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      The pathophysiology of SARS-CoV-2: A suggested model and therapeutic approach

      review-article
      Author(s): a , a , b , * , c , a , d , a , a , e , a , f , a , g , k , a , h , i , a , b , a , j
      Publication date (Electronic):
      Journal: Life Sciences
      Publisher: Elsevier Inc.
      Keywords: ACE, angiotensin converting enzyme, AM, alveolar macrophages, AP, activated platelets, ARDS, acute respiratory distress syndrome, AZM, azithromycin, BALF, bronchoalveolar lavage fluids, CFR, case fatality rates, COX1, cyclooxygenase 1, CXCL10, C-X-C motif chemokine 10, DAMPS, damage-associated molecular patterns, DIC, disseminated intravascular coagulation, EC, endothelial cell, GM-CSF, Granulocyte-macrophage colony-stimulating factor, HAART, highly active antiretroviral therapy, HMBG1, high mobility group box 1, HMG-1, high-mobility group protein 1, IL, interleukin, LPS, Lipopolysaccharide, MAC-1, macrophage-1 antigen, MAPKs, mitogen-activated protein kinases, MCP-1, monocyte chemoattractant protein-1, MDSC, CD11b + Gr-1+ myeloid-derived suppressor cells, MERS, middle east respiratory syndrome, Mg, magnesium, MMP-9, Matrix metallopeptidase 9, MPO, myeloperoxidase, NAC, N-acetylcysteine, NETs, neutrophil extracellular traps, NF-kB, Nuclear Factor kappa-light-chain-enhancer of activated B cells, NK, natural killer, NLRs, NOD-like receptors, NO, nitric oxide, NOS2, inducible nitric oxide synthase 2, PF4, platelet factor 4, PFA, polyenoic fatty acids, PGE2, Prostaglandin E2, PI3K, phosphoinositide 3-kinase, PICs, proinflammatory cytokines, PNC, platelet neutrophil complexes, PSGL-1, P-selectin glycoprotein ligand-1, RAGE, receptor for advanced glycation endproducts, RCT, randomised controlled trial, RdRp, RNA dependent RNA polymerase, ROS, reactive oxygen species, RSV, respiratory syncytial virus, SARS-CoV-2, severe acute respiratory syndrome CoronaVirus 2, SIRS, systemic inflammatory response syndrome, T reg, regulatory T cell, TF, tissue factor, TGF, transforming growth factor, TLR, Toll-like receptor 9, TMPRSS2, transmembrane protease, serine 2, TNF, tumor necrosis factor, URT, upper respiratory tract, VAP, ventilator associated pneumonia, WHO, World Health Organisation, Zn, zinc, COVID-19, SARS-CoV-2, Respiratory infection, Treatment

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          Abstract

          In this paper, a model is proposed of the pathophysiological processes of COVID-19 starting from the infection of human type II alveolar epithelial cells (pneumocytes) by SARS-CoV-2 and culminating in the development of ARDS. The innate immune response to infection of type II alveolar epithelial cells leads both to their death by apoptosis and pyroptosis and to alveolar macrophage activation. Activated macrophages secrete proinflammatory cytokines and chemokines and tend to polarise into the inflammatory M1 phenotype. These changes are associated with activation of vascular endothelial cells and thence the recruitment of highly toxic neutrophils and inflammatory activated platelets into the alveolar space. Activated vascular endothelial cells become a source of proinflammatory cytokines and reactive oxygen species (ROS) and contribute to the development of coagulopathy, systemic sepsis, a cytokine storm and ARDS. Pulmonary activated platelets are also an important source of proinflammatory cytokines and ROS, as well as exacerbating pulmonary neutrophil-mediated inflammatory responses and contributing to systemic sepsis by binding to neutrophils to form platelet-neutrophil complexes (PNCs). PNC formation increases neutrophil recruitment, activation priming and extraversion of these immune cells into inflamed pulmonary tissue, thereby contributing to ARDS. Sequestered PNCs cause the development of a procoagulant and proinflammatory environment. The contribution to ARDS of increased extracellular histone levels, circulating mitochondrial DNA, the chromatin protein HMGB1, decreased neutrophil apoptosis, impaired macrophage efferocytosis, the cytokine storm, the toll-like receptor radical cycle, pyroptosis, necroinflammation, lymphopenia and a high Th17 to regulatory T lymphocyte ratio are detailed.

