Journal
EMBO JOURNAL
Volume 42, Issue 1, Pages -Publisher
WILEY
DOI: 10.15252/embj.2021110565
Keywords
3D; ChAT; deprivation; interneurons; reconstruction
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This study investigated the morphology and transcriptional diversity of cortical cholinergic VIP/ChAT interneurons (VChIs) and identified two distinct morphological types. After whisker deprivation, changes in dendritic arborization, cortical depth, and distribution patterns were observed in the barrel fields. The researchers also discovered key regulatory factors involved in morphological changes using a method for isolating nuclei from fixed tissues.
Cortical neuronal networks control cognitive output, but their composition and modulation remain elusive. Here, we studied the morphological and transcriptional diversity of cortical cholinergic VIP/ChAT interneurons (VChIs), a sparse population with a largely unknown function. We focused on VChIs from the whole barrel cortex and developed a high-throughput automated reconstruction framework, termed PopRec, to characterize hundreds of VChIs from each mouse in an unbiased manner, while preserving 3D cortical coordinates in multiple cleared mouse brains, accumulating thousands of cells. We identified two fundamentally distinct morphological types of VChIs, bipolar and multipolar that differ in their cortical distribution and general morphological features. Following mild unilateral whisker deprivation on postnatal day seven, we found after three weeks both ipsi- and contralateral dendritic arborization differences and modified cortical depth and distribution patterns in the barrel fields alone. To seek the transcriptomic drivers, we developed NuNeX, a method for isolating nuclei from fixed tissues, to explore sorted VChIs. This highlighted differentially expressed neuronal structural transcripts, altered exitatory innervation pathways and established Elmo1 as a key regulator of morphology following deprivation.
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