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      Human alveolar epithelial type II cells in primary culture

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          Abstract

          Alveolar epithelial type II (AEII) cells are a key structure and defender in the lung but also are the targets in many lung diseases, including acute respiratory distress syndrome, ventilator-induced lung injury, and pulmonary fibrosis. We sought to establish an optimized method for high yielding and long maintenance of characteristics of primary human AEII cells to facilitate the investigation of the mechanisms of lung diseases at the cellular and molecular levels. Adult human peripheral normal lung tissues of oncologic patients undergoing lung resection were collected. The AEII cells were isolated and identified by the expression of pro-surfactant protein (SP)C, epithelial sodium channel ( αENaC) and cytokeratin (CK)-8, the lamellar bodies specific for AEII cells, and confirmed by the histology using electron microscopy. The phenotype of AEII cells was characterized by the expression of surfactant proteins (SP-A, SP-B, SP-C, SP-D), CK-8, KL-6, αENaC, and aquaporin (AQP)-3, which was maintained over 20 days. The biological activity of the primary human AEII cells producing SP-C, cytokines, and intercellular adhesion molecule-1 was vigorous in response to stimulation with tumor necrosis factor- α. We have modified previous methods and optimized a method for isolation of high purity and long maintenance of the human AEII cell phenotype in primary culture. This method provides an important tool for studies aiming at elucidating the molecular mechanisms of lung diseases exclusively in AEII cells.

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          Alveolar epithelial type II cell: defender of the alveolus revisited

          Heinz Fehrenbach (2001)
          In 1977, Mason and Williams developed the concept of the alveolar epithelial type II (AE2) cell as a defender of the alveolus. It is well known that AE2 cells synthesise, secrete, and recycle all components of the surfactant that regulates alveolar surface tension in mammalian lungs. AE2 cells influence extracellular surfactant transformation by regulating, for example, pH and [Ca2+] of the hypophase. AE2 cells play various roles in alveolar fluid balance, coagulation/fibrinolysis, and host defence. AE2 cells proliferate, differentiate into AE1 cells, and remove apoptotic AE2 cells by phagocytosis, thus contributing to epithelial repair. AE2 cells may act as immunoregulatory cells. AE2 cells interact with resident and mobile cells, either directly by membrane contact or indirectly via cytokines/growth factors and their receptors, thus representing an integrative unit within the alveolus. Although most data support the concept, the controversy about the character of hyperplastic AE2 cells, reported to synthesise profibrotic factors, proscribes drawing a definite conclusion today.
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            Innate immune response of human alveolar type II cells infected with severe acute respiratory syndrome-coronavirus.

            Zhaohui Qian, Emily A. Travanty, Lauren M. Oko (2013)
            Severe acute respiratory syndrome (SARS)-coronavirus (CoV) produces a devastating primary viral pneumonia with diffuse alveolar damage and a marked increase in circulating cytokines. One of the major cell types to be infected is the alveolar type II cell. However, the innate immune response of primary human alveolar epithelial cells infected with SARS-CoV has not been defined. Our objectives included developing a culture system permissive for SARS-CoV infection in primary human type II cells and defining their innate immune response. Culturing primary human alveolar type II cells at an air-liquid interface (A/L) improved their differentiation and greatly increased their susceptibility to infection, allowing us to define their primary interferon and chemokine responses. Viral antigens were detected in the cytoplasm of infected type II cells, electron micrographs demonstrated secretory vesicles filled with virions, virus RNA concentrations increased with time, and infectious virions were released by exocytosis from the apical surface of polarized type II cells. A marked increase was evident in the mRNA concentrations of interferon-β and interferon-λ (IL-29) and in a large number of proinflammatory cytokines and chemokines. A surprising finding involved the variability of expression of angiotensin-converting enzyme-2, the SARS-CoV receptor, in type II cells from different donors. In conclusion, the cultivation of alveolar type II cells at an air-liquid interface provides primary cultures in which to study the pulmonary innate immune responses to infection with SARS-CoV, and to explore possible therapeutic approaches to modulating these innate immune responses.
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              Cell number and cell characteristics of the normal human lung.

