelin, an extracellular matrix protein linked to early onset psychiatric diseases, drives postnatal development of the prefrontal cortex via GluN2B-NMDARs and the mTOR pathway
- Author
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Iafrati, J, Orejarena, M J, Lassalle, O, Bouamrane, L, and Chavis, P
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- 2014
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4. Hypervulnerability of the adolescent prefrontal cortex to nutritional stress via reelin deficiency
- Author
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Labouesse, M A, primary, Lassalle, O, additional, Richetto, J, additional, Iafrati, J, additional, Weber-Stadlbauer, U, additional, Notter, T, additional, Gschwind, T, additional, Pujadas, L, additional, Soriano, E, additional, Reichelt, A C, additional, Labouesse, C, additional, Langhans, W, additional, Chavis, P, additional, and Meyer, U, additional
- Published
- 2016
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5. Erratum: Reelin, an extracellular matrix protein linked to early onset psychiatric diseases, drives postnatal development of the prefrontal cortex via GluN2B-NMDARs and the mTOR pathway
- Author
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Iafrati, J, primary, Orejarena, M J, additional, Lassalle, O, additional, Bouamrane, L, additional, and Chavis, P, additional
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- 2013
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6. Reelin, an extracellular matrix protein linked to early onset psychiatric diseases, drives postnatal development of the prefrontal cortex via GluN2B-NMDARs and the mTOR pathway
- Author
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Iafrati, J, primary, Orejarena, M J, additional, Lassalle, O, additional, Bouamrane, L, additional, and Chavis, P, additional
- Published
- 2013
- Full Text
- View/download PDF
7. Sex-dependent effects of in utero cannabinoid exposure on cortical function
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Michela Serviado, Olivier J. Manzoni, Michelle Murphy, Jim Wager-Miller, Viviana Trezza, Anissa Bara, Anne-Laure Pelissier-Alicot, Olivier Lassalle, Antonia Manduca, Milene Borsoi, Ken Mackie, Axel Bernabeu, Institut de Neurobiologie de la Méditerranée [Aix-Marseille Université] (INMED - INSERM U1249), Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM), Assistance Publique - Hôpitaux de Marseille (APHM), Molinari, Florence, Bara, A., Manduca, A., Bernabeu, A., Borsoi, M., Serviado, M., Lassalle, O., Murphy, M., Wager-Miller, J., Mackie, K., Pelissier-Alicot, A. -L., Trezza, V., and Manzoni, O. J.
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0301 basic medicine ,Male ,cannabis ,Nucleus Accumben ,medicine.medical_treatment ,Long-Term Potentiation ,Anxiety ,neuroscience ,chemistry.chemical_compound ,0302 clinical medicine ,Receptor, Cannabinoid, CB1 ,Pregnancy ,rat ,Biology (General) ,Prefrontal cortex ,Sex Characteristics ,Arachidonic Acid ,Neuronal Plasticity ,Behavior, Animal ,TRPV Cation Channel ,General Neuroscience ,Gene Expression Regulation, Developmental ,General Medicine ,Anandamide ,Endocannabinoid system ,3. Good health ,in-utero ,Social Isolation ,Metabotropic glutamate receptor 1 ,Medicine ,Female ,[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC] ,medicine.medical_specialty ,cannabi ,QH301-705.5 ,Receptor, Metabotropic Glutamate 5 ,sex difference ,Science ,Prefrontal Cortex ,Polyunsaturated Alkamide ,General Biochemistry, Genetics and Molecular Biology ,Prenatal Exposure Delayed Effect ,social behavior ,03 medical and health sciences ,Allosteric Regulation ,Internal medicine ,medicine ,RNA, Messenger ,[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC] ,Rats, Wistar ,Cannabinoid ,Endocannabinoid ,Fetus ,General Immunology and Microbiology ,business.industry ,Animal ,030104 developmental biology ,Endocrinology ,chemistry ,Metabotropic glutamate receptor ,Synaptic plasticity ,Pyramidal Cell ,business ,030217 neurology & neurosurgery - Abstract
International audience; Cannabinoids can cross the placenta, thus may interfere with fetal endocannabinoid signaling during neurodevelopment, causing long-lasting deficits. Despite increasing reports of cannabis consumption during pregnancy, the protracted consequences of prenatal cannabinoid exposure (PCE) remain incompletely understood. Here, we report sex-specific differences in behavioral and neuronal deficits in the adult progeny of rat dams exposed to low doses of cannabinoids during gestation. In males, PCE reduced social interaction, ablated endocannabinoid long-term depression (LTD) and heightened excitability of prefrontal cortex pyramidal neurons, while females were spared. Group 1 mGluR and endocannabinoid signaling regulate emotional behavior and synaptic plasticity. Notably, sex-differences following PCE included levels of mGluR1/ 5 and TRPV1R mRNA. Finally, positive allosteric modulation of mGlu5 and enhancement of anandamide levels restored LTD and social interaction in PCE adult males. Together, these results highlight marked sexual differences in the effects of PCE and introduce strategies for reversing detrimental effects of PCE.
