Astrocyte-secreted thrombospondin-1 modulates synapse and spine defects in the fragile X mouse model

Astrocyte-secreted thrombospondin-1 modulates synapse and spine defects in the fragile X mouse model

Astrocytes are key participants in various aspects of brain development and function, many of which are executed via secreted proteins. Defects in astrocyte signaling are implicated in neurodevelopmental disorders characterized by abnormal neural circuitry such as Fragile X syndrome (FXS). In animal...

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Bibliographic Details
Published in:Molecular brain Vol. 9; no. 1; p. 74
Main Authors: Cheng, Connie, Lau, Sally K M, Doering, Laurie C
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 02-08-2016
BioMed Central
Subjects:
Animals
Astrocytes
Astrocytes - secretion
Cellular signal transduction
Culture Media, Conditioned - pharmacology
Dendrites - drug effects
Dendrites - metabolism
Disease Models, Animal
Feeder Cells - metabolism
Female
Fragile X syndrome
Fragile X Syndrome - metabolism
Fragile X Syndrome - pathology
Hippocampus - pathology
Male
Mice, Knockout
Spine - drug effects
Spine - pathology
Synapses
Synapses - drug effects
Synapses - metabolism
Synapses - pathology
Thrombospondin 1 - metabolism
Thrombospondin-1
Autism
Dendritic spines
Astrocytes
Fragile X syndrome
Secreted factor
Synapses
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Summary:Astrocytes are key participants in various aspects of brain development and function, many of which are executed via secreted proteins. Defects in astrocyte signaling are implicated in neurodevelopmental disorders characterized by abnormal neural circuitry such as Fragile X syndrome (FXS). In animal models of FXS, the loss in expression of the Fragile X mental retardation 1 protein (FMRP) from astrocytes is associated with delayed dendrite maturation and improper synapse formation; however, the effect of astrocyte-derived factors on the development of neurons is not known. Thrombospondin-1 (TSP-1) is an important astrocyte-secreted protein that is involved in the regulation of spine development and synaptogenesis. In this study, we found that cultured astrocytes isolated from an Fmr1 knockout (Fmr1 KO) mouse model of FXS displayed a significant decrease in TSP-1 protein expression compared to the wildtype (WT) astrocytes. Correspondingly, Fmr1 KO hippocampal neurons exhibited morphological deficits in dendritic spines and alterations in excitatory synapse formation following long-term culture. All spine and synaptic abnormalities were prevented in the presence of either astrocyte-conditioned media or a feeder layer derived from FMRP-expressing astrocytes, or following the application of exogenous TSP-1. Importantly, this work demonstrates the integral role of astrocyte-secreted signals in the establishment of neuronal communication and identifies soluble TSP-1 as a potential therapeutic target for Fragile X syndrome.
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ISSN:1756-6606
1756-6606
DOI:10.1186/s13041-016-0256-9