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      The SARS Coronavirus E Protein Interacts with PALS1 and Alters Tight Junction Formation and Epithelial Morphogenesis

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          Abstract

          The E protein of the Severe Acute Respiratory Syndrome Coronavirus binds the tight junction protein PALS1 through a novel PDZ domain-binding motif/PDZ domain interaction. Expression of E delays formation of tight junctions and alters cyst morphogenesis of MDCKII epithelial cells.

          Abstract

          Intercellular tight junctions define epithelial apicobasal polarity and form a physical fence which protects underlying tissues from pathogen invasions. PALS1, a tight junction-associated protein, is a member of the CRUMBS3-PALS1-PATJ polarity complex, which is crucial for the establishment and maintenance of epithelial polarity in mammals. Here we report that the carboxy-terminal domain of the SARS-CoV E small envelope protein (E) binds to human PALS1. Using coimmunoprecipitation and pull-down assays, we show that E interacts with PALS1 in mammalian cells and further demonstrate that the last four carboxy-terminal amino acids of E form a novel PDZ-binding motif that binds to PALS1 PDZ domain. PALS1 redistributes to the ERGIC/Golgi region, where E accumulates, in SARS-CoV–infected Vero E6 cells. Ectopic expression of E in MDCKII epithelial cells significantly alters cyst morphogenesis and, furthermore, delays formation of tight junctions, affects polarity, and modifies the subcellular distribution of PALS1, in a PDZ-binding motif-dependent manner. We speculate that hijacking of PALS1 by SARS-CoV E plays a determinant role in the disruption of the lung epithelium in SARS patients.

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          Most cited references47

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          Coronavirus as a possible cause of severe acute respiratory syndrome.

          V Cheng, A. Yung, J. S. Malik Peiris (2003)
          An outbreak of severe acute respiratory syndrome (SARS) has been reported in Hong Kong. We investigated the viral cause and clinical presentation among 50 patients. We analysed case notes and microbiological findings for 50 patients with SARS, representing more than five separate epidemiologically linked transmission clusters. We defined the clinical presentation and risk factors associated with severe disease and investigated the causal agents by chest radiography and laboratory testing of nasopharyngeal aspirates and sera samples. We compared the laboratory findings with those submitted for microbiological investigation of other diseases from patients whose identity was masked. Patients' age ranged from 23 to 74 years. Fever, chills, myalgia, and cough were the most frequent complaints. When compared with chest radiographic changes, respiratory symptoms and auscultatory findings were disproportionally mild. Patients who were household contacts of other infected people and had older age, lymphopenia, and liver dysfunction were associated with severe disease. A virus belonging to the family Coronaviridae was isolated from two patients. By use of serological and reverse-transcriptase PCR specific for this virus, 45 of 50 patients with SARS, but no controls, had evidence of infection with this virus. A coronavirus was isolated from patients with SARS that might be the primary agent associated with this disease. Serological and molecular tests specific for the virus permitted a definitive laboratory diagnosis to be made and allowed further investigation to define whether other cofactors play a part in disease progression.
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            The tight junction: a multifunctional complex.

            Eveline E. Schneeberger, Robert D. Lynch (2004)
            Multicellular organisms are separated from the external environment by a layer of epithelial cells whose integrity is maintained by intercellular junctional complexes composed of tight junctions, adherens junctions, and desmosomes, whereas gap junctions provide for intercellular communication. The aim of this review is to present an updated overview of recent developments in the area of tight junction biology. In a relatively short time, our knowledge of the tight junction has evolved from a relatively simple view of it being a permeability barrier in the paracellular space and a fence in the plane of the plasma membrane to one of it acting as a multicomponent, multifunctional complex that is involved in regulating numerous and diverse cell functions. A group of integral membrane proteins-occludin, claudins, and junction adhesion molecules-interact with an increasingly complex array of tight junction plaque proteins not only to regulate paracellular solute and water flux but also to integrate such diverse processes as gene transcription, tumor suppression, cell proliferation, and cell polarity.
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              The M, E, and N structural proteins of the severe acute respiratory syndrome coronavirus are required for efficient assembly, trafficking, and release of virus-like particles.

              Y. L. Siu, K Teoh, J. Lo (2008)
              The production of virus-like particles (VLPs) constitutes a relevant and safe model to study molecular determinants of virion egress. The minimal requirement for the assembly of VLPs for the coronavirus responsible for severe acute respiratory syndrome in humans (SARS-CoV) is still controversial. Recent studies have shown that SARS-CoV VLP formation depends on either M and E proteins or M and N proteins. Here we show that both E and N proteins must be coexpressed with M protein for the efficient production and release of VLPs by transfected Vero E6 cells. This suggests that the mechanism of SARS-CoV assembly differs from that of other studied coronaviruses, which only require M and E proteins for VLP formation. When coexpressed, the native envelope trimeric S glycoprotein is incorporated onto VLPs. Interestingly, when a fluorescent protein tag is added to the C-terminal end of N or S protein, but not M protein, the chimeric viral proteins can be assembled within VLPs and allow visualization of VLP production and trafficking in living cells by state-of-the-art imaging technologies. Fluorescent VLPs will be used further to investigate the role of cellular machineries during SARS-CoV egress.
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                Author and article information

                Contributors
                Asma Nusrat: Role: Monitoring Editor
                Journal
                Journal ID (nlm-ta): Mol Biol Cell
                Journal ID (hwp): mbc
                Journal ID (pmc): mbc
                Journal ID (publisher-id): Mol. Bio. Cell
                Title: Molecular Biology of the Cell
                Publisher: The American Society for Cell Biology
                ISSN (Print): 1059-1524
                ISSN (Electronic): 1939-4586
                Publication date (Print): 15 November 2010
                Volume: 21
                Issue: 22
                Pages: 3838-3852
                Affiliations
                [1]*HKU-Pasteur Research Centre, Pokfulam, Hong Kong S.A.R. China;
                [2]Departments of Pediatrics and Adolescent Medicine,
                [3] §Pathology,
                [4]**Microbiology, and
                [5] ‡‡Anatomy, The Li Ka Shing Faculty of Medicine, The University of Hong Kong, Hong Kong S.A.R., China;
                [6] Medizinische Klinik D, Universitätsklinikum Münster, D-48149 Münster, Germany;
                [7]Departments of Internal Medicine and
                [8] ††Biological Chemistry, University of Michigan Medical School, Ann Arbor, MI 48109
                Author notes
                Address correspondence to: Béatrice Nal ( bnal@ 123456hku.hk ).

                These authors contributed equally to this work.

                Article
                Publisher ID: 3644719
                DOI: 10.1091/mbc.E10-04-0338
                PMC ID: 2982091
                PubMed ID: 20861307
                SO-VID: 255c1bf2-2252-4710-8053-78fddee686ac
                Copyright © © 2010 by The American Society for Cell Biology
                License:

                This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License ( http://creativecommons.org/licenses/by-nc-sa/3.0).

                History
                Date received : 22 April 2010
                Date revision received : 16 August 2010
                Date accepted : 15 September 2010
                Categories
                Subject: Articles
                Subject: Cell Biology of Disease

                ScienceOpen disciplines: Molecular biology
                Data availability:
                ScienceOpen disciplines: Molecular biology

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