Single cell chromatin accessibility reveals regulatory elements and developmental trajectories in the embryonic forebrain

While epigenetic modifications are critical for cell state changes throughout development, a detailed characterization of chromatin accessibility during neurogenesis has not been explored. We collected single-cell chromatin accessibility profiles from four distinct neurogenic regions of the embryonic mouse forebrain using single nuclei ATAC-Seq (snATAC-Seq). We identified thousands of differentially accessible peaks, many restricted to distinct progenitor cell types or brain regions. Integrating snATAC-Seq and transcriptome data, we characterized changes of chromatin accessibility at enhancers and promoters that were tightly coupled to transcript abundance during neurodevelopment. Integrating chromatin accessibility profiles from embryonic and adult interneurons with the iPSYCH2012 dataset revealed several disease-associated polymorphisms overlapped with accessible regions in embryonic cells. These findings highlight a diverse chromatin landscape in embryonic neural progenitors, extensive coordination between chromatin accessibility and gene expression during neuron fate determination, and open the door for future studies to define critical enhancer-promoter interactions that direct cell fate decisions.