Early inflammation dysregulates neuronal circuit formation in vivo via upregulation of IL-1β.

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
Cynthia M SolekEdward S Ruthazer

Abstract

Neuro-immune interaction during development is strongly implicated in the pathogenesis of neurodevelopmental disorders, but the mechanisms that cause neuronal circuit dysregulation are not well understood. We performed in vivo imaging of the developing retinotectal system in the larval zebrafish to characterize the effects of immune system activation on refinement of an archetypal sensory processing circuit. Acute inflammatory insult induced hyper-dynamic remodeling of developing retinal axons in larval fish and increased axon arbor elaboration over days. Using calcium imaging in GCaMP6s transgenic fish we showed that these morphological changes were accompanied by a shift toward decreased visual acuity in tectal cells. This finding was supported by poorer performance in a visually guided behavioral task. We further found that the pro-inflammatory cytokine, interleukin-1β (IL-1β) is upregulated by the inflammatory insult, and that down-regulation of IL-1β abrogated the effects of inflammation on axonal dynamics and growth. Moreover, baseline branching of the RGC arbors in IL-1β morphant animals was significantly different from that in control larvae, and their performance in a predation assay was impaired, indicating a role for...Continue Reading

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