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1.
Cardiovasc Res ; 101(3): 393-9, 2014 Mar 01.
Article in English | MEDLINE | ID: mdl-24253521

ABSTRACT

AIMS: Peroxidases serve diverse biological functions including well-characterized activities in host defence and hormone biosynthesis. More recently, peroxidasin (PXDN) was found to be involved in collagen IV cross-linking in the extracellular matrix (ECM). The aim of this study was to characterize the expression and function of peroxidasin-like protein (PXDNL), a previously unknown peroxidase homologue. METHODS AND RESULTS: We cloned the PXDNL cDNA from the human heart and identified its expression pattern by northern blot, in situ hybridization, and immunohistochemistry. PXDNL is expressed exclusively in the heart and it has evolved to lose its peroxidase activity. The protein is produced by cardiomyocytes and localizes to cell-cell junctions. We also demonstrate that PXDNL can form a complex with PXDN and antagonizes its peroxidase activity. Furthermore, we show an increased expression of PXDNL in the failing myocardium. CONCLUSION: PXDNL is a unique component of the heart with a recently evolved inactivation of peroxidase function. The elevation of PXDNL levels in the failing heart may contribute to ECM dysregulation due to its antagonism of PXDN function.


Subject(s)
Extracellular Matrix Proteins/pharmacology , Gene Expression Regulation , Heart/drug effects , Peroxidase/pharmacology , Animals , Cells, Cultured , Extracellular Matrix/metabolism , Heart Failure/metabolism , Humans , In Situ Hybridization/methods , Oxidation-Reduction/drug effects , RNA, Messenger/metabolism , Peroxidasin
2.
Am J Pathol ; 175(2): 725-35, 2009 Aug.
Article in English | MEDLINE | ID: mdl-19590037

ABSTRACT

Mammalian peroxidases are heme-containing enzymes that serve diverse biological roles, such as host defense and hormone biosynthesis. A mammalian homolog of Drosophila peroxidasin belongs to the peroxidase family; however, its function is currently unknown. In this study, we show that peroxidasin is present in the endoplasmic reticulum of human primary pulmonary and dermal fibroblasts, and the expression of this protein is increased during transforming growth factor-beta1-induced myofibroblast differentiation. Myofibroblasts secrete peroxidasin into the extracellular space where it becomes organized into a fibril-like network and colocalizes with fibronectin, thus helping to form the extracellular matrix. We also demonstrate that peroxidasin expression is increased in a murine model of kidney fibrosis and that peroxidasin localizes to the peritubular space in fibrotic kidneys. In addition, we show that this novel pathway of extracellular matrix formation is unlikely mediated by the peroxidase activity of the protein. Our data indicate that peroxidasin secretion represents a previously unknown pathway in extracellular matrix formation with a potentially important role in the physiological and pathological fibrogenic response.


Subject(s)
Extracellular Matrix Proteins/metabolism , Extracellular Matrix/metabolism , Fibroblasts/metabolism , Kidney/pathology , Myoblasts/metabolism , Peroxidase/metabolism , Animals , COS Cells , Chlorocebus aethiops , Disease Models, Animal , Fibrosis , Humans , Kidney/metabolism , Mice , Peroxidasin
3.
Philos Trans R Soc Lond B Biol Sci ; 360(1464): 2301-8, 2005 Dec 29.
Article in English | MEDLINE | ID: mdl-16321800

ABSTRACT

Reactive oxygen species (ROS) have an important role in various physiological processes including host defence, mitogenesis, hormone biosynthesis, apoptosis and fertilization. Currently, the most characterized ROS-producing system operates in phagocytic cells, where ROS generated during phagocytosis act in host defence. Recently, several novel homologues of the phagocytic oxidase have been discovered and this protein family is now designated as the NOX/DUOX family of NADPH oxidases. NOX/DUOX enzymes function in a variety of tissues, including colon, kidney, thyroid gland, testis, salivary glands, airways and lymphoid organs. Importantly, members of the enzyme family are also found in non-mammalian species, including Caenorhabditis elegans and sea urchin. The physiological functions of novel NADPH oxidase enzymes are currently largely unknown. This review focuses on our current knowledge about dual oxidases.


Subject(s)
Autoantigens/metabolism , Flavoproteins/metabolism , Iodide Peroxidase/metabolism , Iron-Binding Proteins/metabolism , Models, Molecular , NADPH Oxidases/metabolism , Phagocytosis/physiology , Reactive Oxygen Species/metabolism , Amino Acid Sequence , Autoantigens/genetics , Dual Oxidases , Extracellular Matrix/enzymology , Flavoproteins/genetics , Humans , Iodide Peroxidase/genetics , Iron-Binding Proteins/genetics , Molecular Sequence Data , Mucous Membrane/enzymology , NADPH Oxidases/genetics , Salivary Glands/enzymology , Thyroid Gland/enzymology
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