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Πέμπτη 14 Ιουνίου 2018

Corticostriatal Transmission Is Selectively Enhanced in Striatonigral Neurons with Postnatal Loss of Tsc1

Publication date: 12 June 2018
Source:Cell Reports, Volume 23, Issue 11
Author(s): Katelyn N. Benthall, Stacie L. Ong, Helen S. Bateup
mTORC1 is a central signaling hub that integrates intra- and extracellular signals to regulate a variety of cellular metabolic processes. Mutations in regulators of mTORC1 lead to neurodevelopmental disorders associated with autism, which is characterized by repetitive, inflexible behaviors. These behaviors may result from alterations in striatal circuits that control motor learning and habit formation. However, the consequences of mTORC1 dysregulation on striatal neuron function are largely unknown. To investigate this, we deleted the mTORC1 negative regulator Tsc1 from identified striatonigral and striatopallidal neurons and examined how cell-autonomous upregulation of mTORC1 activity affects their morphology and physiology. We find that loss of Tsc1 increases the excitability of striatonigral, but not striatopallidal, neurons and selectively enhances corticostriatal synaptic transmission. These findings highlight the critical role of mTORC1 in regulating striatal activity in a cell type- and input-specific manner, with implications for striatonigral pathway dysfunction in neuropsychiatric disease.

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Teaser

Benthall et al. demonstrate that postnatal deletion of the autism-risk gene Tsc1 causes cell-type-specific changes in striatal neuron morphology and physiology. They find that Tsc1 KO striatonigral, but not striatopallidal, neurons are hyperexcitable and have enhanced cortical excitatory synaptic transmission in the absence of changes to inhibition.


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