Abstract
Attractive growth cone turning requires Igf2bp1-dependent local translation of β-actin mRNA in response to external cues in vitro. While in vivo studies have shown that Igf2bp1 is required for cell migration and axon terminal branching, a requirement for Igf2bp1 function during axon outgrowth has not been demonstrated. Using a timelapse assay in the zebrafish retinotectal system, we demonstrate that the β-actin 3’UTR is sufficient to target local translation of the photoconvertible fluorescent protein Kaede in growth cones of pathfinding retinal ganglion cells (RGCs) in vivo. Igf2bp1 knockdown reduced RGC axonal outgrowth and tectal coverage and retinal cell survival. RGC-specific expression of a phosphomimetic Igf2bp1 reduced the density of axonal projections in the optic tract while sparing RGCs, demonstrating for the first time that Igf2bp1 is required during axon outgrowth in vivo. Therefore, regulation of local translation mediated by Igf2bp proteins may be required at all stages of axon development.
Highlights
IntroductionAxon development involves several distinct processes that depend on the influence of external cues during outgrowth (which includes axon formation [1,2,3] and extension [4]), pathfinding [5], and synapse formation [6]
Axon development involves several distinct processes that depend on the influence of external cues during outgrowth, pathfinding [5], and synapse formation [6]
Since the zebrafish retinotectal system offers unique in vivo imaging capabilities [33,34,35,36], we adapted this assay to investigate the importance of insulin-like growth factor 2 mRNA-binding protein 1 (Igf2bp1)-dependent local translation of β-actin during retinal ganglion cells (RGCs) axon pathfinding in the optic tracts of live Tg(isl2b:Kaede-β-actin3’UTR) transient transgenic embryos (Fig 1A–1L)
Summary
Axon development involves several distinct processes that depend on the influence of external cues during outgrowth (which includes axon formation [1,2,3] and extension [4]), pathfinding [5], and synapse formation [6]. Outgrowth is directed by the growth cone, which navigates by turning in response to external guidance cues [5]. Growth cone receptor signaling triggers asymmetric changes in actin dynamics within the growth cone that drive extension of filopodia in the direction of attractive cues [5,7]. Local translation of mRNAs in the growth cone facilitates a rapid turning response that is autonomous from the cell body [8,9,10,11]. Attractive growth cone turning requires local translation of β-actin, and insulin-like growth factor 2 mRNA-binding protein 1 (Igf2bp1) is a candidate mediator of this process. Igf2bp is PLOS ONE | DOI:10.1371/journal.pone.0134751 September 1, 2015
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