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- 2018
8. Cell- and Pathway-Specific Disruptions in the Accumbens of Fragile X Mouse.
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Giua G, Pereira-Silva J, Caceres-Rodriguez A, Lassalle O, Chavis P, and Manzoni OJ
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- Animals, Mice, Male, Neural Pathways physiopathology, Optogenetics, Prefrontal Cortex metabolism, Prefrontal Cortex physiopathology, Mice, Inbred C57BL, Basolateral Nuclear Complex metabolism, Basolateral Nuclear Complex physiopathology, Mice, Knockout, Neurons metabolism, Neurons physiology, Neuronal Plasticity physiology, Fragile X Syndrome physiopathology, Fragile X Syndrome metabolism, Fragile X Syndrome genetics, Nucleus Accumbens metabolism, Fragile X Mental Retardation Protein genetics, Fragile X Mental Retardation Protein metabolism
- Abstract
Fragile X syndrome (FXS) is a genetic cause of intellectual disability and autism spectrum disorder. The mesocorticolimbic system, which includes the prefrontal cortex (PFC), basolateral amygdala (BLA), and nucleus accumbens core (NAcC), is essential for regulating socioemotional behaviors. We employed optogenetics to compare the functional properties of the BLA→NAcC, PFC→NAcC, and reciprocal PFC↔BLA pathways in Fmr1-/y::Drd1a-tdTomato male mice. In FXS mice, the PFC↔BLA reciprocal pathway was unaffected, while significant synaptic modifications occurred in the BLA/PFC→NAcC pathways. We observed distinct changes in D1 striatal projection neurons (SPNs) and separate modifications in D2 SPNs. In FXS mice, the BLA/PFC→NAcC-D2 SPN pathways demonstrated heightened synaptic strength. Focusing on the BLA→NAcC pathway, linked to autistic symptoms, we found increased AMPAR and NMDAR currents and elevated spine density in D2 SPNs. Conversely, the amplified firing probability of BLA→NAcC-D1 SPNs was not accompanied by increased synaptic strength, AMPAR and NMDAR currents, or spine density. These pathway-specific alterations resulted in an overall enhancement of excitatory-to-spike coupling, a physiologically relevant index of how efficiently excitatory inputs drive neuronal firing, in both BLA→NAcC-D1 and BLA→NAcC-D2 pathways. Finally, the absence of fragile X messenger ribonucleoprotein 1 (FMRP) led to impaired long-term depression specifically in BLA→D1 SPNs. These distinct alterations in synaptic transmission and plasticity within circuits targeting the NAcC highlight the potential role of postsynaptic mechanisms in selected SPNs in the observed circuit-level changes. This research underscores the heightened vulnerability of the NAcC in the context of FMRP deficiency, emphasizing its pivotal role in the pathophysiology of FXS., Competing Interests: The authors declare no competing financial interests., (Copyright © 2024 the authors.)
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- 2024
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9. Cocaine-induced loss of LTD and social impairments are restored by fatty acid amide hydrolase inhibition.
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Alegre-Zurano L, Caceres-Rodriguez A, Berbegal-Sáez P, Lassalle O, Manzoni O, and Valverde O
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- Animals, Mice, Amidohydrolases genetics, Endocannabinoids, Saccharin, Cocaine pharmacology, Long-Term Synaptic Depression drug effects
- Abstract
A single dose of cocaine abolishes endocannabinoid-mediated long-term depression (eCB-LTD) in the nucleus accumbens (NAc) within 24 h of administration. However, it is uncertain whether this altered neuroplasticity entails a behavioral deficit. As previously reported, after a single dose of cocaine (20 mg/kg), mice displayed impaired eCB-LTD in the NAc. Such cocaine-induced neuroplastic impairment was accompanied by an altered preference for saccharin and social interactions and a reduction in mRNA levels of the anandamide-catabolizing enzyme NAPE-PLD. The pharmacological increase of anandamide through the fatty acid amide hydrolase (FAAH) inhibitor URB597 (1 mg/kg) reversed the cocaine-induced loss of eCB-LTD in the NAc and restored normal social interaction in cocaine-exposed mice, but it did not affect saccharin preference. Overall, this research underlines the neuroplastic and behavioral alterations occurring after the initial use of cocaine and suggests a potential role for anandamide., (© 2023. Springer Nature Limited.)
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- 2023
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10. Sexually Dimorphic Adolescent Trajectories of Prefrontal Endocannabinoid Synaptic Plasticity Equalize in Adulthood, Reflected by Endocannabinoid System Gene Expression.
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Bernabeu A, Bara A, Murphy Green MN, Manduca A, Wager-Miller J, Borsoi M, Lassalle O, Pelissier-Alicot AL, Chavis P, Mackie K, and Manzoni OJJ
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- Rats, Female, Animals, Male, Neuronal Plasticity genetics, Long-Term Potentiation, Gene Expression, Endocannabinoids metabolism, Sexual Maturation
- Abstract
Introduction: How sex influences prefrontal cortexes (PFCs) synaptic development through adolescence remains unclear. Materials and Methods: In this study we describe sex-specific cellular and synaptic trajectories in the rat PFC from adolescence to adulthood. Results: The excitability of PFC layer 5 pyramidal neurons was lower in adult females compared with other developmental stages. The developmental course of endocannabinoid-mediated long-term depression (eCB-LTD) was sexually dimorphic, unlike long-term potentiation or mGluR3-LTD. eCB-LTD was expressed in juvenile females but appeared only at puberty in males. Endovanilloid TRPV1R or eCB receptors were engaged during LTD in a sequential and sexually dimorphic manner. Gene expression of the eCB/vanilloid systems was sequential and sex specific. LTD-incompetent juvenile males had elevated expression levels of the CB1R-interacting inhibitory protein cannabinoid receptor interacting protein 1a and of the 2-arachidonoylglycerol-degrading enzyme ABHD6. Pharmacological inhibition of ABHD6 or MAGL enabled LTD in young males, whereas inhibition of anandamide degradation was ineffective. Conclusions: These results reveal sex differences in the maturational trajectories of the rat PFC.
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- 2023
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11. Glutamatergic synaptic deficits in the prefrontal cortex of the Ts65Dn mouse model for Down syndrome.
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Thomazeau A, Lassalle O, and Manzoni OJ
- Abstract
Down syndrome (DS), the most prevalent cause of intellectual disability, stems from a chromosomal anomaly resulting in an entire or partial extra copy of chromosome 21. This leads to intellectual disability and a range of associated symptoms. While there has been considerable research focused on the Ts65Dn mouse model of DS, particularly in the context of the hippocampus, the synaptic underpinnings of prefrontal cortex (PFC) dysfunction in DS, including deficits in working memory, remain largely uncharted territory. In a previous study featuring mBACtgDyrk1a mice, which manifest overexpression of the Dyrk1a gene, a known candidate gene linked to intellectual disability and microcephaly in DS, we documented adverse effects on spine density, alterations in the molecular composition of synapses, and the presence of synaptic plasticity deficits within the PFC. The current study aimed to enrich our understanding of the roles of different genes in DS by studying Ts65Dn mice, which overexpress several genes including Dyrk1a , to compare with our previous work on mBACtgDyrk1a mice. Through ex-vivo electrophysiological experiments, including patch-clamp and extracellular field potential recordings, we identified alterations in the intrinsic properties of PFC layer V/VI pyramidal neurons in Ts65Dn male mice. Additionally, we observed changes in the synaptic plasticity range. Notably, long-term depression was absent in Ts65Dn mice, while synaptic or pharmacological long-term potentiation remained fully expressed in these mice. These findings provide valuable insights into the intricate synaptic mechanisms contributing to PFC dysfunction in DS, shedding light on potential therapeutic avenues for addressing the neurocognitive symptoms associated with this condition., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Thomazeau, Lassalle and Manzoni.)
