Cyfip2 mediates sensorimotor integration of visual input through Rac1-dependent actin remodeling

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This study investigated how the zebrafish gene cyfip2, a regulator of actin dynamics and mRNA translation, shapes visual sensorimotor circuit development underlying visuomotor behaviors. Using cyfip2 mutants, the authors measured multiple visually mediated behaviors, brain-wide neuronal activity, and conditional rescue, finding that mutants had severe prey capture and dark/light flash response deficits despite normal optokinetic responses, consistent with intact retinal phototransduction but impaired downstream integration; neuronal activity in the optic tectum was reduced (phospho-ERK and pan-neuronal calcium). Temporal control of Cyfip2 expression identified a critical 30–50 hours post-fertilization window in which Cyfip2 acts via Rac1-dependent actin polymerization rather than FMRP-mediated translation, and the authors focused on larval zebrafish physiology as the main system. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract Sensorimotor integration of visual input is essential for adaptive behaviors such as navigation, hunting, and escape from danger, yet our understanding of the developmental mechanisms that assemble these visuomotor circuits remains incomplete. Cytoplasmic FMRP-interacting protein 2 (cyfip2) is a key factor in retinotectal axon guidance in zebrafish larvae, and it has conserved roles in regulating actin dynamics and mRNA translation. Variants in human CYFIP2 cause neurodevelopmental disabilities including vision deficits, but how it functions to shape visually-driven behavior is unclear. Here we measured multiple visually-mediated behaviors, brain-wide activity, and conditional rescue of behavioral defects in larval zebrafish to define cyfip2’s roles in assembling visual sensorimotor circuits. cyfip2 mutants display severe deficits in prey capture and dark and light flash responses, despite normal optokinetic responses, indicating intact retinal phototransduction but disrupted downstream sensorimotor integration. Both spontaneous and stimulus-evoked neuronal activity are reduced in the optic tectum of cyfip2 mutants, as measured by phospho-ERK immunostaining and pan-neuronal calcium, consistent with impaired functional input from retinal ganglion cells. Finally, using conditional transgenic alleles to temporally control Cyfip2 expression, we identified a critical window from 30-50 hours post-fertilization during which Cyfip2 acts through Rac1-dependent actin polymerization but not FMRP-mediated translation to establish visual behavior circuits. Together, these findings define how and when Cyfip2 acts as a critical organizer of vertebrate visual circuit development, providing mechanistic insight into the visual and motor deficits in human subjects with variants in CYFIP2. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00