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      The Small GTPase Ral orchestrates MVB biogenesis and exosome secretion

      Author(s): 1 , 2 , 3 , 4 , 5 , 6 , 1 , 2 , 3 , 4
      Publication date Created:
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      Journal: Small GTPases
      Publisher: Informa UK Limited

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          Abstract

          <p id="d5179526e258">Extracellular vesicles are novel mediators of cell-cell communication. They are present in all species and involved in physiological and pathological processes. One class of extracellular vesicles, the exosomes, originate from an endosomal compartment, the MultiVesicular Body (MVB), and are released from the cell upon fusion of the MVB with the plasma membrane. Although different molecular mechanisms have been associated with MVB biogenesis and exosome secretion, how they coordinate remains poorly documented. We recently found that the small GTPase Ral contributes to exosome release in nematodes and mammalian tumor cells. More specifically, we found that <i>C. elegans</i> RAL-1 is required for the biogenesis of MVBs, and later for MVB fusion with the plasma membrane. Here, we discuss our results in relationship with other factors involved in extracellular vesicle production such as the ESCRT complex and Phospholipase 1D. We propose models to explain Ral function in exosome secretion, its conservation in animals, and its possible role in tumor progression. </p>

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          Biogenesis and secretion of exosomes.

          Joanna Kowal, Mercedes Tkach, Clotilde Théry (2014)
          Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing interest in the past few years, which led to the creation, in 2012, of a scientific society dedicated to the subject: the International Society for Extracellular Vesicles. Convincing evidence that vesicles allow exchange of complex information fuelled this rise in interest. But it has also become clear that different types of secreted vesicles co-exist, with different intracellular origins and modes of formation, and thus probably different compositions and functions. Exosomes are one sub-type of secreted vesicles. They form inside eukaryotic cells in multivesicular compartments, and are secreted when these compartments fuse with the plasma membrane. Interestingly, different families of molecules have been shown to allow intracellular formation of exosomes and their subsequent secretion, which suggests that even among exosomes different sub-types exist. Copyright © 2014 Elsevier Ltd. All rights reserved.
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            Directed evolution of APEX2 for electron microscopy and proteomics

            Stephanie Lam, Jeffrey D. Martell, Kimberli J. Kamer (2014)
            APEX is an engineered peroxidase that functions both as an electron microscopy tag, and as a promiscuous labeling enzyme for live-cell proteomics. Because the limited sensitivity of APEX precludes applications requiring low APEX expression, we used yeast display evolution to improve its catalytic efficiency. Our evolved APEX2 is far more active in cells, enabling the superior enrichment of endogenous mitochondrial and endoplasmic reticulum membrane proteins and the use of electron microscopy to resolve the sub-mitochondrial localization of calcium uptake regulatory protein MICU1.
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              In Vivo Imaging Reveals Extracellular Vesicle-Mediated Phenocopying of Metastatic Behavior

              Anoek Zomer, Carrie Maynard, Frederik Johannes Verweij (2015)
              Summary Most cancer cells release heterogeneous populations of extracellular vesicles (EVs) containing proteins, lipids, and nucleic acids. In vitro experiments showed that EV uptake can lead to transfer of functional mRNA and altered cellular behavior. However, similar in vivo experiments remain challenging because cells that take up EVs cannot be discriminated from non-EV-receiving cells. Here, we used the Cre-LoxP system to directly identify tumor cells that take up EVs in vivo. We show that EVs released by malignant tumor cells are taken up by less malignant tumor cells located within the same and within distant tumors and that these EVs carry mRNAs involved in migration and metastasis. By intravital imaging, we show that the less malignant tumor cells that take up EVs display enhanced migratory behavior and metastatic capacity. We postulate that tumor cells locally and systemically share molecules carried by EVs in vivo and that this affects cellular behavior.
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                Author and article information

                Journal
                Title: Small GTPases
                Abbreviated Title: Small GTPases
                Publisher: Informa UK Limited
                ISSN (Print): 2154-1248
                ISSN (Electronic): 2154-1256
                Publication date Created: January 20 2017
                Publication date Created: November 02 2018
                Publication date (Electronic): November 22 2016
                Publication date (Print): November 02 2018
                Volume: 9
                Issue: 6
                Pages: 445-451
                Affiliations
                [1 ] Inserm U1109, MN3T, Strasbourg, France
                [2 ] Université de Strasbourg, Strasbourg, France
                [3 ] LabEx Medalis, Université de Strasbourg, Strasbourg, France
                [4 ] Fédération de Médecine Translationnelle de Strasbourg (FMTS), Strasbourg, France
                [5 ] CNRS SNC5055, Strasbourg, France
                [6 ] Sorbonne Universités, UPMC Univ Paris 06, UMR7622 - CNRS, Institut de Biologie Paris-Seine, Paris, France
                Article
                DOI: 10.1080/21541248.2016.1251378
                PMC ID: 6204988
                PubMed ID: 27875100
                SO-VID: ceccc5bc-098d-432c-ab36-bb84dd8d74e2
                Copyright © © 2018
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