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          A Novel Coronavirus from Patients with Pneumonia in China, 2019

          Na Zhu, Dingyu Zhang, Wenling Wang (2020)
          Summary In December 2019, a cluster of patients with pneumonia of unknown cause was linked to a seafood wholesale market in Wuhan, China. A previously unknown betacoronavirus was discovered through the use of unbiased sequencing in samples from patients with pneumonia. Human airway epithelial cells were used to isolate a novel coronavirus, named 2019-nCoV, which formed a clade within the subgenus sarbecovirus, Orthocoronavirinae subfamily. Different from both MERS-CoV and SARS-CoV, 2019-nCoV is the seventh member of the family of coronaviruses that infect humans. Enhanced surveillance and further investigation are ongoing. (Funded by the National Key Research and Development Program of China and the National Major Project for Control and Prevention of Infectious Disease in China.)
          Article 0 comments Cited 12929 times – based on 0 reviews     Review now
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            Clinical Characteristics of 138 Hospitalized Patients With 2019 Novel Coronavirus–Infected Pneumonia in Wuhan, China

            Dawei Wang, Bo Hu, Fangfang Zhu (2020)
            In December 2019, novel coronavirus (2019-nCoV)-infected pneumonia (NCIP) occurred in Wuhan, China. The number of cases has increased rapidly but information on the clinical characteristics of affected patients is limited.
            Article 0 comments Cited 10954 times – based on 0 reviews     Review now
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              SARS-CoV-2 Cell Entry Depends on ACE2 and TMPRSS2 and Is Blocked by a Clinically Proven Protease Inhibitor

              Markus Hoffmann, Hannah Kleine-Weber, Simon Schroeder (2020)
              Summary The recent emergence of the novel, pathogenic SARS-coronavirus 2 (SARS-CoV-2) in China and its rapid national and international spread pose a global health emergency. Cell entry of coronaviruses depends on binding of the viral spike (S) proteins to cellular receptors and on S protein priming by host cell proteases. Unravelling which cellular factors are used by SARS-CoV-2 for entry might provide insights into viral transmission and reveal therapeutic targets. Here, we demonstrate that SARS-CoV-2 uses the SARS-CoV receptor ACE2 for entry and the serine protease TMPRSS2 for S protein priming. A TMPRSS2 inhibitor approved for clinical use blocked entry and might constitute a treatment option. Finally, we show that the sera from convalescent SARS patients cross-neutralized SARS-2-S-driven entry. Our results reveal important commonalities between SARS-CoV-2 and SARS-CoV infection and identify a potential target for antiviral intervention.
              Article 0 comments Cited 9866 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Chiara C. Bortolasci
                Journal
                Journal ID (nlm-ta): Life Sci
                Journal ID (iso-abbrev): Life Sci
                Title: Life Sciences
                Publisher: Elsevier Inc.
                ISSN (Print): 0024-3205
                ISSN (Electronic): 1879-0631
                Publication date PMC-release: 31 July 2020
                Publication date (Electronic): 31 July 2020
                Electronic Location Identifier: 118166
                Affiliations
                [a ]Deakin University, IMPACT – the Institute for Mental and Physical Health and Clinical Translation, School of Medicine, Barwon Health, Geelong, Australia
                [b ]Deakin University, Centre for Molecular and Medical Research, School of Medicine, Geelong, Australia
                [c ]C.A.R., Cambridge, UK
                [d ]School of Psychology, Deakin University, Geelong, Australia
                [e ]Melbourne School of Population and Global Health, Melbourne, Australia
                [f ]Barwon Health, Geelong, Australia
                [g ]Department of Psychiatry, University of Toronto, Toronto, ON, Canada
                [h ]Department of Psychiatry, King Chulalongkorn University Hospital, Bangkok, Thailand
                [i ]Department of Psychiatry, Medical University of Plovdiv, Plovdiv, Bulgaria.
                [j ]Orygen, The National Centre of Excellence in Youth Mental Health, Centre for Youth Mental Health, Florey Institute for Neuroscience and Mental Health and the Department of Psychiatry, The University of Melbourne, Melbourne, Australia
                [k ]Centre for Addiction and Mental Health (CAMH), Toronto, ON, Canada
                Author notes
                [* ]Corresponding author at: IMPACT – the Institute for Mental and Physical Health and Clinical Translation, Deakin University, 75 Pigdons Road, Waurn Ponds, Victoria 3218, Australia. chiara.b@ 123456deakin.edu.au
                Article
                Publisher ID: S0024-3205(20)30918-8 Publisher ID: 118166
                DOI: 10.1016/j.lfs.2020.118166
                PMC ID: 7392886
                PubMed ID: 32739471
                SO-VID: 87c58a0c-1b7d-4e68-83bb-9bb9997c3826
                Copyright © © 2020 Elsevier Inc. All rights reserved.
                License:

                Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.

