RRC ID 88199
著者 Romanov RA, Zeisel A, Bakker J, Girach F, Hellysaz A, Tomer R, Alpár A, Mulder J, Clotman F, Keimpema E, Hsueh B, Crow AK, Martens H, Schwindling C, Calvigioni D, Bains JS, Máté Z, Szabó G, Yanagawa Y, Zhang MD, Rendeiro A, Farlik M, Uhlén M, Wulff P, Bock C, Broberger C, Deisseroth K, Hökfelt T, Linnarsson S, Horvath TL, Harkany T.
タイトル Molecular interrogation of hypothalamic organization reveals distinct dopamine neuronal subtypes.
ジャーナル Nat Neurosci
Abstract The hypothalamus contains the highest diversity of neurons in the brain. Many of these neurons can co-release neurotransmitters and neuropeptides in a use-dependent manner. Investigators have hitherto relied on candidate protein-based tools to correlate behavioral, endocrine and gender traits with hypothalamic neuron identity. Here we map neuronal identities in the hypothalamus by single-cell RNA sequencing. We distinguished 62 neuronal subtypes producing glutamatergic, dopaminergic or GABAergic markers for synaptic neurotransmission and harboring the ability to engage in task-dependent neurotransmitter switching. We identified dopamine neurons that uniquely coexpress the Onecut3 and Nmur2 genes, and placed these in the periventricular nucleus with many synaptic afferents arising from neuromedin S+ neurons of the suprachiasmatic nucleus. These neuroendocrine dopamine cells may contribute to the dopaminergic inhibition of prolactin secretion diurnally, as their neuromedin S+ inputs originate from neurons expressing Per2 and Per3 and their tyrosine hydroxylase phosphorylation is regulated in a circadian fashion. Overall, our catalog of neuronal subclasses provides new understanding of hypothalamic organization and function.
巻・号 20(2)
ページ 176-188
公開日 2017-2-1
DOI 10.1038/nn.4462
PII nn.4462
PMID 27991900
PMC PMC7615022
MeSH Animals Dopamine / metabolism* Dopaminergic Neurons / metabolism* Hypothalamus / metabolism* Immunohistochemistry / methods Mice, Inbred C57BL Mice, Transgenic Neuropeptides / metabolism* Neurotransmitter Agents / physiology Suprachiasmatic Nucleus / metabolism Synaptic Transmission / physiology Tyrosine 3-Monooxygenase / metabolism*
IF 20.071
リソース情報
実験動物マウス RBRC02095