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- 2023
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12. Investigating cell-specific effects of FMRP deficiency on spiny projection neurons in a mouse model of Fragile X syndrome.
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Giua G, Lassalle O, Makrini-Maleville L, Valjent E, Chavis P, and Manzoni OJJ
- Abstract
Introduction: Fragile X syndrome (FXS), resulting from a mutation in the Fmr1 gene, is the most common monogenic cause of autism and inherited intellectual disability. Fmr1 encodes the Fragile X Messenger Ribonucleoprotein (FMRP), and its absence leads to cognitive, emotional, and social deficits compatible with the nucleus accumbens (NAc) dysfunction. This structure is pivotal in social behavior control, consisting mainly of spiny projection neurons (SPNs), distinguished by dopamine D1 or D2 receptor expression, connectivity, and associated behavioral functions. This study aims to examine how FMRP absence differentially affects SPN cellular properties, which is crucial for categorizing FXS cellular endophenotypes., Methods: We utilized a novel Fmr1-/y :: Drd1a-tdTomato mouse model, which allows in-situ identification of SPN subtypes in FXS mice. Using RNA-sequencing, RNAScope and ex-vivo patch-clamp in adult male mice NAc, we comprehensively compared the intrinsic passive and active properties of SPN subtypes., Results: Fmr1 transcripts and their gene product, FMRP, were found in both SPNs subtypes, indicating potential cell-specific functions for Fmr1 . The study found that the distinguishing membrane properties and action potential kinetics typically separating D1- from D2-SPNs in wild-type mice were either reversed or abolished in Fmr1-/y :: Drd1a-tdTomato mice. Interestingly, multivariate analysis highlighted the compound effects of Fmr1 ablation by disclosing how the phenotypic traits distinguishing each cell type in wild-type mice were altered in FXS., Discussion: Our results suggest that the absence of FMRP disrupts the standard dichotomy characterizing NAc D1- and D2-SPNs, resulting in a homogenous phenotype. This shift in cellular properties could potentially underpin select aspects of the pathology observed in FXS. Therefore, understanding the nuanced effects of FMRP absence on SPN subtypes can offer valuable insights into the pathophysiology of FXS, opening avenues for potential therapeutic strategies., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Giua, Lassalle, Makrini-Maleville, Valjent, Chavis and Manzoni.)
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- 2023
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13. Sex-specific divergent maturational trajectories in the postnatal rat basolateral amygdala.
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Guily P, Lassalle O, Chavis P, and Manzoni OJ
- Abstract
In rodents and humans, the basolateral amygdala (BLA), essential for emotional behaviors, is profoundly reorganized during adolescence. We compared in both sexes the morphology, neuronal, and synaptic properties of BLA neurons in rats at puberty and adulthood. BLA neurons were more excitable in males than in females at adulthood. At pubescence, male action potentials were smaller and shorter than females' while fast afterhyperpolarizations were larger in males. During postnatal maturation, spine length increased and decreased in females and males, respectively, while there was a reduction in spine head size in females. Excitatory synaptic properties, estimated from stimuli-response relationships, spontaneous post-synaptic currents, and AMPA/NMDA ratio also displayed sex-specific maturational differences. Finally, the developmental courses of long-term potentiation and depression were sexually dimorphic. These data reveal divergent maturational trajectories in the BLA of male and female rats and suggest sex-specific substrates to the BLA linked behaviors at adolescence and adulthood., (© 2022 The Author(s).)
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- 2022
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14. Endocannabinoid LTD in Accumbal D1 Neurons Mediates Reward-Seeking Behavior.
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Bilbao A, Neuhofer D, Sepers M, Wei SP, Eisenhardt M, Hertle S, Lassalle O, Ramos-Uriarte A, Puente N, Lerner R, Thomazeau A, Grandes P, Lutz B, Manzoni OJ, and Spanagel R
- Abstract
The nucleus accumbens (NAc) plays a key role in drug-related behavior and natural reward learning. Synaptic plasticity in dopamine D1 and D2 receptor medium spiny neurons (MSNs) of the NAc and the endogenous cannabinoid (eCB) system have been implicated in reward seeking. However, the precise molecular and physiological basis of reward-seeking behavior remains unknown. We found that the specific deletion of metabotropic glutamate receptor 5 (mGluR5) in D1-expressing MSNs (D1
miR mGluR5 mice) abolishes eCB-mediated long-term depression (LTD) and prevents the expression of drug (cocaine and ethanol), natural reward (saccharin), and brain-stimulation-seeking behavior. In vivo enhancement of 2-arachidonoylglycerol (2-AG) eCB signaling within the NAc core restores both eCB-LTD and reward-seeking behavior in D1miR mGluR5 mice. The data suggest a model where the eCB and glutamatergic systems of the NAc act in concert to mediate reward-seeking responses., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)- Published
- 2020
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15. Cell-Type- and Endocannabinoid-Specific Synapse Connectivity in the Adult Nucleus Accumbens Core.
