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. 2025 Jan;28(1):174-188.
doi: 10.1038/s41593-024-01786-1. Epub 2024 Dec 18.

A single-cell mass cytometry-based atlas of the developing mouse brain

Amy L Van Deusen  1   2   3 Sushanth Kumar  1   2 O Yipkin Calhan  1 Sarah M Goggin  2   3 Jiachen Shi  1 Corey M Williams  3 Austin B Keeler  1 Kristen I Fread  3 Irene C Gadani  1   2 Christopher D Deppmann  4   5   6   7   8   9 Eli R Zunder  10   11   12
Affiliations

A single-cell mass cytometry-based atlas of the developing mouse brain

Amy L Van Deusen et al. Nat Neurosci. 2025 Jan.

Abstract

Development of the mammalian brain requires precise molecular changes across diverse cell lineages. While single-cell RNA abundances in the developing brain have been characterized by single-cell RNA sequencing (scRNA-seq), single-cell protein abundances have not been characterized. To address this gap, we performed mass cytometry on the whole brain at embryonic day (E)11.5-E12.5 and the telencephalon, the diencephalon, the mesencephalon and the rhombencephalon at E13.5-postnatal day (P)4 from C57/BL6 mice. Using a 40-antibody panel to analyze 24,290,787 cells from two to four biological replicates per sample, we identify 85 molecularly distinct cell clusters from distinct lineages. Our analyses confirm canonical molecular pathways of neurogenesis and gliogenesis, and predict two distinct trajectories for cortical oligodendrogenesis. Differences in protein versus RNA expression from mass cytometry and scRNA-seq, validated by immunohistochemistry and RNAscope in situ hybridization (ISH), demonstrate the value of protein-level measurements for identifying functional cell states. Our findings show the utility of mass cytometry as a scalable platform for single-cell profiling of brain tissues.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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