Estrogen regulates early embryonic development of the olfactory sensory system via estrogen responsive glia

Summary Estrogen is well-known to regulate development of sexual dimorphisms of the brain, however its role in the brain during early embryonic development prior to sex-differentiation is unclear. Using estrogen biosensor zebrafish models, we found that estrogen activity in the embryonic brain occurs specifically in a type of glia located within the OB, which we name estrogen-responsive olfactory bulb/EROB cells. With estrogen activity, EROB cells extend their ramified projections that overlay the OB outermost layer and tightly interact with olfactory sensory neurons (OSNs) at the olfactory glomeruli. Pharmacologically inhibiting estrogen activity and/or EROB cell ablation impedes olfactory glomerular development, including OSN pathfinding, topological organisation of olfactory glomeruli and inhibitory neurogenesis in the OB. Furthermore, activation of this estrogen/EROB-dependent mechanism decreases the intrinsic neuronal activity primarily in the OB, and this alteration of estrogen signalling disrupts olfaction-mediated behaviour. We propose that estrogen acts on glia to regulate development of functional OB circuits, thereby modulating the local intrinsic excitability in the OB and olfaction-mediated behaviour. Our data also suggest a possibility that the estrogen/EROB cascade may be an important site of action for environmental estrogens causative of neurodevelopmental impairments in animals and humans.