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      Hydrogen Sulfide Inhibits Cigarette Smoke-Induced Endoplasmic Reticulum Stress and Apoptosis in Bronchial Epithelial Cells

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          Abstract

          Background: Apoptosis of lung structural cells contributes to the process of lung damage and remodeling in chronic obstructive pulmonary disease (COPD). Our previous studies demonstrated that exogenous hydrogen sulfide (H 2S) can reduce the lung tissue pathology score, anti-inflammation and anti-oxidation effects in COPD, but the effect of H 2S in regulating cigarette smoke (CS) induced bronchial epithelial cell apoptosis and the underlying mechanisms are not clear.

          Objectives: To investigate the effect of H 2S on CS induced endoplasmic reticulum stress (ERS) and bronchial epithelial cell apoptosis.

          Methods: Male Sprague–Dawley rats randomly divided into four groups for treatment: control, CS, NaHS + CS, and propargylglycine (PPG) + CS. The rats in the CS group were exposed to CS generated from 20 commercial unfiltered cigarettes for 4 h/day, 7 days/week for 4 months. Since the beginning of the third month, freshly prepared NaHS (14 μmol/kg) and PPG (37.5 mg/kg) were intraperitoneally administered 30 min before CS-exposure in the NaHS and PPG groups. 16HBE cells were pretreated with Taurine (10 mM), 5 mmol/L 4-phenylbutyric acid (4-PBA) or NaHS (100, 200, and 400 μM) for 30 min, and then cells were exposed to 40 μmol/L nicotine for 72 h. ERS markers (GRP94, GRP78) and ERS-mediated apoptosis markers 4-C/EBP homologous protein (CHOP), caspase-3 and caspase-12 were assessed in rat lung tissues and human bronchial epithelial cells. The apoptotic bronchial epithelial cells were detected by Hoechst staining in vitro and TUNEL staining in vivo.

          Results: In CS exposed rats, peritoneal injection of NaHS significantly inhibited CS induced overexpression ERS-mediated apoptosis markers and upregulation of apoptotic rate in rat lungs, and inhibiting the endogenous H2S production by peritoneal injection of PPG exacerbated these effects. In the nicotine-exposed bronchial epithelial cells, appropriate concentration of NaHS and ERS inhibitors taurine and 4-PBA inhibited nicotine-induced upregulation of apoptotic rate and overexpression of ERS-mediated apoptosis markers.

          Conclusion: H 2S inhibited lung tissue damage by attenuating CS induced ERS in rat lung and exogenous H 2S attenuated nicotine induced ERS-mediated apoptosis in bronchial epithelial cells.

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          Endoplasmic reticulum stress in disease pathogenesis.

          Jonathan H Lin, Peter Walter, T. S. Benedict Yen (2008)
          The endoplasmic reticulum (ER) is the site of synthesis and folding of membrane and secretory proteins, which, collectively, represent a large fraction of the total protein output of a mammalian cell. Therefore, the protein flux through the ER must be carefully monitored for abnormalities, including the buildup of misfolded proteins. Mammalian cells have evolved an intricate set of signaling pathways from the ER to the cytosol and nucleus, to allow the cell to respond to the presence of misfolded proteins within the ER. These pathways, known collectively as the unfolded protein response, are important for normal cellular homeostasis and organismal development and may also play key roles in the pathogenesis of many diseases. This review provides background information on the unfolded protein response and discusses a selection of diseases whose pathogenesis involves ER stress.
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            Multifaceted mechanisms in COPD: inflammation, immunity, and tissue repair and destruction.

