Your search keyword '"Simone Bridi"' showing total 3 results

1. miR-182 Regulates Slit2-Mediated Axon Guidance by Modulating the Local Translation of a Specific mRNA

Author

Anaïs Bellon, Archana Iyer, Simone Bridi, Flora C.Y. Lee, Cesaré Ovando-Vázquez, Eloina Corradi, Sara Longhi, Michela Roccuzzo, Stephanie Strohbuecker, Sindhu Naik, Peter Sarkies, Eric Miska, Cei Abreu-Goodger, Christine E. Holt, and Marie-Laure Baudet

Subjects

miRNAs, local translation, growth cone, axon guidance, brain wiring, miR-182, Slit2, cofilin, Biology (General), QH301-705.5

Abstract

During brain wiring, cue-induced axon behaviors such as directional steering and branching are aided by localized mRNA translation. Different guidance cues elicit translation of subsets of mRNAs that differentially regulate the cytoskeleton, yet little is understood about how specific mRNAs are selected for translation. MicroRNAs (miRNAs) are critical translational regulators that act through a sequence-specific mechanism. Here, we investigate the local role of miRNAs in mRNA-specific translation during pathfinding of Xenopus laevis retinal ganglion cell (RGC) axons. Among a rich repertoire of axonal miRNAs, miR-182 is identified as the most abundant. Loss of miR-182 causes RGC axon targeting defects in vivo and impairs Slit2-induced growth cone (GC) repulsion. We find that miR-182 targets cofilin-1 mRNA, silencing its translation, and Slit2 rapidly relieves the repression without causing miR-182 degradation. Our data support a model whereby miR-182 reversibly gates the selection of transcripts for fast translation depending on the extrinsic cue.

Published

2017

2. Axonal precursor miRNAs hitchhike on endosomes and locally regulate the development of neural circuits

Author

Stephanie Strohbuecker, Guido Serini, Donatella Valdembri, Antoneta Gavoci, Simone Bridi, Eleonora Oliani, Tegan A Otto, Gabriela Santos-Rodriguez, Michela Roccuzzo, Archana Iyer, Eloina Corradi, Cei Abreu-Goodger, Marie-Laure Baudet, and Irene Dalla Costa

Subjects

Retinal Ganglion Cells, RNA, Untranslated, Endosome, Growth Cones, Endosomes, Biology, neural circuit development, General Biochemistry, Genetics and Molecular Biology, Article, axon, non-coding RNAs, RNA localization, TUBB3, 03 medical and health sciences, Xenopus laevis, 0302 clinical medicine, Semaphorin, medicine, RNA Precursors, Compartment (development), Animals, Axon, Growth cone, Molecular Biology, 030304 developmental biology, 0303 health sciences, General Immunology and Microbiology, General Neuroscience, SEMA3A, Biological Transport, Articles, Non-coding RNA, RNA Biology, Axons, Cell biology, Mice, Inbred C57BL, MicroRNAs, medicine.anatomical_structure, non‐coding RNAs, Axon guidance, Female, 030217 neurology & neurosurgery, Neuroscience, Signal Transduction

Abstract

Various species of non‐coding RNAs (ncRNAs) are enriched in specific subcellular compartments, but the mechanisms orchestrating their localization and their local functions remain largely unknown. We investigated both aspects using the elongating retinal ganglion cell axon and its tip, the growth cone, as models. We reveal that specific endogenous precursor microRNAs (pre‐miRNAs) are actively trafficked to distal axons by hitchhiking primarily on late endosomes/lysosomes. Upon exposure to the axon guidance cue semaphorin 3A (Sema3A), pre‐miRNAs are processed specifically within axons into newly generated miRNAs, one of which, in turn, silences the basal translation of tubulin beta 3 class III (TUBB3), but not amyloid beta precursor protein (APP). At the organismal level, these mature miRNAs are required for growth cone steering and a fully functional visual system. Overall, our results uncover a novel mode of ncRNA transport from one cytosolic compartment to another within polarized cells. They also reveal that newly generated miRNAs are critical components of a ncRNA‐based signaling pathway that transduces environmental signals into the structural remodeling of subcellular compartments., Pre‐miRNAs transported to distal axons are locally processed upon exposure to Sema3A and are required for growth cone steering and a fully functional visual system.

Published

2020

3. Precursor miRNAs are trafficked along axons associated with vesicles and locally processed to regulate growth cone steering

Author

Irene Dalla Costa, Antoneta Gavoci, Gabriela Rodriguez, Marie-Laure Baudet, Stephanie Strohbuecker, Michela Roccuzzo, Cei Abreu-Goodger, Archana Iyer, Simone Bridi, and Eloina Corradi

Subjects

0303 health sciences, SEMA3A, Biology, Non-coding RNA, Cell biology, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Retinal ganglion cell, medicine, Compartment (development), Axon guidance, Axon, Growth cone, 030217 neurology & neurosurgery, Late endosome, 030304 developmental biology

Abstract

Various species of non-coding RNAs (ncRNAs) are enriched in subcellular compartments but the mechanisms orchestrating their delocalization and their local functions remain largely unknown. We investigated both aspects using the elongating retinal ganglion cell axon and its tip, the growth cone, as models. We reveal that specific endogenous precursor microRNAs (pre-miRNAs) are actively trafficked, anchored to CD63-positive vesicles, to distal axons along microtubules. Upon exposure to the chemotropic cue Sema3A, pre-miRNAs are processed specifically within axons into newly synthesized mature miRNAs, which, in turn, silence the basal translation of TUBB3 but not of APP. At the organismal level, these mature miRNAs are required for growth cone steering and a fully functional visual system. Overall, our results uncover a novel mode of ncRNA transport from one cytosolic compartment to another within polarized cells. They also reveal that newly synthesized miRNAs are critical components of a ncRNA-based signaling pathway that transduces environmental signals into the structural remodelling of subcellular compartments.HighlightsPrecursor miRNAs are actively transported along axons to the growth cone tethered to CD63-positive vesiclesSema3A but not Slit2 induces the local biogenesis of specific miRNAs within axonsMature miRNAs are important for growth cone responsivenessex vivoand the establishment of functional connectionsin vivoNewly synthesized miRNAs inhibit the basal translation of TUBB3 but not APP upon Sema3A exposure

Published

2018