RESUMO
Brain nuclei are traditionally defined by their anatomy, activity, and expression of specific markers. The hypothalamus contains discrete neuronal populations that coordinate fundamental behavioral functions, including sleep and wakefulness, in all vertebrates. Particularly, the diverse roles of hypocretin/orexin (Hcrt)-releasing neurons suggest functional heterogeneity among Hcrt neurons. Using single-cell RNA sequencing (scRNA-seq) and high-resolution imaging of the adult male and female zebrafish hypothalamic periventricular zone (PVZ), we identified 21 glutamatergic and 28 GABAergic cell types. Integration of zebrafish and mouse scRNA-seq revealed evolutionary conserved and divergent hypothalamic cell types. The expression of specific genes, including npvf, which encodes a sleep-regulating neuropeptide, was enriched in subsets of glutamatergic Hcrt neurons in both larval and adult zebrafish. The genetic profile, activity, and neurite processing of the neuronal subpopulation that co-expresses both Hcrt and Npvf (Hcrt+Npvf+) differ from other Hcrt neurons. These inter-species findings provide a unified annotation of hypothalamic cell types, and suggest that the heterogeneity of Hcrt neurons enables multi-functionality, such as consolidation of both wake and sleep by the Hcrt- and Npvf-releasing neuronal subpopulation.Significance Statement The study reveals the intricate heterogeneity within the hypothalamic periventricular zone (PVZ) of zebrafish, identifying 21 glutamatergic and 28 GABAergic cell types through single-cell RNA sequencing (scRNA-seq) and high-resolution imaging. Comparative analysis with mouse scRNA-seq data revealed conserved and divergent cell types, transcriptional regulatory mechanisms, and neuropeptide localization. Notably, we identified a unique neuronal subpopulation co-expressing both hypocretin/orexin (Hcrt) and neuropeptide VF (Npvf) neuropeptides in zebrafish. The distinct genetic profiles, activity patterns, and neurite processing of this subpopulation suggest a role in regulating both sleep and wakefulness.