PT  - JOURNAL ARTICLE
AU  - Yukihiko Noro
AU  - Hiroshi Shimizu
AU  - Katsuhiko Mineta
AU  - Takashi Gojobori
TI  - A single neuron subset governs a single coactive neuron circuit in &lt;em&gt;Hydra vulgaris&lt;/em&gt;, representing a prototypic feature of neural evolution
AID  - 10.1101/2020.11.22.392985
DP  - 2020 Jan 01
TA  - bioRxiv
PG  - 2020.11.22.392985
4099  - http://biorxiv.org/content/early/2020/11/22/2020.11.22.392985.short
4100  - http://biorxiv.org/content/early/2020/11/22/2020.11.22.392985.full
AB  - The last common ancestor of Bilateria and Cnidaria is believed to be one of the first animals to develop a nervous system over 500 million years ago. Many of the genes involved in the neural function of the advanced nervous system in Bilateria are well conserved in Cnidaria1. Thus, Cnidarian representative species, Hydra, is considered to be a living fossil and a good model organism for the study of the putative primitive nervous system in its last common ancestor. The diffuse nervous system of Hydra consists of several peptidergic neuron subsets. However, the specific functions of these subsets remain unclear. Using calcium imaging, here we show that the neuron subsets that express neuropeptide, Hym-1762,3 function as motor neurons to evoke longitudinal contraction. We found that all neurons in a subset defined by the Hym-176 gene (Hym-176A) or its paralogs (Hym-176B) expression4 are excited simultaneously, which is then followed by longitudinal contraction. This indicates not only that these neuron subsets are motor neurons but also that a single molecularly defined neuron subset forms a single coactive motor circuit. This is in contrast with the Bilaterian nervous system, where a single molecularly defined neuron subset harbors multiple coactive circuits, showing a mixture of neurons firing with different timings5. Furthermore, we found that the two motor circuits, one expressing Hym-176B in the body column and the other expressing Hym-176A in the foot, are coordinately regulated to exert region-specific contraction. Our results demonstrate that one neuron subset is likely to form a monofunctional circuit as a minimum functional unit to build a more complex behavior in Hydra. We propose that this simple feature (one subset, one circuit, one function) found in Hydra is a fundamental trait of the primitive nervous system.Competing Interest StatementThe authors have declared no competing interest.