                History
                Date received : 18 June 2020
                Date revision received : 23 July 2020
                Date accepted : 25 July 2020
                Categories
                Subject: Article

                Keywords: ace, angiotensin converting enzyme,am, alveolar macrophages,ap, activated platelets,ards, acute respiratory distress syndrome,azm, azithromycin,balf, bronchoalveolar lavage fluids,cfr, case fatality rates,cox1, cyclooxygenase 1,cxcl10, c-x-c motif chemokine 10,damps, damage-associated molecular patterns,dic, disseminated intravascular coagulation,ec, endothelial cell,gm-csf, granulocyte-macrophage colony-stimulating factor,haart, highly active antiretroviral therapy,hmbg1, high mobility group box 1,hmg-1, high-mobility group protein 1,il, interleukin,lps, lipopolysaccharide,mac-1, macrophage-1 antigen,mapks, mitogen-activated protein kinases,mcp-1, monocyte chemoattractant protein-1,mdsc, cd11b + gr-1+ myeloid-derived suppressor cells,mers, middle east respiratory syndrome,mg, magnesium,mmp-9, matrix metallopeptidase 9,mpo, myeloperoxidase,nac, n-acetylcysteine,nets, neutrophil extracellular traps,nf-kb, nuclear factor kappa-light-chain-enhancer of activated b cells,nk, natural killer,nlrs, nod-like receptors,no, nitric oxide,nos2, inducible nitric oxide synthase 2,pf4, platelet factor 4,pfa, polyenoic fatty acids,pge2, prostaglandin e2,pi3k, phosphoinositide 3-kinase,pics, proinflammatory cytokines,pnc, platelet neutrophil complexes,psgl-1, p-selectin glycoprotein ligand-1,rage, receptor for advanced glycation endproducts,rct, randomised controlled trial,rdrp, rna dependent rna polymerase,ros, reactive oxygen species,rsv, respiratory syncytial virus,sars-cov-2, severe acute respiratory syndrome coronavirus 2,sirs, systemic inflammatory response syndrome,t reg, regulatory t cell,tf, tissue factor,tgf, transforming growth factor,tlr, toll-like receptor 9,tmprss2, transmembrane protease, serine 2,tnf, tumor necrosis factor,urt, upper respiratory tract,vap, ventilator associated pneumonia,who, world health organisation,zn, zinc,covid-19,sars-cov-2,respiratory infection,treatment
                Data availability:
                Keywords: ace, angiotensin converting enzyme, am, alveolar macrophages, ap, activated platelets, ards, acute respiratory distress syndrome, azm, azithromycin, balf, bronchoalveolar lavage fluids, cfr, case fatality rates, cox1, cyclooxygenase 1, cxcl10, c-x-c motif chemokine 10, damps, damage-associated molecular patterns, dic, disseminated intravascular coagulation, ec, endothelial cell, gm-csf, granulocyte-macrophage colony-stimulating factor, haart, highly active antiretroviral therapy, hmbg1, high mobility group box 1, hmg-1, high-mobility group protein 1, il, interleukin, lps, lipopolysaccharide, mac-1, macrophage-1 antigen, mapks, mitogen-activated protein kinases, mcp-1, monocyte chemoattractant protein-1, mdsc, cd11b + gr-1+ myeloid-derived suppressor cells, mers, middle east respiratory syndrome, mg, magnesium, mmp-9, matrix metallopeptidase 9, mpo, myeloperoxidase, nac, n-acetylcysteine, nets, neutrophil extracellular traps, nf-kb, nuclear factor kappa-light-chain-enhancer of activated b cells, nk, natural killer, nlrs, nod-like receptors, no, nitric oxide, nos2, inducible nitric oxide synthase 2, pf4, platelet factor 4, pfa, polyenoic fatty acids, pge2, prostaglandin e2, pi3k, phosphoinositide 3-kinase, pics, proinflammatory cytokines, pnc, platelet neutrophil complexes, psgl-1, p-selectin glycoprotein ligand-1, rage, receptor for advanced glycation endproducts, rct, randomised controlled trial, rdrp, rna dependent rna polymerase, ros, reactive oxygen species, rsv, respiratory syncytial virus, sars-cov-2, severe acute respiratory syndrome coronavirus 2, sirs, systemic inflammatory response syndrome, t reg, regulatory t cell, tf, tissue factor, tgf, transforming growth factor, tlr, toll-like receptor 9, tmprss2, transmembrane protease, serine 2, tnf, tumor necrosis factor, urt, upper respiratory tract, vap, ventilator associated pneumonia, who, world health organisation, zn, zinc, covid-19, sars-cov-2, respiratory infection, treatment

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