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Deroche MA, Lassalle O, Castell L, Valjent E, and Manzoni OJ
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- Action Potentials, Animals, Basolateral Nuclear Complex physiology, Endocannabinoids physiology, Hippocampus physiology, Male, Mice, Inbred C57BL, Neural Pathways physiology, Nucleus Accumbens metabolism, Optogenetics, Prefrontal Cortex physiology, Receptors, Dopamine D1 metabolism, Receptors, Dopamine D2 metabolism, Excitatory Postsynaptic Potentials, Neurons physiology, Nucleus Accumbens physiology, Receptor, Cannabinoid, CB1 physiology, Synapses physiology, TRPV Cation Channels physiology
- Abstract
The nucleus accumbens (NAc) is a mesocorticolimbic structure that integrates cognitive, emotional and motor functions. Although its role in psychiatric disorders is widely acknowledged, the understanding of its circuitry is not complete. Here, we combined optogenetic and whole-cell recordings to draw a functional portrait of excitatory disambiguated synapses onto D1 and D2 medium spiny neurons (MSNs) in the adult male mouse NAc core. Comparing synaptic properties of ventral hippocampus (vHipp), basolateral amygdala (BLA) and prefrontal cortex (PFC) inputs revealed a hierarchy of synaptic inputs that depends on the identity of the postsynaptic target MSN. Thus, the BLA is the dominant excitatory pathway onto D1 MSNs (BLA > PFC = vHipp) while PFC inputs dominate D2 MSNs (PFC > vHipp > BLA). We also tested the hypothesis that endocannabinoids endow excitatory circuits with pathway- and cell-specific plasticity. Thus, whereas CB1 receptors (CB1R) uniformly depress excitatory pathways regardless of MSNs identity, TRPV1 receptors (TRPV1R) bidirectionally control inputs onto the NAc core in a pathway-specific manner. Finally, we show that the interplay of TRPV1R/CB1R shapes plasticity at BLA-NAc synapses. Together these data shed new light on synapse and circuit specificity in the adult NAc core and illustrate how endocannabinoids contribute to pathway-specific synaptic plasticity. SIGNIFICANCE STATEMENT We examined the impact of connections from the ventral hippocampus (vHipp,) basolateral amygdala (BLA) and prefrontal cortex (PFC) onto identified medium spiny neurons (MSNs) in the adult accumbens core. We found BLA inputs were strongest at D1 MSNs while PFC inputs dominate D2 MSNs. Pathway- and cell-specific circuit control was also facilitated by endocannabinoids that endow bidirectional synaptic plasticity at identified BLA-NAc synapses. These data provide mechanistic insights on synapse and circuit specificity in the adult NAc core., (Copyright © 2020 the authors.)
- Published
- 2020
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16. Sex Differences in the Behavioral and Synaptic Consequences of a Single in vivo Exposure to the Synthetic Cannabimimetic WIN55,212-2 at Puberty and Adulthood.
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Borsoi M, Manduca A, Bara A, Lassalle O, Pelissier-Alicot AL, and Manzoni OJ
- Abstract
Heavy cannabis consumption among adolescents is associated with significant and lasting neurobiological, psychological and health consequences that depend on the age of first use. Chronic exposure to cannabinoid agonists during the perinatal period or adolescence alters social behavior and prefrontal cortex (PFC) activity in adult rats. However, sex differences on social behavior as well as PFC synaptic plasticity after acute cannabinoid activation remain poorly explored. Here, we determined that the consequences of a single in vivo exposure to the synthetic cannabimimetic WIN55,212-2 differently affected PFC neuronal and synaptic functions after 24 h in male and female rats during the pubertal and adulthood periods. During puberty, single cannabinoid exposure (SCE) reduced play behavior in females but not males. In contrast, the same treatment impaired sociability in both sexes at adulthood. General exploration and memory recognition remained normal at both ages and both sexes. At the synaptic level, SCE ablated endocannabinoid-mediated synaptic plasticity in the PFC of females of both ages and heightened excitability of PFC pyramidal neurons at adulthood, while males were spared. In contrast, cannabinoid exposure was associated with impaired long-term potentiation (LTP) specifically in adult males. Together, these data indicate behavioral and synaptic sex differences in response to a single in vivo exposure to cannabinoid at puberty and adulthood.
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- 2019
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17. Sex-dependent effects of in utero cannabinoid exposure on cortical function.
- Author
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Bara A, Manduca A, Bernabeu A, Borsoi M, Serviado M, Lassalle O, Murphy M, Wager-Miller J, Mackie K, Pelissier-Alicot AL, Trezza V, and Manzoni OJ
- Subjects
- Allosteric Regulation drug effects, Animals, Anxiety pathology, Arachidonic Acids metabolism, Behavior, Animal, Endocannabinoids metabolism, Female, Gene Expression Regulation, Developmental drug effects, Long-Term Potentiation drug effects, Male, Neuronal Plasticity drug effects, Nucleus Accumbens drug effects, Nucleus Accumbens pathology, Polyunsaturated Alkamides metabolism, Prefrontal Cortex drug effects, Prefrontal Cortex pathology, Pregnancy, Pyramidal Cells drug effects, Pyramidal Cells metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Wistar, Receptor, Cannabinoid, CB1 metabolism, Receptor, Metabotropic Glutamate 5 metabolism, Social Behavior, Social Isolation, TRPV Cation Channels metabolism, Cannabinoids pharmacology, Prefrontal Cortex physiopathology, Prenatal Exposure Delayed Effects pathology, Prenatal Exposure Delayed Effects physiopathology, Sex Characteristics
- Abstract
Cannabinoids can cross the placenta, thus may interfere with fetal endocannabinoid signaling during neurodevelopment, causing long-lasting deficits. Despite increasing reports of cannabis consumption during pregnancy, the protracted consequences of prenatal cannabinoid exposure (PCE) remain incompletely understood. Here, we report sex-specific differences in behavioral and neuronal deficits in the adult progeny of rat dams exposed to low doses of cannabinoids during gestation. In males, PCE reduced social interaction, ablated endocannabinoid long-term depression (LTD) and heightened excitability of prefrontal cortex pyramidal neurons, while females were spared. Group 1 mGluR and endocannabinoid signaling regulate emotional behavior and synaptic plasticity. Notably, sex-differences following PCE included levels of mGluR1/5 and TRPV1R mRNA. Finally, positive allosteric modulation of mGlu5 and enhancement of anandamide levels restored LTD and social interaction in PCE adult males. Together, these results highlight marked sexual differences in the effects of PCE and introduce strategies for reversing detrimental effects of PCE., Competing Interests: AB, AM, AB, MB, MS, OL, MM, JW, KM, AP, VT No competing interests declared, OM Reviewing editor, eLife, (© 2018, Bara et al.)
- Published
- 2018
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18. Differential Adulthood Onset mGlu5 Signaling Saves Prefrontal Function in the Fragile X Mouse.
