Abstract
BackgroundCell types in ventral midbrain are involved in diseases with variable genetic susceptibility, such as Parkinson’s disease and schizophrenia. Many genetic variants affect regulatory regions and alter gene expression in a cell-type-specific manner depending on the chromatin structure and accessibility.ResultsWe report 20,658 single-nuclei chromatin accessibility profiles of ventral midbrain from two genetically and phenotypically distinct mouse strains. We distinguish ten cell types based on chromatin profiles and analysis of accessible regions controlling cell identity genes highlights cell-type-specific key transcription factors. Regulatory variation segregating the mouse strains manifests more on transcriptome than chromatin level. However, cell-type-level data reveals changes not captured at tissue level. To discover the scope and cell-type specificity of cis-acting variation in midbrain gene expression, we identify putative regulatory variants and show them to be enriched at differentially expressed loci. Finally, we find TCF7L2 to mediate trans-acting variation selectively in midbrain neurons.ConclusionsOur data set provides an extensive resource to study gene regulation in mesencephalon and provides insights into control of cell identity in the midbrain and identifies cell-type-specific regulatory variation possibly underlying phenotypic and behavioural differences between mouse strains.
Highlights
Cell types in ventral midbrain are involved in diseases with variable genetic susceptibility, such as Parkinson’s disease and schizophrenia
Single‐nuclei chromatin profiles of ventral midbrain and identification of major cell types in two mouse strains To unravel the cell-type-specific gene regulation in midbrain, and how it impacts genetic regulatory variation, we performed ATAC sequencing at single-nuclei level on dissected midbrains from two genetically distinct mouse strains, C57BL/6J and A/J (Fig. 1, Additional file 1: Figure S1)
The bulk chromatin accessibility profile aggregated across single nuclei from C57BL/6J showed a total of 231,390 peaks
Summary
Cell types in ventral midbrain are involved in diseases with variable genetic susceptibility, such as Parkinson’s disease and schizophrenia. The ventral midbrain, or mesencephalon, is one of the most evolutionary conserved brain structures in mammals [1] It is involved in tasks such as processing of sensory information and eliciting motor and cognitive control through dopaminergic circuits [1]. Transcriptomic analysis at single cell level has identified 20 cell types and 58 subtypes in ventral midbrain [8]. These unique gene expression profiles defining cell state and cellular identity are controlled by epigenetic mechanisms and achieved by dynamic interplay between chromatin and expressed transcription factors (TFs).
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