Molecular, spatial, and functional single-cell profiling of the hypothalamic preoptic region.

IF: 63.714

Cited by: 689

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Abstract

The hypothalamus controls essential social behaviors and homeostatic functions. However, the cellular architecture of hypothalamic nuclei-including the molecular identity, spatial organization, and function of distinct cell types-is poorly understood. Here, we developed an imaging-based in situ cell-type identification and mapping method and combined it with single-cell RNA-sequencing to create a molecularly annotated and spatially resolved cell atlas of the mouse hypothalamic preoptic region. We profiled ~1 million cells, identified ~70 neuronal populations characterized by distinct neuromodulatory signatures and spatial organizations, and defined specific neuronal populations activated during social behaviors in male and female mice, providing a high-resolution framework for mechanistic investigation of behavior circuits. The approach described opens a new avenue for the construction of cell atlases in diverse tissues and organisms.

Keywords

smFISH

Gene Expression

MERFISH

ISS

Spatial Transcriptomics

MeSH terms

Animals

Atlases as Topic

Female

Galanin

Gene Expression Profiling

In Situ Hybridization, Fluorescence

Male

Mice

Neurons

Pituitary Adenylate Cyclase-Activating Polypeptide

Preoptic Area

Sequence Analysis, RNA

Single-Cell Analysis

Social Behavior

Authors

Moffitt, Jeffrey R

Bambah-Mukku, Dhananjay

Eichhorn, Stephen W

Vaughn, Eric

Shekhar, Karthik

Perez, Julio D

Rubinstein, Nimrod D

Hao, Junjie

Regev, Aviv

Dulac, Catherine

Zhuang, Xiaowei

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