              James Crapo, P Gehr, B Barry (1982)
              Eight normal human lungs obtained from patients dying from causes not related to the lung were subjected to morphometric analysis to determine the number of cells in the alveolar region and their mean volume and surface characteristics. The age range was 19 to 40 yr, average body weight was 74 kg, and the average fixed lung volume was 4,300 ml. The overall mean nuclear diameters of the nuclei of 5 major cell types in the lung parenchyma were found to have little variation, with means ranging from 7.54 to 8.77 micrometers. Alveolar type I epithelial cells were found to comprise 8% of the cells and to be one of the largest cells, having a mean volume of 1,764 micrometers 3 and covering an average of 5,098 micrometers 2 of alveolar surface. Seven percent of the alveolar surface was covered by alveolar type II cells, which make up 16% of the total alveolar cells and have a mean volume that is half that of the type I pneumocyte. Capillary endothelial cells make up 30% of the lung cells and were significantly smaller in both size and average surface area than the alveolar type I cells. Cells in the interstitial space comprised 37% of the total cells. The number of alveolar macrophages showed great variability, ranging from 19% of alveolar cells in 1 person to 3 to 5% in the nonsmoking females. The alveolar cell population characteristics found in resected lobes from 2 nonsmoking females were found to be similar to 2 nonsmoking females studied after autopsy. An interspecies comparison of characteristics of cells from the alveolar regions of normal lungs from humans, baboons, and rats showed that proportions of cells in the alveolar region and their average thickness, size, and surface areas were relatively constant.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Physiol Rep
                Journal ID (iso-abbrev): Physiol Rep
                Journal ID (publisher-id): phy2
                Title: Physiological Reports
                Publisher: BlackWell Publishing Ltd (Oxford, UK )
                ISSN (Print): 2051-817X
                ISSN (Electronic): 2051-817X
                Publication date Collection: February 2015
                Publication date (Electronic): 13 February 2015
                Volume: 3
                Issue: 2
                Electronic Location Identifier: e12288
                Affiliations
                [1 ]State Key Laboratory of Respiratory Diseases and Guangzhou Institute of Respiratory Diseases Guangzhou, Guangdong, China
                [2 ]The First Affiliated Hospital of Guangzhou Medical University Guangzhou, Guangdong, China
                [3 ]Keenan Research Centre for Biomedical Science of St. Michael's Hospital Toronto, Ontario, Canada
                [4 ]Department of Medicine, University of Toronto Toronto, Ontario, Canada
                [5 ]Department of Anesthesia, University of Toronto Toronto, Ontario, Canada
                [6 ]Department of Physiology, University of Toronto Toronto, Ontario, Canada
                Author notes
                Correspondence Haibo Zhang, 619 LKSKI, 30 Bond Street, Toronto, ON, M5B 1W8, Canada., Tel: 416-864-6060 ext. 77654, Fax: 416-864-5277, E-mail: zhangh@ 123456smh.ca , and, Yimin Li, 151 Yanjiang Street West, Guangzhou, Guangdong 510120, China., Tel: 0086-020-83062905, Fax: 0086-020-83062905, E-mail: dryiminli@ 123456vip.163.com .

                Funding Information This work was supported by grants from the Natural Science Foundation of China (NSFC) (No. 81270125) to YL and HZ, and the Canadian Institutes of Health Research (CIHR) to HZ.

                [*]

                These authors are contributed equally to this work.

                Article
                DOI: 10.14814/phy2.12288
                PMC ID: 4393197
                PubMed ID: 25677546
                SO-VID: e05b32af-a1c7-4f4c-a869-2bb387a5ffec
                Copyright © © 2015 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of the American Physiological Society and The Physiological Society.
                License:

                This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                Date received : 29 July 2014
                Date revision received : 21 December 2014
                Date accepted : 08 January 2015
                Categories
                Subject: Original Research

                Keywords: human lung,lamellar bodies,surfactant proteins
                Data availability:
                Keywords: human lung, lamellar bodies, surfactant proteins

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