Project description:Spiny projection neurons (SPNs) of the striatum are critical in integrating neurochemical information to coordinate motor and reward-based behavior. Mutations in the regulatory transcription factors expressed in SPNs can result in neurodevelopmental disorders (NDDs). Paralogous transcription factorsFoxp1andFoxp2, which are both expressed in the dopamine receptor 1 (D1) expressing SPNs, are known to have variants implicated in NDDs. Utilizing mice with a D1-SPN specific loss ofFoxp1,Foxp2, or both and a combination of behavior, electrophysiology, and single-nuclei RNA (snRNA-seq) and single-nuclei Assay for Transposase-Accessible Chromatin sequencing (snATAC-seq), we find that loss of both genes results in impaired motor and social behavior as well as increased firing of the D1-SPNs. Differential gene expression analysis of snRNA-seq data implicates genes involved in autism risk, altered electrophysiological properties, and neuronal development and function. These data indicate complementary roles betweenFoxp1andFoxp2in the D1-SPNs.
Project description:This SuperSeries is composed of the following subset Series:; GSE9375: Striatal gene expression data from 12 months-old Hdh4/Q80 mice and control mice. GSE9857: Striatal gene expression data from 12 weeks-old R6/2 mice and control mice; GSE10202: Striatal gene expression data from 22-month-old CHL2 mice and control mice. Experiment Overall Design: Refer to individual Series
Project description:We cataloged miRNA expression in the nucleus accumbens and at striatal synapses in control and chronically cocaine-treated mice. We identified cocaine-responsive miRNAs, synaptically-enriched and depleted miRNA families, and confirmed cocaine-induced changes in protein expression for several predicted synaptic target genes.
Project description:Spiny projection neurons (SPNs) of the striatum are critical in integrating neurochemical information to coordinate motor and reward-based behavior. Mutations in the regulatory transcription factors expressed in SPNs can result in neurodevelopmental disorders (NDDs). Paralogous transcription factorsFoxp1andFoxp2, which are both expressed in the dopamine receptor 1 (D1) expressing SPNs, are known to have variants implicated in NDDs. Utilizing mice with a D1-SPN specific loss ofFoxp1,Foxp2, or both and a combination of behavior, electrophysiology, and single-nuclei RNA (snRNA-seq) and single-nuclei Assay for Transposase-Accessible Chromatin sequencing (snATAC-seq), we find that loss of both genes results in impaired motor and social behavior as well as increased firing of the D1-SPNs. Differential gene expression analysis of snRNA-seq data implicates genes involved in autism risk, altered electrophysiological properties, and neuronal development and function. These data indicate complementary roles betweenFoxp1andFoxp2in the D1-SPNs.
