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      Targeting the Intracellular Environment in Cystic Fibrosis: Restoring Autophagy as a Novel Strategy to Circumvent the CFTR Defect

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          Abstract

          Cystic fibrosis (CF) patients harboring the most common deletion mutation of the CF transmembrane conductance regulator (CFTR), F508del, are poor responders to potentiators of CFTR channel activity which can be used to treat a small subset of CF patients who genetically carry plasma membrane (PM)-resident CFTR mutants. The misfolded F508del-CFTR protein is unstable in the PM even if rescued by pharmacological agents that prevent its intracellular retention and degradation. CF is a conformational disease in which defective CFTR induces an impressive derangement of general proteostasis resulting from disabled autophagy. In this review, we discuss how rescuing Beclin 1 (BECN1), a major player of autophagosome formation, either by means of direct gene transfer or indirectly by administration of proteostasis regulators, could stabilize F508del-CFTR at the PM. We focus on the relationship between the improvement of peripheral proteostasis and CFTR PM stability in F508del-CFTR homozygous bronchial epithelia or mouse lungs. Moreover, this article reviews recent pre-clinical evidence indicating that targeting the intracellular environment surrounding the misfolded mutant CFTR instead of protein itself could constitute an attractive therapeutic option to sensitize patients carrying the F508del-CFTR mutation to the beneficial action of CFTR potentiators on lung inflammation.

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          The role of Atg proteins in autophagosome formation.

          Noboru Mizushima, Tamotsu Yoshimori, Yoshinori Ohsumi (2011)
          Macroautophagy is mediated by a unique organelle, the autophagosome, which encloses a portion of cytoplasm for delivery to the lysosome. Autophagosome formation is dynamically regulated by starvation and other stresses and involves complicated membrane reorganization. Since the discovery of yeast Atg-related proteins, autophagosome formation has been dissected at the molecular level. In this review we describe the molecular mechanism of autophagosome formation with particular focus on the function of Atg proteins and the long-standing discussion regarding the origin of the autophagosome membrane.
          Article 0 comments Cited 1155 times – based on 0 reviews     Review now
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            Autophagosome formation from membrane compartments enriched in phosphatidylinositol 3-phosphate and dynamically connected to the endoplasmic reticulum

            Elizabeth L. Axe, Simon A. Walker, Maria Manifava (2008)
            Autophagy is the engulfment of cytosol and organelles by double-membrane vesicles termed autophagosomes. Autophagosome formation is known to require phosphatidylinositol 3-phosphate (PI(3)P) and occurs near the endoplasmic reticulum (ER), but the exact mechanisms are unknown. We show that double FYVE domain–containing protein 1, a PI(3)P-binding protein with unusual localization on ER and Golgi membranes, translocates in response to amino acid starvation to a punctate compartment partially colocalized with autophagosomal proteins. Translocation is dependent on Vps34 and beclin function. Other PI(3)P-binding probes targeted to the ER show the same starvation-induced translocation that is dependent on PI(3)P formation and recognition. Live imaging experiments show that this punctate compartment forms near Vps34-containing vesicles, is in dynamic equilibrium with the ER, and provides a membrane platform for accumulation of autophagosomal proteins, expansion of autophagosomal membranes, and emergence of fully formed autophagosomes. This PI(3)P-enriched compartment may be involved in autophagosome biogenesis. Its dynamic relationship with the ER is consistent with the idea that the ER may provide important components for autophagosome formation.
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              A role for ubiquitin in selective autophagy.

              Vladimir Kirkin, David G McEwan, Ivana Novak (2009)
              Ubiquitination is the hallmark of protein degradation by the 26S proteasome. However, the proteasome is limited in its capacity to degrade oligomeric and aggregated proteins. Removal of harmful protein aggregates is mediated by autophagy, a mechanism by which the cell sequesters cytosolic cargo and delivers it for degradation by the lysosome. Identification of autophagy receptors, such as p62/SQSTM1 and NBR1, which simultaneously bind both ubiquitin and autophagy-specific ubiquitin-like modifiers, LC3/GABARAP, has provided a molecular link between ubiquitination and autophagy. This review explores the hypothesis that ubiquitin represents a selective degradation signal suitable for targeting various types of cargo, ranging from protein aggregates to membrane-bound organelles and microbes.
              Article 0 comments Cited 375 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Front Pharmacol
                Journal ID (iso-abbrev): Front Pharmacol
                Journal ID (publisher-id): Front. Pharmacol.
                Title: Frontiers in Pharmacology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1663-9812
                Publication date (Electronic): 21 January 2013
                Publication date Collection: 2013
                Volume: 4
                Electronic Location Identifier: 1
                Affiliations
                [1] 1European Institute for Research in Cystic Fibrosis, San Raffaele Scientific Institute Milan, Italy
                [2] 2Department of Pediatrics, Yale University School of Medicine New Haven, CT, USA
                [3] 3Department of Experimental Pharmacology, Federico II University Naples, Italy
                [4] 4INSERM U848 Villejuif, France
                [5] 5Cystic Fibrosis Unit, Department of Pediatrics, Federico II University Naples, Italy
                [6] 6Université Paris Descartes Paris, France
                [7] 7Metabolomics Platform, Institut Gustave Roussy Villejuif, France
                [8] 8Centre de Recherche des Cordeliers Paris, France
                [9] 9PTle de Biologie, HTpital Européen Georges Pompidou, Assistance Publique – HTpitaux de Paris Paris, France
                [10] 10Institute of Pediatrics, University of Foggia Foggia, Italy
                Author notes

                Edited by: Marc Chanson, University of Geneva, Switzerland

                Reviewed by: Valerie Chappe, Dalhousie University, Canada; Jean-Michel Sallenave, Université Paris 7 Denis Diderot, France

                *Correspondence: Guido Kroemer, INSERM U848, Institut Gustave Roussy, Pavillon de Recherche 1, F-94805 Villejuif, France. e-mail: kroemer@ 123456orange.fr ; Luigi Maiuri, European Institute for Research in Cystic Fibrosis, San Raffaele Scientific Institute, via Olgettina 58, Milan 20132, Italy. e-mail: maiuri@ 123456unina.it

                This article was submitted to Frontiers in Pharmacology of Ion Channels and Channelopathies, a specialty of Frontiers in Pharmacology.

                Article
                DOI: 10.3389/fphar.2013.00001
                PMC ID: 3549520
                PubMed ID: 23346057
                SO-VID: abc9738c-b278-457b-acd4-3b7850412dae
                Copyright © Copyright © 2013 Villella, Esposito, Bruscia, Maiuri, Raia, Kroemer and Maiuri.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in other forums, provided the original authors and source are credited and subject to any copyright notices concerning any third-party graphics etc.

                History
                Date received : 10 October 2012
                Date accepted : 01 January 2013
                Page count
                Figures: 2, Tables: 0, Equations: 0, References: 114, Pages: 9, Words: 8307
                Categories
                Subject: Pharmacology
                Subject: Review Article

                ScienceOpen disciplines: Pharmacology & Pharmaceutical medicine
                Keywords: autophagy,becn1,cftr,cystic fibrosis,proteostasis regulators
                Data availability:
                ScienceOpen disciplines: Pharmacology & Pharmaceutical medicine
                Keywords: autophagy, becn1, cftr, cystic fibrosis, proteostasis regulators

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