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Résultat de la recherche
2 recherche sur le mot-clé 'Calretinin'




Imbalance of laminar-specific excitatory and inhibitory circuits of the orbitofrontal cortex in autism / Xuefeng LIU in Molecular Autism, 11 (2020)
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Titre : Imbalance of laminar-specific excitatory and inhibitory circuits of the orbitofrontal cortex in autism Type de document : Texte imprimé et/ou numérique Auteurs : Xuefeng LIU, Auteur ; Julied BAUTISTA, Auteur ; Edward LIU, Auteur ; Basilis ZIKOPOULOS, Auteur Article en page(s) : 83 p. Langues : Anglais (eng) Mots-clés : Amygdala Calbindin Calretinin Cortical layers Emotions Inhibitory neurons Myelinated axons Parvalbumin Prefrontal cortex Social interactions Index. décimale : PER Périodiques Résumé : BACKGROUND: The human orbitofrontal cortex (OFC) is involved in assessing the emotional significance of events and stimuli, emotion-based learning, allocation of attentional resources, and social cognition. Little is known about the structure, connectivity and excitatory/inhibitory circuit interactions underlying these diverse functions in human OFC, as well as how the circuit is disrupted in individuals with autism spectrum disorder (ASD). METHODS: We used post-mortem brain tissue from neurotypical adults and individuals with ASD. We examined the morphology and distribution of myelinated axons across cortical layers in OFC, at the single axon level, as a proxy of excitatory pathways. In the same regions, we also examined the laminar distribution of all neurons and neurochemically- and functionally-distinct inhibitory neurons that express the calcium-binding proteins parvalbumin (PV), calbindin (CB), and calretinin (CR). RESULTS: We found that the density of myelinated axons increased consistently towards layer 6, while the average axon diameter did not change significantly across layers in both groups. However, both the density and diameter of myelinated axons were significantly lower in the ASD group compared with the Control group. The distribution pattern and density of the three major types of inhibitory neurons was comparable between groups, but there was a significant reduction in the density of excitatory neurons across OFC layers in ASD. LIMITATIONS: This study is limited by the availability of human post-mortem tissue optimally processed for high-resolution microscopy and immunolabeling, especially from individuals with ASD. CONCLUSIONS: The balance between excitation and inhibition in OFC is at the core of its function, assessing and integrating emotional and social cues with internal states and external inputs. Our preliminary results provide evidence for laminar-specific changes in the ratio of excitation/inhibition in OFC of adults with ASD, with an overall weakening and likely disorganization of excitatory signals and a relative strengthening of local inhibition. These changes likely underlie pathology of major OFC communications with limbic or other cortices and the amygdala in individuals with ASD, and may provide the anatomic basis for disrupted transmission of signals for social interactions and emotions in autism. En ligne : http://dx.doi.org/10.1186/s13229-020-00390-x Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=433
in Molecular Autism > 11 (2020) . - 83 p.[article] Imbalance of laminar-specific excitatory and inhibitory circuits of the orbitofrontal cortex in autism [Texte imprimé et/ou numérique] / Xuefeng LIU, Auteur ; Julied BAUTISTA, Auteur ; Edward LIU, Auteur ; Basilis ZIKOPOULOS, Auteur . - 83 p.
Langues : Anglais (eng)
in Molecular Autism > 11 (2020) . - 83 p.
Mots-clés : Amygdala Calbindin Calretinin Cortical layers Emotions Inhibitory neurons Myelinated axons Parvalbumin Prefrontal cortex Social interactions Index. décimale : PER Périodiques Résumé : BACKGROUND: The human orbitofrontal cortex (OFC) is involved in assessing the emotional significance of events and stimuli, emotion-based learning, allocation of attentional resources, and social cognition. Little is known about the structure, connectivity and excitatory/inhibitory circuit interactions underlying these diverse functions in human OFC, as well as how the circuit is disrupted in individuals with autism spectrum disorder (ASD). METHODS: We used post-mortem brain tissue from neurotypical adults and individuals with ASD. We examined the morphology and distribution of myelinated axons across cortical layers in OFC, at the single axon level, as a proxy of excitatory pathways. In the same regions, we also examined the laminar distribution of all neurons and neurochemically- and functionally-distinct inhibitory neurons that express the calcium-binding proteins parvalbumin (PV), calbindin (CB), and calretinin (CR). RESULTS: We found that the density of myelinated axons increased consistently towards layer 6, while the average axon diameter did not change significantly across layers in both groups. However, both the density and diameter of myelinated axons were significantly lower in the ASD group compared with the Control group. The distribution pattern and density of the three major types of inhibitory neurons was comparable between groups, but there was a significant reduction in the density of excitatory neurons across OFC layers in ASD. LIMITATIONS: This study is limited by the availability of human post-mortem tissue optimally processed for high-resolution microscopy and immunolabeling, especially from individuals with ASD. CONCLUSIONS: The balance between excitation and inhibition in OFC is at the core of its function, assessing and integrating emotional and social cues with internal states and external inputs. Our preliminary results provide evidence for laminar-specific changes in the ratio of excitation/inhibition in OFC of adults with ASD, with an overall weakening and likely disorganization of excitatory signals and a relative strengthening of local inhibition. These changes likely underlie pathology of major OFC communications with limbic or other cortices and the amygdala in individuals with ASD, and may provide the anatomic basis for disrupted transmission of signals for social interactions and emotions in autism. En ligne : http://dx.doi.org/10.1186/s13229-020-00390-x Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=433 Reduced conditioned fear response in mice that lack Dlx1 and show subtype-specific loss of interneurons / R. MAO in Journal of Neurodevelopmental Disorders, 1-3 (September 2009)
