Activity-dependent neuronal signalling and autism spectrum disorder

Daniel H. Ebert; Michael E. Greenberg

doi:10.1038/nature11860

Activity-dependent neuronal signalling and autism spectrum disorder

Daniel H. Ebert, Michael E. Greenberg

Research output: Contribution to journal › Review article › peer-review

366 Scopus citations

Abstract

Neuronal activity induces the post-translational modification of synaptic molecules, promotes localized protein synthesis within dendrites and activates gene transcription, thereby regulating synaptic function and allowing neuronal circuits to respond dynamically to experience. Evidence indicates that many of the genes that are mutated in autism spectrum disorder are crucial components of the activity-dependent signalling networks that regulate synapse development and plasticity. Dysregulation of activity-dependent signalling pathways in neurons may, therefore, have a key role in the aetiology of autism spectrum disorder.

Original language	English (US)
Pages (from-to)	327-337
Number of pages	11
Journal	Nature
Volume	493
Issue number	7432
DOIs	https://doi.org/10.1038/nature11860
State	Published - Jan 17 2013
Externally published	Yes

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title = "Activity-dependent neuronal signalling and autism spectrum disorder",

abstract = "Neuronal activity induces the post-translational modification of synaptic molecules, promotes localized protein synthesis within dendrites and activates gene transcription, thereby regulating synaptic function and allowing neuronal circuits to respond dynamically to experience. Evidence indicates that many of the genes that are mutated in autism spectrum disorder are crucial components of the activity-dependent signalling networks that regulate synapse development and plasticity. Dysregulation of activity-dependent signalling pathways in neurons may, therefore, have a key role in the aetiology of autism spectrum disorder.",

author = "Ebert, {Daniel H.} and Greenberg, {Michael E.}",

note = "Funding Information: Acknowledgements M.E.G. is supported by NIH grant RO1NS048276 and the Rett Syndrome Research Trust. D.H.E. is supported by NIH grant K08MH90306.",

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N2 - Neuronal activity induces the post-translational modification of synaptic molecules, promotes localized protein synthesis within dendrites and activates gene transcription, thereby regulating synaptic function and allowing neuronal circuits to respond dynamically to experience. Evidence indicates that many of the genes that are mutated in autism spectrum disorder are crucial components of the activity-dependent signalling networks that regulate synapse development and plasticity. Dysregulation of activity-dependent signalling pathways in neurons may, therefore, have a key role in the aetiology of autism spectrum disorder.

AB - Neuronal activity induces the post-translational modification of synaptic molecules, promotes localized protein synthesis within dendrites and activates gene transcription, thereby regulating synaptic function and allowing neuronal circuits to respond dynamically to experience. Evidence indicates that many of the genes that are mutated in autism spectrum disorder are crucial components of the activity-dependent signalling networks that regulate synapse development and plasticity. Dysregulation of activity-dependent signalling pathways in neurons may, therefore, have a key role in the aetiology of autism spectrum disorder.

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Activity-dependent neuronal signalling and autism spectrum disorder

Abstract

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