SummaryLocal protein synthesis regulates the turning of growth cones to guidance cues yet little is known about which proteins are synthesized or how they contribute to directional steering. Here we show that β-actin mRNA resides in Xenopus retinal growth cones where it binds to the RNA-binding protein, Vg1RBP. Netrin-1 induces the movement of Vg1RBP granules into filopodia suggesting that it may direct the localization and translation of mRNAs in growth cones. Indeed, a gradient of netrin-1 activates the translation initiation regulator, eIF4E-BP, asymmetrically and triggers a polarized increase in β-actin translation on the near side of the growth cone prior to growth cone turning. Inhibition of β-actin translation abolishes both the asymmetric rise in β-actin and attractive, but not repulsive, turning. Our data suggest that newly synthesized β-actin, concentrated near sites of signal reception, provides the directional bias for polymerizing actin in the direction of an attractive stimulus.
Hereditary spastic paraplegia (HSP) is a genetically heterogeneous disease caused by mutations in many genes, including those encoding spastin, strumpellin, or REEP1. Allison et al. show that similar lysosomal phenotypes are associated with mutations in different classes of HSP proteins and suggest that defective ER–endosome contacts and endosome tubule fission may be a common cause of axon degeneration in the disease.
Inclusion of IST1 into the ESCRT complex allows recruitment of the microtubule-severing protein spastin to promote fission of recycling tubules from the endosome.
Hereditary spastic paraplegias (HSPs) are a group of genetically heterogeneous neurodegenerative conditions. They are characterized by progressive spastic paralysis of the legs as a result of selective, lengthdependent degeneration of the axons of the corticospinal tract. Mutations in 3 genes encoding proteins that work together to shape the ER into sheets and tubules -receptor accessory protein 1 (REEP1), atlastin-1 (ATL1), and spastin (SPAST) -have been found to underlie many cases of HSP in Northern Europe and North America. Applying Sanger and exome sequencing, we have now identified 3 mutations in reticulon 2 (RTN2), which encodes a member of the reticulon family of prototypic ER-shaping proteins, in families with spastic paraplegia 12 (SPG12). These autosomal dominant mutations included a complete deletion of RTN2 and a frameshift mutation predicted to produce a highly truncated protein. Wild-type reticulon 2, but not the truncated protein potentially encoded by the frameshift allele, localized to the ER. RTN2 interacted with spastin, and this interaction required a hydrophobic region in spastin that is involved in ER localization and that is predicted to form a curvature-inducing/sensing hairpin loop domain. Our results directly implicate a reticulon protein in axonopathy, show that this protein participates in a network of interactions among HSP proteins involved in ER shaping, and further support the hypothesis that abnormal ER morphogenesis is a pathogenic mechanism in HSP. IntroductionThe ER is a continuous membrane system comprising the nuclear envelope and a dynamic network of proximal sheets and peripheral tubules. Proteins of 2 classes -the reticulons and the REEP/DP1/yop1p family (referred to herein as the REEPs) -are fundamental to the generation of both sheets and tubules. These proteins share a characteristic sequence feature; in the case of the reticulons this feature is termed the reticulon homology domain (RHD) and consists of 2 long hydrophobic stretches separated by a hydrophilic sequence. Each hydrophobic stretch is thought to sit in the ER membrane as a hairpin loop. Such loop domains have been suggested to generate membrane curvature by occupying more space in the outer leaflet of the membrane than the inner in a process termed "hydrophobic wedging" (1-3). These proteins are thus critical for producing
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