- Author
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Martin HGS, Lassalle O, and Manzoni OJ
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- Aging metabolism, Animals, Endocannabinoids metabolism, Endophenotypes, Excitatory Postsynaptic Potentials physiology, Fragile X Mental Retardation Protein genetics, Fragile X Mental Retardation Protein metabolism, Male, Mice, Inbred C57BL, Mice, Knockout, Patch-Clamp Techniques, Recovery of Function physiology, Signal Transduction, Tissue Culture Techniques, Fragile X Syndrome metabolism, Long-Term Synaptic Depression physiology, Prefrontal Cortex growth & development, Prefrontal Cortex metabolism, Receptor, Metabotropic Glutamate 5 metabolism
- Abstract
The final maturation of the prefrontal cortex (PFC) continues into early adulthood and is delayed compared with other forebrain structures. However, how these late onset changes in the PFC relate to neurodevelopment disorders is poorly understood. Fragile X syndrome (FXS) is a prevalent neurogenetic disorder linked to deficits in PFC function. mGlu5 is an important molecular hub in the etiology of FXS. Thus we have examined changes in mGlu5 function in the PFC in a mouse model of FXS (Fmr1 knockout) during early adulthood and subsequent maturity. An unusual endophenotype was identified; during early adulthood (2-month-old) Fmr1 knockout mice show a severe deficit in mGlu5 dependent eCB synaptic plasticity; however, in 1-year-old this deficit self rectifies. This adulthood onset correction in mGlu5 function is linked to an engagement of TRPV1 receptors in 1-year-old mice. In 2-month-old Fmr1 knockout mice, mGlu5 mediated synaptic plasticity could be recovered with eCB system targeted drugs, but also by direct enhancement of mGlu5 function with a positive allosteric modulator. These results point to further refinements to the role of mGlu5 in FXS. Furthermore our findings suggest when studying neurodevelopmental disorders with a significant PFC phenotype consideration of late onset changes may be important., (© The Author 2016. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)
- Published
- 2017
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19. Amplification of mGlu 5 -Endocannabinoid Signaling Rescues Behavioral and Synaptic Deficits in a Mouse Model of Adolescent and Adult Dietary Polyunsaturated Fatty Acid Imbalance.
- Author
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Manduca A, Bara A, Larrieu T, Lassalle O, Joffre C, Layé S, and Manzoni OJ
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- Aging metabolism, Animals, Humans, Male, Mental Disorders prevention & control, Mice, Mice, Inbred C57BL, Synaptic Transmission, Up-Regulation physiology, Disease Models, Animal, Endocannabinoids metabolism, Fatty Acids, Omega-3 metabolism, Lipids deficiency, Mental Disorders metabolism, Neuronal Plasticity, Receptor, Metabotropic Glutamate 5 metabolism
- Abstract
Energy-dense, yet nutritionally poor food is a high-risk factor for mental health disorders. This is of particular concern during adolescence, a period often associated with increased consumption of low nutritional content food and higher prevalence of mental health disorders. Indeed, there is an urgent need to understand the mechanisms linking unhealthy diet and mental disorders. Deficiency in n-3 polyunsaturated fatty acids (PUFAs) is a hallmark of poor nutrition and mood disorders. Here, we developed a mouse model of n-3 PUFA deficiency lasting from adolescence into adulthood. Starting nutritional deficits in dietary n-3 PUFAs during adolescence decreased n-3 PUFAs in both medial prefrontal cortex (mPFC) and nucleus accumbens, increased anxiety-like behavior, and decreased cognitive function in adulthood. Importantly, we discovered that endocannabinoid/mGlu
5 -mediated LTD in the mPFC and accumbens was abolished in adult n-3-deficient mice. Additionally, mPFC NMDAR-dependent LTP was also lacking in the n-3-deficient group. Pharmacological enhancement of the mGlu5 /eCB signaling complex, by positive allosteric modulation of mGlu5 or inhibition of endocannabinoid 2-arachidonylglycerol degradation, fully restored synaptic plasticity and normalized emotional and cognitive behaviors in malnourished adult mice. Our data support a model where nutrition is a key environmental factor influencing the working synaptic range into adulthood, long after the end of the perinatal period. These findings have important implications for the identification of nutritional risk factors for disease and design of new treatments for the behavioral deficits associated with nutritional n-3 PUFA deficiency. SIGNIFICANCE STATEMENT In a mouse model mimicking n-3 PUFA dietary deficiency during adolescence and adulthood, we found strong increases in anxiety and anhedonia which lead to decreases in specific cognitive functions in adulthood. We found that endocannabinoid/mGlu5 -mediated LTD and NMDAR-dependent LTP were lacking in adult n-3-deficient mice. Acute positive allosteric modulation of mGlu5 or inhibition of endocannabinoid degradation normalized behaviors and synaptic functions in n-3 PUFA-deficient adult mice. These findings have important implications for the identification of nutritional risk for disease and the design of new treatments for the behavioral deficits associated with nutritional n-3 PUFAs' imbalance., (Copyright © 2017 the authors 0270-6474/17/376852-18$15.00/0.)- Published
- 2017
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20. Reelin-Haploinsufficiency Disrupts the Developmental Trajectory of the E/I Balance in the Prefrontal Cortex.
- Author
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Bouamrane L, Scheyer AF, Lassalle O, Iafrati J, Thomazeau A, and Chavis P
- Abstract
The reelin gene is a strong candidate in the etiology of several psychiatric disorders such as schizophrenia, major depression, bipolar disorders, and autism spectrum disorders. Most of these diseases are accompanied by cognitive and executive-function deficits associated with prefrontal dysfunctions. Mammalian prefrontal cortex (PFC) development is characterized by a protracted postnatal maturation constituting a period of enhanced vulnerability to psychiatric insults. The identification of the molecular components underlying this prolonged postnatal development is necessary to understand the synaptic properties of defective circuits participating in these psychiatric disorders. We have recently shown that reelin plays a key role in the maturation of glutamatergic functions in the postnatal PFC, but no data are available regarding the GABAergic circuits. Here, we undertook a cross-sectional analysis of GABAergic function in deep layer pyramidal neurons of the medial PFC of wild-type and haploinsufficient heterozygous reeler mice. Using electrophysiological approaches, we showed that decreased reelin levels impair the maturation of GABAergic synaptic transmission without affecting the inhibitory nature of GABA. This phenotype consequently impacted the developmental sequence of the synaptic excitation/inhibition (E/I) balance. These data indicate that reelin is necessary for the correct maturation and refinement of GABAergic synaptic circuits in the postnatal PFC and therefore provide a mechanism for altered E/I balance of prefrontal circuits associated with psychiatric disorders.
- Published
- 2017
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21. Interacting Cannabinoid and Opioid Receptors in the Nucleus Accumbens Core Control Adolescent Social Play.
