Spatially patterned excitatory neuron subtypes and circuits within the claustrum

Abstract

ABSTRACTThe claustrum is a functionally and structurally complex brain region, whose very spatial extent remains debated. Histochemical-based approaches typically treat the claustrum as a relatively narrow region that primarily projects to the neocortex, whereas circuit-based approaches suggest a broader region embedding neocortical and other neural circuits. Here, we took a bottom-up, cell-type-specific approach to complement and possibly unite these seemingly disparate conclusions. Using single-cell RNA-sequencing, we found that the claustrum is comprised of two excitatory neuron subtypes that are differentiable from the surrounding cortex. Multicolor retrograde tracing in conjunction with 12-channel multiplexedin situhybridization revealed a core-shell spatial arrangement of these subtypes, as well as differential projection targets. Thus, the claustrum is comprised of excitatory neuron subtypes with distinct molecular and circuit properties, whose spatial patterns reflect the narrower and broader claustral extents debated in previous research. This subtype-specific heterogeneity likely shapes the functional complexity of the claustrum.