Nature Communications (Aug 2023)

Cellular profiling of a recently-evolved social behavior in cichlid fishes

  • Zachary V. Johnson,
  • Brianna E. Hegarty,
  • George W. Gruenhagen,
  • Tucker J. Lancaster,
  • Patrick T. McGrath,
  • Jeffrey T. Streelman

DOI
https://doi.org/10.1038/s41467-023-40331-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 19

Abstract

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Abstract Social behaviors are diverse in nature, but it is unclear how conserved genes, brain regions, and cell populations generate this diversity. Here we investigate bower-building, a recently-evolved social behavior in cichlid fishes. We use single nucleus RNA-sequencing in 38 individuals to show signatures of recent behavior in specific neuronal populations, and building-associated rebalancing of neuronal proportions in the putative homolog of the hippocampal formation. Using comparative genomics across 27 species, we trace bower-associated genome evolution to a subpopulation of glia lining the dorsal telencephalon. We show evidence that building-associated neural activity and a departure from quiescence in this glial subpopulation together regulate hippocampal-like neuronal rebalancing. Our work links behavior-associated genomic variation to specific brain cell types and their functions, and suggests a social behavior has evolved through changes in glia.