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Manduca A, Lassalle O, Sepers M, Campolongo P, Cuomo V, Marsicano G, Kieffer B, Vanderschuren LJ, Trezza V, and Manzoni OJ
- Abstract
Social play behavior is a highly rewarding, developmentally important form of social interaction in young mammals. However, its neurobiological underpinnings remain incompletely understood. Previous work has suggested that opioid and endocannabinoid neurotransmission interact in the modulation of social play. Therefore, we combined behavioral, pharmacological, electrophysiological, and genetic approaches to elucidate the role of the endocannabinoid 2-arachidonoylglycerol (2-AG) in social play, and how cannabinoid and opioid neurotransmission interact to control social behavior in adolescent rodents. Systemic administration of the 2-AG hydrolysis inhibitor JZL184 or the opioid receptor agonist morphine increased social play behavior in adolescent rats. These effects were blocked by systemic pretreatment with either CB1 cannabinoid receptor (CB1R) or mu-opioid receptor (MOR) antagonists. The social play-enhancing effects of systemic morphine or JZL184 treatment were also prevented by direct infusion of the CB1R antagonist SR141716 and the MOR antagonist naloxone into the nucleus accumbens core (NAcC). Searching for synaptic correlates of these effects in adolescent NAcC excitatory synapses, we observed that CB1R antagonism blocked the effect of the MOR agonist DAMGO and, conversely, that naloxone reduced the effect of a cannabinoid agonist. These results were recapitulated in mice, and completely abolished in CB1R and MOR knockout mice, suggesting that the functional interaction between CB1R and MOR in the NAcC in the modulation of social behavior is widespread in rodents. The data shed new light on the mechanism by which endocannabinoid lipids and opioid peptides interact to orchestrate rodent socioemotional behaviors.
- Published
- 2016
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22. Multivariate synaptic and behavioral profiling reveals new developmental endophenotypes in the prefrontal cortex.
- Author
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Iafrati J, Malvache A, Gonzalez Campo C, Orejarena MJ, Lassalle O, Bouamrane L, and Chavis P
- Subjects
- Animals, Mice, Mice, Mutant Strains, Receptors, N-Methyl-D-Aspartate genetics, Receptors, N-Methyl-D-Aspartate metabolism, Reelin Protein, Alleles, Behavior, Animal, Cell Adhesion Molecules, Neuronal genetics, Cell Adhesion Molecules, Neuronal metabolism, Extracellular Matrix Proteins genetics, Extracellular Matrix Proteins metabolism, Mental Disorders genetics, Mental Disorders metabolism, Mental Disorders pathology, Mental Disorders physiopathology, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Prefrontal Cortex growth & development, Prefrontal Cortex metabolism, Prefrontal Cortex pathology, Prefrontal Cortex physiopathology, Serine Endopeptidases genetics, Serine Endopeptidases metabolism, Synapses genetics, Synapses metabolism, Synapses pathology
- Abstract
The postnatal maturation of the prefrontal cortex (PFC) represents a period of increased vulnerability to risk factors and emergence of neuropsychiatric disorders. To disambiguate the pathophysiological mechanisms contributing to these disorders, we revisited the endophenotype approach from a developmental viewpoint. The extracellular matrix protein reelin which contributes to cellular and network plasticity, is a risk factor for several psychiatric diseases. We mapped the aggregate effect of the RELN risk allele on postnatal development of PFC functions by cross-sectional synaptic and behavioral analysis of reelin-haploinsufficient mice. Multivariate analysis of bootstrapped datasets revealed subgroups of phenotypic traits specific to each maturational epoch. The preeminence of synaptic AMPA/NMDA receptor content to pre-weaning and juvenile endophenotypes shifts to long-term potentiation and memory renewal during adolescence followed by NMDA-GluN2B synaptic content in adulthood. Strikingly, multivariate analysis shows that pharmacological rehabilitation of reelin haploinsufficient dysfunctions is mediated through induction of new endophenotypes rather than reversion to wild-type traits. By delineating previously unknown developmental endophenotypic sequences, we conceived a promising general strategy to disambiguate the molecular underpinnings of complex psychiatric disorders and for the rational design of pharmacotherapies in these disorders.
- Published
- 2016
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23. Age-Dependent Long-Term Potentiation Deficits in the Prefrontal Cortex of the Fmr1 Knockout Mouse Model of Fragile X Syndrome.
- Author
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Martin HGS, Lassalle O, Brown JT, and Manzoni OJ
- Subjects
- Action Potentials, Animals, Disease Models, Animal, Electric Stimulation, Excitatory Postsynaptic Potentials drug effects, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome genetics, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Neurons drug effects, Prefrontal Cortex drug effects, Pyridines pharmacology, Receptor, Metabotropic Glutamate 5 antagonists & inhibitors, Receptor, Metabotropic Glutamate 5 physiology, Receptors, AMPA physiology, Receptors, N-Methyl-D-Aspartate physiology, Fragile X Mental Retardation Protein physiology, Fragile X Syndrome physiopathology, Long-Term Potentiation, Neurons physiology, Prefrontal Cortex physiopathology
- Abstract
The most common inherited monogenetic cause of intellectual disability is Fragile X syndrome (FXS). The clinical symptoms of FXS evolve with age during adulthood; however, neurophysiological data exploring this phenomenon are limited. The Fmr1 knockout (Fmr1KO) mouse models FXS, but studies in these mice of prefrontal cortex (PFC) function are underrepresented, and aging linked data are absent. We studied synaptic physiology and activity-dependent synaptic plasticity in the medial PFC of Fmr1KO mice from 2 to 12 months. In young adult Fmr1KO mice, NMDA receptor (NMDAR)-mediated long-term potentiation (LTP) is intact; however, in 12-month-old mice this LTP is impaired. In parallel, there was an increase in the AMPAR/NMDAR ratio and a concomitant decrease of synaptic NMDAR currents in 12-month-old Fmr1KO mice. We found that acute pharmacological blockade of mGlu5 receptor in 12-month-old Fmr1KO mice restored a normal AMPAR/NMDAR ratio and LTP. Taken together, the data reveal an age-dependent deficit in LTP in Fmr1KO mice, which may correlate to some of the complex age-related deficits in FXS., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)
- Published
- 2016
- Full Text
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24. Endocannabinoids Mediate Muscarinic Acetylcholine Receptor-Dependent Long-Term Depression in the Adult Medial Prefrontal Cortex.
