Mélina Bégou scite author profile

Neuroleptics are thought to exert their anti-psychotic effects by counteracting a hyper-dopaminergic transmission. Here, we have examined the dopaminergic status of STOP (stable tubule only polypeptide) null mice, which lack a microtubulestabilizing protein and which display neuroleptic-sensitive behavioural disorders. Dopamine transmission was investigated using both behavioural analysis and measurements of dopamine efflux in different conditions. Compared to wild-type mice in basal conditions or following mild stress, STOP null mice showed a hyper-locomotor activity, which was erased by neuroleptic treatment, and an increased locomotor reactivity to amphetamine. Such a behavioural profile is indicative of an increased dopaminergic transmission. In STOP null mice, the basal dopamine concentrations, measured by quantitative microdialysis, were normal in both the nucleus accumbens and the striatum. When measured by electrochemical techniques, the dopamine efflux evoked by electrical stimulations mimicking physiological stimuli was dramatically increased in the nucleus accumbens of STOP null mice, apparently due to an increased dopamine release, whereas dopaminergic uptake and auto-inhibition mechanisms were normal. In contrast, dopamine effluxes were slightly diminished in the striatum. Together with previous results, the present study indicates the association in STOP null mice of hippocampal hypo-glutamatergy and of limbic hyper-dopaminergy. Such neurotransmission defects are thought to be central to mental diseases such as schizophrenia.

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Microtubule Stabilizer Ameliorates Synaptic Function and Behavior in a Mouse Model for Schizophrenia

Andrieux

Salin

Schweitzer

et al. 2006

Biological Psychiatry

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The stop null mice model for schizophrenia displays cognitive and social deficits partly alleviated by neuroleptics

et al. 2008

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Recently evidence has accumulated that schizophrenia can arise from primary synaptic defects involving structural proteins particularly, microtubule associated proteins. Previous experiments have demonstrated that a STOP (stable tubule only peptide) gene deletion in mice leads to a phenotype mimicking some aspects of positive symptoms classically observed in schizophrenic patients. In the current study, we determined if STOP null mice demonstrate behavioral abnormalities related to the social and cognitive impairments of schizophrenia. Compared with wild-type mice, STOP null mice exhibited deficits in the non-aggressive component of social recognition, short term working memory and social and spatial learning. As described in humans, learning deficits in STOP null mice were poorly sensitive to long term treatment with typical neuroleptics. Since social and cognitive dysfunction have consistently been considered as central features of schizophrenia, we propose that STOP null mice may provide a useful model to understand the neurobiological correlates of social and cognitive defects in schizophrenia and to develop treatments that better target these symptoms.

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Longitudinal MRI monitoring of brain damage in the neonatal ventral hippocampal lesion rat model of schizophrenia

Bertrand¹,

Langlois²,

Bégou³

et al. 2009

Hippocampus

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Rat with excitotoxic neonatal ventral hippocampal lesions (NVHL rats) is considered as a heuristic neurodevelopmental model for studying schizophrenia. Extensive study of this model is limited by the lack of clear validity criteria of such lesions and because ascertaining of the lesions is realized postmortem with histological examination after completing experiments. Here, in a first experiment, by assessing the locomotor response to amphetamine in adult NVHL rats, we further specify that the lesions must be bilateral and confined to the ventral hippocampus to obtain the validated behavioral phenotype. We then show a longitudinal magnetic resonance imaging (MRI) protocol suitable for the detection of brain structural changes in NVHL rats. The T(2)-weighted images acquired in adult NVHL rats reveal the same structural changes as those appraised with histological protocol. Moreover, we demonstrate that the lesion status in adulthood can be accurately predicted from the T(2)-weighted images acquired in the juvenile period. As technical advantages, our MRI protocol makes possible to select animals according to lesion criteria as soon as in the juvenile period before long-lasting experiments and gives access in vivo to a quantitative parameter indicative of the lesion extent. Finally, we show that the lesion size increases only slightly between juvenile and adult periods. These latter results are discussed in the context of the specific postpubertal emergence of the behavioral deficits in NVHL rats.

