Basnak, M.A., Kutschireiter, A., Okubo, T.S. et al. Multimodal cue integration and learning in a neural representation of head direction. Nat Neurosci 28, 1729–1740 (2025). https://doi.org/10.1038/s41593-024-01823-z

Abstract
“Navigation requires us to take account of multiple spatial cues with varying levels of informativeness and learn their spatial relationships. Here we investigate this process in the Drosophila head direction system, which functions as a ring attractor and a topographic map of head direction. Using population calcium imaging and multimodal virtual reality environments, we show that increasing cue informativeness improves encoding accuracy and produces a narrower and higher bump of activity. When cues conflict, the more informative cue exerts more weight. A familiar cue is weighted more heavily and used to guide the remapping of a less familiar cue. When a cue is less informative, it is remapped more readily in response to cue conflict. All these results can be explained by an attractor model with plastic sensory synapses. Our findings provide a mechanistic explanation for how the brain assembles spatial representations through inference and learning.”

Basnak, M.A., Kutschireiter, A., Okubo, T.S. et al. Multimodal cue integration and learning in a neural representation of head direction. Nat Neurosci 28, 1729–1740 (2025). https://doi.org/10.1038/s41593-024-01823-z