- Author
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Martin HG, Bernabeu A, Lassalle O, Bouille C, Beurrier C, Pelissier-Alicot AL, and Manzoni OJ
- Abstract
Cholinergic inputs into the prefrontal cortex (PFC) are associated with attention and cognition; however there is evidence that acetylcholine also has a role in PFC dependent learning and memory. Muscarinic acetylcholine receptors (mAChR) in the PFC can induce synaptic plasticity, but the underlying mechanisms remain either opaque or unresolved. We have characterized a form of mAChR mediated long-term depression (LTD) at glutamatergic synapses of layer 5 principal neurons in the adult medial PFC. This mAChR LTD is induced with the mAChR agonist carbachol and inhibited by selective M1 mAChR antagonists. In contrast to other cortical regions, we find that this M1 mAChR mediated LTD is coupled to endogenous cannabinoid (eCB) signaling. Inhibition of the principal eCB CB1 receptor blocked carbachol induced LTD in both rats and mice. Furthermore, when challenged with a sub-threshold carbachol application, LTD was induced in slices pretreated with the monoacylglycerol lipase (MAGL) inhibitor JZL184, suggesting that the eCB 2-arachidonylglyerol (2-AG) mediates M1 mAChR LTD. Yet, when endogenous acetylcholine was released from local cholinergic afferents in the PFC using optogenetics, it failed to trigger eCB-LTD. However coupling patterned optical and electrical stimulation to generate local synaptic signaling allowed the reliable induction of LTD. The light-electrical pairing induced LTD was M1 mAChR and CB1 receptor mediated. This shows for the first time that connecting excitatory synaptic activity with coincident endogenously released acetylcholine controls synaptic gain via eCB signaling. Together these results shed new light on the mechanisms of synaptic plasticity in the adult PFC and expand on the actions of endogenous cholinergic signaling.
- Published
- 2015
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25. Enhanced Functional Activity of the Cannabinoid Type-1 Receptor Mediates Adolescent Behavior.
- Author
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Schneider M, Kasanetz F, Lynch DL, Friemel CM, Lassalle O, Hurst DP, Steindel F, Monory K, Schäfer C, Miederer I, Leweke FM, Schreckenberger M, Lutz B, Reggio PH, Manzoni OJ, and Spanagel R
- Subjects
- Adolescent, Age Factors, Animals, Behavior, Animal drug effects, Brain diagnostic imaging, Brain drug effects, Brain growth & development, Cannabinoid Receptor Antagonists pharmacology, Cocaine administration & dosage, Corpus Striatum cytology, Endocannabinoids metabolism, Endocannabinoids pharmacology, Exploratory Behavior drug effects, Exploratory Behavior physiology, Guanosine 5'-O-(3-Thiotriphosphate) pharmacokinetics, Humans, In Vitro Techniques, Male, Maze Learning drug effects, Maze Learning physiology, Models, Animal, Mutation genetics, Radionuclide Imaging, Rats, Rats, Inbred F344, Rats, Transgenic, Receptor, Cannabinoid, CB1 genetics, Risk-Taking, Social Behavior, Sulfur Isotopes pharmacokinetics, Adolescent Behavior physiology, Behavior, Animal physiology, Receptor, Cannabinoid, CB1 metabolism
- Abstract
Adolescence is characterized by drastic behavioral adaptations and comprises a particularly vulnerable period for the emergence of various psychiatric disorders. Growing evidence reveals that the pathophysiology of these disorders might derive from aberrations of normal neurodevelopmental changes in the adolescent brain. Understanding the molecular underpinnings of adolescent behavior is therefore critical for understanding the origin of psychopathology, but the molecular mechanisms that trigger adolescent behavior are unknown. Here, we hypothesize that the cannabinoid type-1 receptor (CB1R) may play a critical role in mediating adolescent behavior because enhanced endocannabinoid (eCB) signaling has been suggested to occur transiently during adolescence. To study enhanced CB1R signaling, we introduced a missense mutation (F238L) into the rat Cnr1 gene that encodes for the CB1R. According to our hypothesis, rats with the F238L mutation (Cnr1(F238L)) should sustain features of adolescent behavior into adulthood. Gain of function of the mutated receptor was demonstrated by in silico modeling and was verified functionally in a series of biochemical and electrophysiological experiments. Mutant rats exhibit an adolescent-like phenotype during adulthood compared with wild-type littermates, with typical high risk/novelty seeking, increased peer interaction, enhanced impulsivity, and augmented reward sensitivity for drug and nondrug reward. Partial inhibition of CB1R activity in Cnr1(F238L) mutant rats normalized behavior and led to a wild-type phenotype. We conclude that the activity state and functionality of the CB1R is critical for mediating adolescent behavior. These findings implicate the eCB system as an important research target for the neuropathology of adolescent-onset mental health disorders., Significance Statement: We present the first rodent model with a gain-of-function mutation in the cannabinoid type-1 receptor (CB1R). Adult mutant rats exhibit an adolescent-like phenotype with typical high risk seeking, impulsivity, and augmented drug and nondrug reward sensitivity. Adolescence is a critical period for suboptimal behavioral choices and the emergence of neuropsychiatric disorders. Understanding the basis of these disorders therefore requires a comprehensive knowledge of how adolescent neurodevelopment triggers behavioral reactions. Our behavioral observations in adult mutant rats, together with reports on enhanced adolescent CB1R signaling, suggest a pivotal role for the CB1R in an adolescent brain as an important molecular mediator of adolescent behavior. These findings implicate the endocannabinoid system as a notable research target for adolescent-onset mental health disorders., (Copyright © 2015 the authors 0270-6474/15/3513976-14$15.00/0.)
- Published
- 2015
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26. Functional and structural deficits at accumbens synapses in a mouse model of Fragile X.
