Literature DB >> 23970124

NADPH oxidases, reactive oxygen species, and the kidney: friend and foe.

Mona Sedeek1, Rania Nasrallah, Rhian M Touyz, Richard L Hébert.   

Abstract

Reactive oxygen species (ROS) play an important role in normal cellular physiology. They regulate different biologic processes such as cell defense, hormone synthesis and signaling, activation of G protein-coupled receptors, and ion channels and kinases/phosphatases. ROS are also important regulators of transcription factors and gene expression. On the other hand, in pathologic conditions, a surplus of ROS in tissue results in oxidative stress with various injurious consequences such as inflammation and fibrosis. NADPH oxidases are one of the many sources of ROS in biologic systems, and there are seven isoforms (Nox1-5, Duox1, Duox2). Nox4 is the predominant form in the kidney, although Nox2 is also expressed. Nox4 has been implicated in the basal production of ROS in the kidney and in pathologic conditions such as diabetic nephropathy and CKD; upregulation of Nox4 may be important in renal oxidative stress and kidney injury. Although there is growing evidence indicating the involvement of NADPH oxidase in renal pathology, there is a paucity of information on the role of NADPH oxidase in the regulation of normal renal function. Here we provide an update on the role of NADPH oxidases and ROS in renal physiology and pathology.

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Year:  2013        PMID: 23970124      PMCID: PMC3785272          DOI: 10.1681/ASN.2012111112

Source DB:  PubMed          Journal:  J Am Soc Nephrol        ISSN: 1046-6673            Impact factor:   10.121


  48 in total

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Authors:  H Ha; H B Lee
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Review 5.  NOX isoforms and reactive oxygen species in vascular health.

Authors:  Rhian M Touyz; Ana M Briones; Mona Sedeek; Dylan Burger; Augosto C Montezano
Journal:  Mol Interv       Date:  2011-02

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10.  Renoprotective effects of a novel Nox1/4 inhibitor in a mouse model of Type 2 diabetes.

Authors:  Mona Sedeek; Alex Gutsol; Augusto C Montezano; Dylan Burger; Aurelie Nguyen Dinh Cat; Chris R J Kennedy; Kevin D Burns; Mark E Cooper; Karin Jandeleit-Dahm; Patrick Page; Cedric Szyndralewiez; