Literature DB >> 16026015

Oxidized phosphatidylcholine in alveolar macrophages in idiopathic interstitial pneumonias.

N Yoshimi1, Y Ikura, Y Sugama, S Kayo, M Ohsawa, S Yamamoto, Y Inoue, K Hirata, H Itabe, J Yoshikawa, M Ueda.   

Abstract

It has been suggested that oxidative stress plays a pathogenic role in idiopathic interstitial pneumonias. Macrophage- or neutrophil-derived oxidants seem to be important sources of oxidative stress in this group of inflammatory disorders. Recent experimental studies have revealed that oxidative injury during inflammation or apoptosis can change phosphatidylcholine of cell membrane into its oxidized form, which serves as a ligand for macrophage scavenger receptor CD36. Recently, we developed a monoclonal antibody against oxidized phosphatidylcholine. Using this novel antibody, we performed an immunohistochemical investigation to clarify the localization of oxidized phosphatidylcholine in lung tissues of idiopathic interstitial pneumonias and a relationship between oxidized phosphatidylcholine localization and CD36 expression. Lung specimens obtained from patients with desquamative (n = 8) or usual interstitial pneumonia (n = 15) were studied. Thirteen normal lung tissues were also examined as controls. Antibodies against oxidized phosphatidylcholine, CD36, epithelial cells, macrophages, and neutrophils were used as primary antibodies. The positive cell number was counted by computer-aided morphometry. While there were no oxidized phosphatidylcholine-positive cells in normal lungs, lungs of desquamative or usual interstitial pneumonia contained large numbers of oxidized phosphatidylcholine-positive cells in the alveolar spaces. Double-staining analysis revealed that most oxidized phosphatidylcholine-positive cells were macrophages. The oxidized phosphatidylcholine-positive cells were increased in association with the increase in the densities of macrophages (Rs = 0.87, p < 0.0001) and neutrophils (Rs = 0.89, p < 0.0001). Accumulated macrophages also showed distinct CD36 expression. These findings suggest that oxidative stress and the related product, oxidized phosphatidylcholine, play an important role in the pathophysiology of idiopathic interstitial pneumonias.

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Year:  2005        PMID: 16026015     DOI: 10.1007/s00408-004-2525-0

Source DB:  PubMed          Journal:  Lung        ISSN: 0341-2040            Impact factor:   2.584


  30 in total

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Authors:  M K Chang; C Bergmark; A Laurila; S Hörkkö; K H Han; P Friedman; E A Dennis; J L Witztum
Journal:  Proc Natl Acad Sci U S A       Date:  1999-05-25       Impact factor: 11.205

2.  Oxidized phosphatidylcholines: pattern recognition ligands for multiple pathways of the innate immune response.

Authors:  Stanley L Hazen; Guy M Chisolm
Journal:  Proc Natl Acad Sci U S A       Date:  2002-09-23       Impact factor: 11.205

3.  Expression and regulation of hemeoxygenase 1 in healthy human lung and interstitial lung disorders.

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4.  Neutrophils cause oxidative DNA damage in alveolar epithelial cells.

Authors:  A M Knaapen; F Seiler; P A Schilderman; P Nehls; J Bruch; R P Schins; P J Borm
Journal:  Free Radic Biol Med       Date:  1999-07       Impact factor: 7.376

5.  Receptors for oxidized low-density lipoprotein on elicited mouse peritoneal macrophages can recognize both the modified lipid moieties and the modified protein moieties: implications with respect to macrophage recognition of apoptotic cells.

Authors:  D A Bird; K L Gillotte; S Hörkkö; P Friedman; E A Dennis; J L Witztum; D Steinberg
Journal:  Proc Natl Acad Sci U S A       Date:  1999-05-25       Impact factor: 11.205

6.  Oxidative stress in lung epithelial cells from patients with idiopathic interstitial pneumonias.

Authors:  K Kuwano; N Nakashima; I Inoshima; N Hagimoto; M Fujita; M Yoshimi; T Maeyama; N Hamada; K Watanabe; N Hara
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7.  Detection of phospholipid oxidation in oxidatively stressed cells by reversed-phase HPLC coupled with positive-ionization electrospray [correction of electroscopy] MS.

Authors:  C M Spickett; N Rennie; H Winter; L Zambonin; L Landi; A Jerlich; R J Schaur; A R Pitt
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8.  Identification of a novel family of oxidized phospholipids that serve as ligands for the macrophage scavenger receptor CD36.

Authors:  Eugene A Podrez; Eugenia Poliakov; Zhongzhou Shen; Renliang Zhang; Yijun Deng; Mingjiang Sun; Paula J Finton; Lian Shan; Bogdan Gugiu; Paul L Fox; Henry F Hoff; Robert G Salomon; Stanley L Hazen
Journal:  J Biol Chem       Date:  2002-07-08       Impact factor: 5.157

9.  A novel family of atherogenic oxidized phospholipids promotes macrophage foam cell formation via the scavenger receptor CD36 and is enriched in atherosclerotic lesions.

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10.  CD36 is required for phagocytosis of apoptotic cells by human macrophages that use either a phosphatidylserine receptor or the vitronectin receptor (alpha v beta 3).

Authors:  V A Fadok; M L Warner; D L Bratton; P M Henson
Journal:  J Immunol       Date:  1998-12-01       Impact factor: 5.422
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  14 in total

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2.  GM-CSF modulates pulmonary resistance to influenza A infection.

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Journal:  Antiviral Res       Date:  2011-09-08       Impact factor: 5.970

3.  Novel phosphatidylethanolamine derivatives accumulate in circulation in hyperlipidemic ApoE-/- mice and activate platelets via TLR2.

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Journal:  Blood       Date:  2016-03-25       Impact factor: 22.113

Review 4.  Surfactant Lipids at the Host-Environment Interface. Metabolic Sensors, Suppressors, and Effectors of Inflammatory Lung Disease.

Authors:  Michael B Fessler; Ross S Summer
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5.  Effect of oxidized phosphatidylcholine on biomarkers of oxidative stress in rats.

Authors:  Saada M Al-Orf
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6.  Suppression of Toll-like receptor 4 activation by endogenous oxidized phosphatidylcholine, KOdiA-PC by inhibiting LPS binding to MD2.

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7.  CXCL16 is expressed in podocytes and acts as a scavenger receptor for oxidized low-density lipoprotein.

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Review 8.  Generation and biological activities of oxidized phospholipids.

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9.  WAVE1 mediates suppression of phagocytosis by phospholipid-derived DAMPs.

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Review 10.  Oxidized phospholipids in control of inflammation and endothelial barrier.

Authors:  Panfeng Fu; Konstantin G Birukov
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