- Author
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Neuhofer D, Henstridge CM, Dudok B, Sepers M, Lassalle O, Katona I, and Manzoni OJ
- Abstract
Fragile X is the most common cause of inherited intellectual disability and a leading cause of autism. The disease is caused by mutation of a single X-linked gene called fmr1 that codes for the Fragile X mental retardation protein (FMRP), a 71 kDa protein, which acts mainly as a translation inhibitor. Fragile X patients suffer from cognitive and emotional deficits that coincide with abnormalities in dendritic spines. Changes in spine morphology are often associated with altered excitatory transmission and long-term plasticity, the most prominent deficit in fmr1-/y mice. The nucleus accumbens, a central part of the mesocortico-limbic reward pathway, is now considered as a core structure in the control of social behaviors. Although the socio-affective impairments observed in Fragile X suggest dysfunctions in the accumbens, the impact of the lack of FMRP on accumbal synapses has scarcely been studied. Here we report for the first time a new spike timing-dependent plasticity paradigm that reliably triggers NMDAR-dependent long-term potentiation (LTP) of excitatory afferent inputs of medium spiny neurons (MSN) in the nucleus accumbens core region. Notably, we discovered that this LTP was completely absent in fmr1-/y mice. In the fmr1-/y accumbens intrinsic membrane properties of MSNs and basal excitatory neurotransmission remained intact in the fmr1-/y accumbens but the deficit in LTP was accompanied by an increase in evoked AMPA/NMDA ratio and a concomitant reduction of spontaneous NMDAR-mediated currents. In agreement with these physiological findings, we found significantly more filopodial spines in fmr1-/y mice by using an ultrastructural electron microscopic analysis of accumbens core medium spiny neuron spines. Surprisingly, spine elongation was specifically due to the longer longitudinal axis and larger area of spine necks, whereas spine head morphology and postsynaptic density size on spine heads remained unaffected in the fmr1-/y accumbens. These findings together reveal new structural and functional synaptic deficits in Fragile X.
- Published
- 2015
- Full Text
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27. Prefrontal deficits in a murine model overexpressing the down syndrome candidate gene dyrk1a.
- Author
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Thomazeau A, Lassalle O, Iafrati J, Souchet B, Guedj F, Janel N, Chavis P, Delabar J, and Manzoni OJ
- Subjects
- Animals, Dendritic Spines metabolism, Dendritic Spines pathology, Disease Models, Animal, Down Syndrome metabolism, Down Syndrome physiopathology, Male, Mice, Mice, Transgenic, Patch-Clamp Techniques, Prefrontal Cortex pathology, Pyramidal Cells pathology, Dyrk Kinases, Down Syndrome genetics, Neuronal Plasticity genetics, Prefrontal Cortex physiopathology, Protein Serine-Threonine Kinases genetics, Protein-Tyrosine Kinases genetics, Pyramidal Cells physiopathology
- Abstract
The gene Dyrk1a is the mammalian ortholog of Drosophila minibrain. Dyrk1a localizes in the Down syndrome (DS) critical region of chromosome 21q22.2 and is a major candidate for the behavioral and neuronal abnormalities associated with DS. PFC malfunctions are a common denominator in several neuropsychiatric diseases, including DS, but the contribution of DYRK1A in PFC dysfunctions, in particular the synaptic basis for impairments of executive functions reported in DS patients, remains obscure. We quantified synaptic plasticity, biochemical synaptic markers, and dendritic morphology of deep layer pyramidal PFC neurons in adult mBACtgDyrk1a transgenic mice that overexpress Dyrk1a under the control of its own regulatory sequences. We found that overexpression of Dyrk1a largely increased the number of spines on oblique dendrites of pyramidal neurons, as evidenced by augmented spine density, higher PSD95 protein levels, and larger miniature EPSCs. The dendritic alterations were associated with anomalous NMDAR-mediated long-term potentiation and accompanied by a marked reduction in the pCaMKII/CaMKII ratio in mBACtgDyrk1a mice. Retrograde endocannabinoid-mediated long-term depression (eCB-LTD) was ablated in mBACtgDyrk1a mice. Administration of green tea extracts containing epigallocatechin 3-gallate, a potent DYRK1A inhibitor, to adult mBACtgDyrk1a mice normalized long-term potentiation and spine anomalies but not eCB-LTD. However, inhibition of the eCB deactivating enzyme monoacylglycerol lipase normalized eCB-LTD in mBACtgDyrk1a mice. These data shed light on previously undisclosed participation of DYRK1A in adult PFC dendritic structures and synaptic plasticity. Furthermore, they suggest its involvement in DS-related endophenotypes and identify new potential therapeutic strategies.
- Published
- 2014
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28. Uncoupling of the endocannabinoid signalling complex in a mouse model of fragile X syndrome.
- Author
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Jung KM, Sepers M, Henstridge CM, Lassalle O, Neuhofer D, Martin H, Ginger M, Frick A, DiPatrizio NV, Mackie K, Katona I, Piomelli D, and Manzoni OJ
- Subjects
- Animals, Fragile X Mental Retardation Protein genetics, Fragile X Mental Retardation Protein metabolism, Fragile X Syndrome genetics, Lipoprotein Lipase genetics, Male, Mice, Mice, Knockout, Receptor, Metabotropic Glutamate 5, Receptors, Metabotropic Glutamate genetics, Signal Transduction genetics, Signal Transduction physiology, Arachidonic Acids metabolism, Endocannabinoids metabolism, Fragile X Syndrome metabolism, Glycerides metabolism, Lipoprotein Lipase metabolism, Receptors, Metabotropic Glutamate metabolism
- Abstract
Fragile X syndrome, the most commonly known genetic cause of autism, is due to loss of the fragile X mental retardation protein, which regulates signal transduction at metabotropic glutamate receptor-5 in the brain. Fragile X mental retardation protein deletion in mice enhances metabotropic glutamate receptor-5-dependent long-term depression in the hippocampus and cerebellum. Here we show that a distinct type of metabotropic glutamate receptor-5-dependent long-term depression at excitatory synapses of the ventral striatum and prefrontal cortex, which is mediated by the endocannabinoid 2-arachidonoyl-sn-glycerol, is absent in fragile X mental retardation protein-null mice. In these mutants, the macromolecular complex that links metabotropic glutamate receptor-5 to the 2-arachidonoyl-sn-glycerol-producing enzyme, diacylglycerol lipase-α (endocannabinoid signalosome), is disrupted and metabotropic glutamate receptor-5-dependent 2-arachidonoyl-sn-glycerol formation is compromised. These changes are accompanied by impaired endocannabinoid-dependent long-term depression. Pharmacological enhancement of 2-arachidonoyl-sn-glycerol signalling normalizes this synaptic defect and corrects behavioural abnormalities in fragile X mental retardation protein-deficient mice. The results identify the endocannabinoid signalosome as a molecular substrate for fragile X syndrome, which might be targeted by therapy.
- Published
- 2012
- Full Text
- View/download PDF
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