Structural and Functional Abnormalities in the Olfactory System of Fragile X Syndrome Models.

Bodaleo, Felipe; Tapia-Monsalves, Carola; Cea-Del Rio, Christian; Gonzalez-Billault, Christian; Nunez-Parra, Alexia

Bodaleo, Felipe; Tapia-Monsalves, Carola; Cea-Del Rio, Christian; Gonzalez-Billault, Christian; Nunez-Parra, Alexia.

Afiliação

Bodaleo F; Laboratory of Cellular and Neuronal Dynamics, Department of Biology, Faculty of Science, Universidad de Chile, Santiago, Chile.
Tapia-Monsalves C; Geroscience Center for Brain Health and Metabolism (GERO), Santiago, Chile.
Cea-Del Rio C; Biomedical Research Center, Universidad Autónoma de Chile, Santiago, Chile.
Gonzalez-Billault C; Laboratory of Neurophysiopathology, Centro de Investigacion Biomedica y Aplicada (CIBAP), School of Medicine, Universidad de Santiago de Chile, Santiago, Chile.
Nunez-Parra A; Laboratory of Cellular and Neuronal Dynamics, Department of Biology, Faculty of Science, Universidad de Chile, Santiago, Chile.

Front Mol Neurosci ; 12: 135, 2019.

Article em En | MEDLINE | ID: mdl-31191246

RESUMO

Fragile X Syndrome (FXS) is the most common inherited form of intellectual disability. It is produced by mutation of the Fmr1 gene that encodes for the Fragile Mental Retardation Protein (FMRP), an important RNA-binding protein that regulates the expression of multiple proteins located in neuronal synapses. Individuals with FXS exhibit abnormal sensory information processing frequently leading to hypersensitivity across sensory modalities and consequently a wide array of behavioral symptoms. Insects and mammals engage primarily their sense of smell to create proper representations of the external world and guide adequate decision-making processes. This feature in combination with the exquisitely organized neuronal circuits found throughout the olfactory system (OS) and the wide expression of FMRP in brain regions that process olfactory information makes it an ideal model to study sensory alterations in FXS models. In the last decade several groups have taken advantage of these features and have used the OS of fruit fly and rodents to understand neuronal alteration giving rise to sensory perception issues. In this review article, we will discuss molecular, morphological and physiological aspects of the olfactory information processing in FXS models. We will highlight the decreased inhibitory/excitatory synaptic balance and the diminished synaptic plasticity found in this system resulting in behavioral alteration of individuals in the presence of odorant stimuli.

Palavras-chave

FMRP; Fmr1-KO; dfmr1; excitation/inhibition balance; olfactory behavior; olfactory coding; structural plasticity

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Revista: Front Mol Neurosci Ano de publicação: 2019 Tipo de documento: Article País de afiliação: Chile País de publicação: Suíça

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