            K F Chung, I M Adcock (2008)
            Chronic obstructive pulmonary disease is a leading global cause of morbidity and mortality that is characterised by inexorable deterioration of small airways obstruction with emphysema associated with cellular inflammation and structural remodelling. Other features include apoptosis as well as proliferation of cells, and both tissue repair and lack of tissue repair. Metalloprotease release, together with that of apoptotic factors, may underlie the emphysema, and, conversely, fibrosis of the small airways may be accounted for by the effects of growth factor activation. In advanced disease, influential factors include the development of autoimmunity, with activation of dendritic cells and T-helper cells of both type 1 and 2, and the senescence response. An inability of macrophages to ingest apoptosed cells and bacteria may exacerbate inflammatory responses. Systemic inflammation with concomitant cardiovascular disease and metabolic syndrome may reflect the effect of cigarette smoke on nonpulmonary cells. Corticosteroid resistance may be secondary to oxidative stress mechanisms, such as inactivation of histone deacetylases. The mechanisms of chronic obstructive pulmonary disease may be heterogeneous, according to severity, and clinical phenotypes need to be correlated with cellular and pathological processes. Treatments may be targeted to patients with specific mechanisms.
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              Role of apoptosis in the pathogenesis of COPD and pulmonary emphysema

              Ingel Demedts, Tine Demoor, Ken R. Bracke (2006)
              Chronic obstructive pulmonary disease (COPD) is characterised by chronic inflammation of the airways and progressive destruction of lung parenchyma, a process that in most cases is initiated by cigarette smoking. Several mechanisms are involved in the development of the disease: influx of inflammatory cells into the lung (leading to chronic inflammation of the airways), imbalance between proteolytic and anti-proteolytic activity (resulting in the destruction of healthy lung tissue) and oxidative stress. Recently, an increasing number of data suggest a fourth important mechanism involved in the development of COPD: apoptosis of structural cells in the lung might possibly be an important upstream event in the pathogenesis of COPD. There is an increase in apoptotic alveolar epithelial and endothelial cells in the lungs of COPD patients. Since this is not counterbalanced by an increase in proliferation of these structural cells, the net result is destruction of lung tissue and the development of emphysema. Data from animal models suggest a role for Vascular Endothelial Growth Factor (VEGF) in the induction of apoptosis of structural cells in the lung. Other mediators of apoptosis, such as caspase-3 and ceramide, could be interesting targets to prevent apoptosis and the development of emphysema. In this review, recent data on the role of apoptosis in COPD from both animal models as well as from studies on human subjects will be discussed. The aim is to provide an up to date summary on the increasing knowledge on the role of apoptosis in COPD and pulmonary emphysema.
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                Author and article information

                Contributors
                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): 28 September 2017
                Publication date Collection: 2017
                Volume: 8
                Electronic Location Identifier: 675
                Affiliations
                [1] 1Department of Respiratory and Critical Care Medicine, Peking University Third Hospital , Beijing, China
                [2] 2Department of Respiratory Medicine, Zhejiang Provincial People's Hospital , Hangzhou, China
                [3] 3Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Peking University Health Science Center , Beijing, China
                Author notes

                Edited by: Jinsong Bian, National University of Singapore, Singapore

                Reviewed by: Guangdong Yang, Laurentian University, Canada; Rongzhu Lu, Jiangsu University, China

                *Correspondence: Yongfen Qi yongfenqi@ 123456163.com

                This article was submitted to Experimental Pharmacology and Drug Discovery, a section of the journal Frontiers in Pharmacology

                Article
                DOI: 10.3389/fphar.2017.00675
                PMC ID: 5625329
                PubMed ID: 29033840
                SO-VID: 2f18fdd6-acbe-4fa2-87a2-8a99b99c9550
                Copyright © Copyright © 2017 Lin, Liao, Sun, Zhang, Lu, Bai, Liao, Li, Ni, Hou, Qi and Chen.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 03 July 2017
                Date accepted : 08 September 2017
                Page count
                Figures: 7, Tables: 0, Equations: 0, References: 45, Pages: 12, Words: 5779
                Categories
                Subject: Pharmacology
                Subject: Original Research

                ScienceOpen disciplines: Pharmacology & Pharmaceutical medicine
                Keywords: hydrogen sulfide,chronic obstructive pulmonary disease,bronchial epithelial cell,apoptosis,endoplasmic reticulum stress
                Data availability:
                ScienceOpen disciplines: Pharmacology & Pharmaceutical medicine
                Keywords: hydrogen sulfide, chronic obstructive pulmonary disease, bronchial epithelial cell, apoptosis, endoplasmic reticulum stress

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