Biogenesis of secretory granules in the trans -Golgi network of neuroendocrine and endocrine cells
Identifieur interne : 001200 ( Main/Curation ); précédent : 001199; suivant : 001201Biogenesis of secretory granules in the trans -Golgi network of neuroendocrine and endocrine cells
Auteurs : Sharon A. Tooze [Royaume-Uni]Source :
- BBA - Molecular Cell Research [ 0167-4889 ] ; 1998.
English descriptors
- Teeft :
- Acad, Acta, Adaptor, Aggregation, Arvan, Assay, Bbamcr, Biochimica, Biol, Biophysica, Biophysica acta, Carboxypeptidase, Ccvs, Cell biol, Chem, Chromogranin, Clathrin, Constitutive, Constitutive pathway, Constitutive secretory pathway, Constitutive secretory vesicles, Csvs, Cyaan, Cytoplasmic, Cytoplasmic domain, Dynamin, Endocrine, Endocrine cells, Febs lett, Furin, Geel, Geel zwart, Geel zwart tooze biochimica, Golgi, Granule, Granule proteins, Huttner, Immature secretory granules, Isgs, Kinase, Lysosomal, Lysosomal enzymes, Membrane, Membrane proteins, Nascent, Nascent secretory granules, Nascent secretory vesicles, Natl, Neuroendocrine, Neuroendocrine cells, Neurones, Orci, Pathway, Phosphatidylinositol, Phospholipase, Plasma membrane, Proc, Prohormone, Proinsulin, Protein, Protein kinase, Receptor, Secretogranin, Secretory, Secretory granule, Secretory granule formation, Secretory granules, Secretory pathway, Secretory proteins, Secretory vesicle formation, Secretory vesicles, Soluble proteins, Tooze, Tooze biochimica, Vesicle, Vesicle formation, Zwart.
Abstract
Abstract: Secretory granule formation requires selection of soluble and membrane proteins into nascent secretory granules, and exclusion of proteins not required for the function of secretory granules. Both selection and exclusion presumably can occur in the compartment where assembly of the secretory granule begins, the trans most cisternae of the Golgi complex. Current research focused on the initial stages of secretory granule formation includes a search for the ‘signals’ which may mediate active sorting of components into secretory granules, and the role of aggregation of regulated secretory proteins in sorting. In addition, the temporal sequence of the sorting events in the Golgi, and post-Golgi compartments has gained much attention, as summarized by the alternative but not mutually exclusive ‘sorting for entry’ vs. ‘sorting by retention’ models. ‘Sorting for entry’ which encompasses the most popular models requires selection of cargo and membrane and exclusion of non-secretory granule proteins in the TGN prior to secretory granule formation. ‘Sorting by retention’ stipulates that protein selection or exclusion may occur after secretory granule formation: secretory granule specific components are retained during maturation of the granule while non-secretory granule molecules are removed in vesicles which bud from maturing secretory granules. Finally, some progress has been made in the identification of cytosolic components involved in the budding of nascent secretory granules from the TGN. This review will focus on the recent data concerning the events in secretory granule formation which occur, in the trans-Golgi network.
Url:
DOI: 10.1016/S0167-4889(98)00059-7
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ISTEX:CD7E828979CBF79FE85EDC6D3DF6057A08EAF989Le document en format XML
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<front><div type="abstract" xml:lang="en">Abstract: Secretory granule formation requires selection of soluble and membrane proteins into nascent secretory granules, and exclusion of proteins not required for the function of secretory granules. Both selection and exclusion presumably can occur in the compartment where assembly of the secretory granule begins, the trans most cisternae of the Golgi complex. Current research focused on the initial stages of secretory granule formation includes a search for the ‘signals’ which may mediate active sorting of components into secretory granules, and the role of aggregation of regulated secretory proteins in sorting. In addition, the temporal sequence of the sorting events in the Golgi, and post-Golgi compartments has gained much attention, as summarized by the alternative but not mutually exclusive ‘sorting for entry’ vs. ‘sorting by retention’ models. ‘Sorting for entry’ which encompasses the most popular models requires selection of cargo and membrane and exclusion of non-secretory granule proteins in the TGN prior to secretory granule formation. ‘Sorting by retention’ stipulates that protein selection or exclusion may occur after secretory granule formation: secretory granule specific components are retained during maturation of the granule while non-secretory granule molecules are removed in vesicles which bud from maturing secretory granules. Finally, some progress has been made in the identification of cytosolic components involved in the budding of nascent secretory granules from the TGN. This review will focus on the recent data concerning the events in secretory granule formation which occur, in the trans-Golgi network.</div>
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