Litcius/Paper detail

High-throughput mapping of single-neuron projection and molecular features by retrograde barcoded labeling

Peibo Xu, Jian Peng, Tingli Yuan, Zhaoqin Chen, Hui He, Ziyan Wu, Ting Li, Xiaodong Li, Luyue Wang, Le Gao, Jun Yan, Wei Wu, Chengyu Li, Zhen‐Ge Luo, Yuejun Chen

2024eLife20 citationsDOIOpen Access PDF

Abstract

Deciphering patterns of connectivity between neurons in the brain is a critical step toward understanding brain function. Imaging-based neuroanatomical tracing identifies area-to-area or sparse neuron-to-neuron connectivity patterns, but with limited throughput. Barcode-based connectomics maps large numbers of single-neuron projections, but remains a challenge for jointly analyzing single-cell transcriptomics. Here, we established a rAAV2-retro barcode-based multiplexed tracing method that simultaneously characterizes the projectome and transcriptome at the single neuron level. We uncovered dedicated and collateral projection patterns of ventromedial prefrontal cortex (vmPFC) neurons to five downstream targets and found that projection-defined vmPFC neurons are molecularly heterogeneous. We identified transcriptional signatures of projection-specific vmPFC neurons, and verified Pou3f1 as a marker gene enriched in neurons projecting to the lateral hypothalamus, denoting a distinct subset with collateral projections to both dorsomedial striatum and lateral hypothalamus. In summary, we have developed a new multiplexed technique whose paired connectome and gene expression data can help reveal organizational principles that form neural circuits and process information.

Topics & Concepts

ConnectomicsConnectomeNeuroscienceNeuronTracingBiologyProjection (relational algebra)Computer scienceFunctional connectivityOperating systemAlgorithmSingle-cell and spatial transcriptomicsNeural dynamics and brain functionNeuroinflammation and Neurodegeneration Mechanisms