Journal
JOURNAL OF NEUROSCIENCE
Volume 39, Issue 1, Pages 125-139Publisher
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.1613-18.2018
Keywords
barrel cortex; interneurons; layer 1; neocortex; top-down modulation
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Funding
- National Institutes of Health [P01NS074972, F31NS106793]
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Sensory perception depends on neocortical computations that contextually adjust sensory signals in different internal and environmental contexts. Neocortical layer 1 (L1) is the main target of cortical and subcortical inputs that provide top-down information for context-dependent sensory processing. Although L1 is devoid of excitatory cells, it contains the distal tuft dendrites of pyramidal cells (PCs) located in deeper layers. L1 also contains a poorly characterized population of GABAergic interneurons (INs), which regulate the impact that different top-down inputs have on PCs. A poor comprehension of L1 IN subtypes and how they affect PC activity has hampered our understanding of the mechanisms that underlie contextual modulation of sensory processing. We used novel genetic strategies in male and female mice combined with electrophysiological and morphological methods to help resolve differences that were unclear when using only electrophysiological and/or morphological approaches. We discovered that L1 contains four distinct populations of INs, each with a unique molecular profile, morphology, and electrophysiology, including a previously overlooked IN population (named here canopy cells) representing 40% of L1 INs. In contrast to what is observed in other layers, most L1 neurons appear to be unique to the layer, highlighting the specialized character of the signal processing that takes place in L1. This new understanding of INs in L1, as well as the application of genetic methods based on the markers described here, will enable investigation of the cellular and circuit mechanisms of top-down processing in L1 with unprecedented detail.
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