Cellular and molecular properties of neural progenitors in the developing mammalian hypothalamus

Xin Zhou,Zeyuan Liu,Honghai Peng,Qiang Ma,Qian Wu,Ruiguo Chen,Suijuan Zhong,Wenyu Ding,Le Sun,Xiaoqun Wang,Jing Liu

doi:10.1038/s41467-020-17890-2

Abstract

The neuroendocrine hypothalamus is the central regulator of vital physiological homeostasis and behavior. However, the cellular and molecular properties of hypothalamic neural progenitors remain unexplored. Here, hypothalamic radial glial (hRG) and hypothalamic mantle zone radial glial (hmRG) cells are found to be neural progenitors in the developing mammalian hypothalamus. The hmRG cells originate from hRG cells and produce neurons. During the early development of hypothalamus, neurogenesis occurs in radial columns and is initiated from hRG cells. The radial glial fibers are oriented toward the locations of hypothalamic subregions which act as a scaffold for neuronal migration. Furthermore, we use single-cell RNA sequencing to reveal progenitor subtypes in human developing hypothalamus and characterize specific progenitor genes, such as TTYH1, HMGA2, and FAM107A. We also demonstrate that HMGA2 is involved in E2F1 pathway, regulating the proliferation of progenitor cells by targeting on the downstream MYBL2. Different neuronal subtypes start to differentiate and express specific genes of hypothalamic nucleus at gestational week 10. Finally, we reveal the developmental conservation of nuclear structures and marker genes in mouse and human hypothalamus. Our identification of cellular and molecular properties of neural progenitors provides a basic understanding of neurogenesis and regional formation of the non-laminated hypothalamus.

Highlights

The neuroendocrine hypothalamus is the central regulator of vital physiological homeostasis and behavior
Other than traditional hypothalamic radial glial cells, which are predominantly located in the ventricular zone (VZ) in proximity to the third ventricle, we found RG-like cells with only a basal process in mantle zone (MZ), which are named as hypothalamic mantle zone radial glial cells
DiI-labeled cells in the VZ showed a typical neocortical RG-like morphology, with a short apical process extending to the VZ surface with an endfoot and a long fine basal process protruding to the pial surface in the developing mouse and human hypothalamus

Summary

Introduction

The neuroendocrine hypothalamus is the central regulator of vital physiological homeostasis and behavior. Hypothalamic radial glial (hRG) and hypothalamic mantle zone radial glial (hmRG) cells are found to be neural progenitors in the developing mammalian hypothalamus. We use single-cell RNA sequencing to reveal progenitor subtypes in human developing hypothalamus and characterize specific progenitor genes, such as TTYH1, HMGA2, and FAM107A. Different neuronal subtypes start to differentiate and express specific genes of hypothalamic nucleus at gestational week 10. The hmRG cells are generated from hRG cells and functioned as neural progenitors to produce neurons. We identify specific marker genes expressed in different subtypes of progenitor cells in the human hypothalamus. Progenitor subtypes characterized as hRG are predicted to generate diverse neuronal progenies that contribute to multiple nuclei formation. This study reveals the cellular and molecular features of different types of hypothalamic neural progenitor cells, elaborating the mechanism of hypothalamic neurogenesis

Methods

Results

Conclusion