Cellular composition and circuit organization of mouse locus coeruleus
Data files
Apr 03, 2023 version files 40.44 MB
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LC_morphology.rar
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Neuron_Research.rar
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README_new.docx
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TracesFigure4.rar
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TracesFigure6.rar
Abstract
The locus coeruleus (LC) houses the vast majority of noradrenergic neurons in the brain and regulates many fundamental functions including fight and flight response, attention control, and sleep/wake cycles. While efferent projections of the LC have been extensively investigated, little is known about its local circuit organization. Here, we performed large-scale multi-patch recordings of noradrenergic neurons in adult mouse LC to profile their morpho-electric properties while simultaneously examining their interactions. LC noradrenergic neurons are diverse and could be classified into two major morpho-electric types. While fast excitatory synaptic transmission among LC noradrenergic neurons was not observed in our preparation, these mature LC neurons connected via gap junction at a rate similar to their early developmental stage and comparable to other brain regions. Most electrical connections form between dendrites and are restricted to narrowly spaced pairs or small clusters of neurons of the same type. In addition, more than two electrically coupled cell pairs were often identified across a cohort of neurons from individual multi-cell recording sets that followed a chain-like organizational pattern. The assembly of LC noradrenergic neurons thus follows a spatial and cell type-specific wiring principle that may be imposed by a unique chain-like rule.
Methods
Slice electrophysiology, morphology reconstruction,computation modeling
Usage notes
MS Excel, Neurolucida Explorer (https://www.mbfbioscience.com/products/neurolucida-explorer), MATLAb (R2021a, The Mathworks, Natick, MA)