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Oxidative stress and mitochondrial dynamics malfunction are linked in Pelizaeus‐Merzbacher disease

et al. 2017

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Pelizaeus-Merzbacher disease (PMD) is a fatal hypomyelinating disorder characterized by early impairment of motor development, nystagmus, choreoathetotic movements, ataxia and progressive spasticity. PMD is caused by variations in the proteolipid protein gene PLP1, which encodes the two major myelin proteins of the central nervous system, PLP and its spliced isoform DM20, in oligodendrocytes. Large duplications including the entire PLP1 gene are the most frequent causative mutation leading to the classical form of PMD. The Plp1 overexpressing mouse model (PLP-tg ) develops a phenotype very similar to human PMD, with early and severe motor dysfunction and a dramatic decrease in lifespan. The sequence of cellular events that cause neurodegeneration and ultimately death is poorly understood. In this work, we analyzed patient-derived fibroblasts and spinal cords of the PLP-tg mouse model, and identified redox imbalance, with altered antioxidant defense and oxidative damage to several enzymes involved in ATP production, such as glycolytic enzymes, creatine kinase and mitochondrial proteins from the Krebs cycle and oxidative phosphorylation. We also evidenced malfunction of the mitochondria compartment with increased ROS production and depolarization in PMD patient's fibroblasts, which was prevented by the antioxidant N-acetyl-cysteine. Finally, we uncovered an impairment of mitochondrial dynamics in patient's fibroblasts which may help explain the ultrastructural abnormalities of mitochondria morphology detected in spinal cords from PLP-tg mice. Altogether, these results underscore the link between redox and metabolic homeostasis in myelin diseases, provide insight into the pathophysiology of PMD, and may bear implications for tailored pharmacological intervention.

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Neurodegenerative Disorder Related to AIMP1/p43 Mutation Is Not a PMLD

Boespflug‐Tanguy

Aubourg

Dorboz

et al. 2011

The American Journal of Human Genetics

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Mice with a deletion of the major central myelin protein exhibit hypersensitivity to noxious thermal stimuli: involvement of central sensitization

Petit

Giraudet

Béchon

et al. 2014

Neurobiology of Disease

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Post‐pubertal emergence of alterations in locomotor activity in stop null mice

Bégou¹,

Brun

Bertrand

et al. 2007

Synapse

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Overt schizophrenia is preceded by a prodromal phase during which juvenile patients display attenuated schizophrenia-related symptoms. Here, we have looked for evidence of a prodromal phase in juvenile STOP null mice, which, during adulthood, imitate features of schizophrenia. We have principally examined locomotor activity, which is abnormal in adult STOP null mice, and its apparent relationship with perturbed glutamatergic and dopaminergic transmission. When compared to corresponding wild-type mice, juvenile STOP null mice did not exhibit the basal hyperlocomotion or locomotor hypersensitivity to mild stress observed in adult mice. Juvenile STOP null mice also lacked disturbed locomotor sensitivity to MK-801, which was evident in adult mice. In contrast, juvenile STOP null mice exhibited a similar hypersensitivity to amphetamine as that found in adult mice. Thus, STOP null mice exhibited both a progression of locomotor activity defects over time and subtle alterations in the prepubertal period. We suggest that the pattern of locomotor disturbances observed in this study is related to altered dopaminergic reactivity in juvenile mice without major disturbance in glutamatergic transmission, whereas both neurotransmitter systems are impaired in adult mice.

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Mélina Bégou

Dopaminergic transmission in STOP null mice

Microtubule Stabilizer Ameliorates Synaptic Function and Behavior in a Mouse Model for Schizophrenia

The stop null mice model for schizophrenia displays cognitive and social deficits partly alleviated by neuroleptics

Longitudinal MRI monitoring of brain damage in the neonatal ventral hippocampal lesion rat model of schizophrenia

Oxidative stress and mitochondrial dynamics malfunction are linked in Pelizaeus‐Merzbacher disease

Neurodegenerative Disorder Related to AIMP1/p43 Mutation Is Not a PMLD

Mice with a deletion of the major central myelin protein exhibit hypersensitivity to noxious thermal stimuli: involvement of central sensitization

Post‐pubertal emergence of alterations in locomotor activity in stop null mice

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