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Titre : Reduced conditioned fear response in mice that lack Dlx1 and show subtype-specific loss of interneurons Type de document : Texte imprimé et/ou numérique Auteurs : R. MAO, Auteur ; Damon T. PAGE, Auteur ; I. MERZLYAK, Auteur ; C. KIM, Auteur ; L. H. TECOTT, Auteur ; P. H. JANAK, Auteur ; J. L. RUBENSTEIN, Auteur ; M. SUR, Auteur Article en page(s) : p.224-36 Langues : Anglais (eng) Mots-clés : Associative learning Behavior Calretinin Fear conditioning GABAergic Hyperactivity Inhibitory Interneuron Neuropsychiatric disease Prepulse inhibition Index. décimale : PER Périodiques Résumé : UNLABELLED: The inhibitory GABAergic system has been implicated in multiple neuropsychiatric diseases such as schizophrenia and autism. The Dlx homeobox transcription factor family is essential for development and function of GABAergic interneurons. Mice lacking the Dlx1 gene have postnatal subtype-specific loss of interneurons and reduced IPSCs in their cortex and hippocampus. To ascertain consequences of these changes in the GABAergic system, we performed a battery of behavioral assays on the Dlx1 mutant mice, including zero maze, open field, locomotor activity, food intake, rotarod, tail suspension, fear conditioning assays (context and trace), prepulse inhibition, and working memory related tasks (spontaneous alteration task and spatial working memory task). Dlx1 mutant mice displayed elevated activity levels in open field, locomotor activity, and tail suspension tests. These mice also showed deficits in contextual and trace fear conditioning, and possibly in prepulse inhibition. Their learning deficits were not global, as the mutant mice did not differ from the wild-type controls in tests of working memory. Our findings demonstrate a critical role for the Dlx1 gene, and likely the subclasses of interneurons that are affected by the lack of this gene, in behavioral inhibition and associative fear learning. These observations support the involvement of particular components of the GABAergic system in specific behavioral phenotypes related to complex neuropsychiatric diseases. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s11689-009-9025-8) contains supplementary material, which is available to authorized users. En ligne : http://dx.doi.org/10.1007/s11689-009-9025-8 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=341
in Journal of Neurodevelopmental Disorders > 1-3 (September 2009) . - p.224-36[article] Reduced conditioned fear response in mice that lack Dlx1 and show subtype-specific loss of interneurons [Texte imprimé et/ou numérique] / R. MAO, Auteur ; Damon T. PAGE, Auteur ; I. MERZLYAK, Auteur ; C. KIM, Auteur ; L. H. TECOTT, Auteur ; P. H. JANAK, Auteur ; J. L. RUBENSTEIN, Auteur ; M. SUR, Auteur . - p.224-36.
Langues : Anglais (eng)
in Journal of Neurodevelopmental Disorders > 1-3 (September 2009) . - p.224-36
Mots-clés : Associative learning Behavior Calretinin Fear conditioning GABAergic Hyperactivity Inhibitory Interneuron Neuropsychiatric disease Prepulse inhibition Index. décimale : PER Périodiques Résumé : UNLABELLED: The inhibitory GABAergic system has been implicated in multiple neuropsychiatric diseases such as schizophrenia and autism. The Dlx homeobox transcription factor family is essential for development and function of GABAergic interneurons. Mice lacking the Dlx1 gene have postnatal subtype-specific loss of interneurons and reduced IPSCs in their cortex and hippocampus. To ascertain consequences of these changes in the GABAergic system, we performed a battery of behavioral assays on the Dlx1 mutant mice, including zero maze, open field, locomotor activity, food intake, rotarod, tail suspension, fear conditioning assays (context and trace), prepulse inhibition, and working memory related tasks (spontaneous alteration task and spatial working memory task). Dlx1 mutant mice displayed elevated activity levels in open field, locomotor activity, and tail suspension tests. These mice also showed deficits in contextual and trace fear conditioning, and possibly in prepulse inhibition. Their learning deficits were not global, as the mutant mice did not differ from the wild-type controls in tests of working memory. Our findings demonstrate a critical role for the Dlx1 gene, and likely the subclasses of interneurons that are affected by the lack of this gene, in behavioral inhibition and associative fear learning. These observations support the involvement of particular components of the GABAergic system in specific behavioral phenotypes related to complex neuropsychiatric diseases. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s11689-009-9025-8) contains supplementary material, which is available to authorized users. En ligne : http://dx.doi.org/10.1007/s11689-009-9025-8 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=341