Animals have evolved specialized neural circuits to defend themselves from pain-and injurycausing stimuli. Using a combination of optical, behavioral and genetic approaches in the larval zebrafish, we describe a novel role for hypothalamic oxytocin (OXT) neurons in the processing of noxious stimuli. In vivo imaging reveals that a large and distributed fraction of zebrafish OXT Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:
Summary
Postembryonic neurogenesis has been observed in several regions of the vertebrate brain, including the dentate gyrus and rostral migratory stream in mammals, and is required for normal behavior [1–3]. Recently the hypothalamus has also been shown to undergo continuous neurogenesis as a way to mediate energy balance [4–10]. As the hypothalamus regulates multiple functional outputs, it is likely that additional behaviors may be affected by postembryonic neurogenesis in this brain structure. Here, we have identified a progenitor population in the zebrafish hypothalamus that continuously generates neurons that express tyrosine hydroxylase 2 (th2). We develop and use novel transgenic tools to characterize the lineage of th2+ cells and demonstrate that they are dopaminergic. Through genetic ablation and optogenetic activation we then show that th2+ neurons modulate the initiation of swimming behavior in zebrafish larvae. Finally we find that the generation of new th2+ neurons following ablation correlates with restoration of normal behavior. This work thus identifies for the first time a population of dopaminergic neurons that regulates motor behavior capable of functional recovery.
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