Patrick Rebernik scite author profile

A wealth of specialized neuroendocrine command systems intercalated within the hypothalamus control the most fundamental physiological needs 1 , 2 . Nevertheless, a developmental blueprint integrating molecular determinants of neuronal and glial diversity along temporal and spatial scales of hypothalamus development remains unresolved 3 . Here, we combine single-cell RNA-seq on 51,199 cells of ectodermal origin, gene regulatory network (GRN) screens in conjunction with GWAS-based disease phenotyping and genetic lineage reconstruction to show that 9 glial and 33 neuronal subtypes are generated by mid-gestation under the control of distinct GRNs. Combinatorial molecular codes arising from neurotransmitters, neuropeptides and transcription factors are minimally required to decode the taxonomical hierarchy of hypothalamic neurons. Differentiation of GABA and dopamine but not glutamate neurons relies on quasi-stable intermediate states with a pool of GABA progenitors giving rise to dopamine cells 4 . An unexpected abundance of chemotropic proliferation and guidance cues commonly implicated in dorsal (cortical) patterning 5 was found in the hypothalamus. Particularly, Slit / Robo loss-of-function impacted both the production and positioning of periventricular dopamine neurons. Overall, we uncover molecular principles shaping the developmental architecture of the hypothalamus and show how neuronal heterogeneity is transformed into a multimodal neural unit to endow a virtually infinite adaptive potential throughout life.

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Zinc regulates the dopamine transporter in a membrane potential and chloride dependent manner

Pifl

Wolf

Rebernik

et al. 2009

Neuropharmacology

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NMDA receptor affinities of 1,2-diphenylethylamine and 1-(1,2-diphenylethyl)piperidine enantiomers and of related compounds

Berger¹,

Schweifer²,

Rebernik³

et al. 2009

Bioorganic & Medicinal Chemistry

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Zn2+ modulates currents generated by the dopamine transporter: parallel effects on amphetamine-induced charge transfer and release

et al. 2004

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The noradrenaline transporter as site of action for the anti-Parkinson drug amantadine

et al. 2012

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