Visual recognition of social signals by a tecto-thalamic neural circuit

Social affiliation emerges from individual-level behavioral rules that are driven by conspecific signals[1][1]–[5][2]. Long-distance attraction and short-distance repulsion, for example, are rules that jointly set a preferred inter-animal distance in swarms[6][3]–[8][4]. However, little is known about their perceptual mechanisms and executive neuronal circuits[3][5]. Here we trace the neuronal response to self-like biological motion[9][6],[10][7] (BM), a visual trigger for affiliation in developing zebrafish[2][8],[11][9]. Unbiased activity mapping and targeted volumetric two-photon calcium imaging revealed 19 activity hotspots distributed throughout the brain and clustered BM-tuned neurons in a multimodal, socially activated nucleus of the dorsal thalamus (DT). Individual DT neurons encode fish-like local acceleration but are insensitive to global or continuous motion. Electron microscopic reconstruction of DT neurons revealed synaptic input from the optic tectum (TeO/superior colliculus) and projections into nodes of the conserved social behavior network[12][10],[13][11]. Chemogenetic ablation of the TeO selectively disrupted DT responses to BM and social attraction without affecting short-distance repulsion. Together, we discovered a tecto-thalamic pathway that drives a core network for social affiliation. Our findings provide an example of visual social processing, and dissociate neuronal control of attraction from repulsion during affiliation, thus revealing neural underpinnings of collective behavior. ### Competing Interest Statement The authors have declared no competing interest. [1]: #ref-1 [2]: #ref-5 [3]: #ref-6 [4]: #ref-8 [5]: #ref-3 [6]: #ref-9 [7]: #ref-10 [8]: #ref-2 [9]: #ref-11 [10]: #ref-12 [11]: #ref-13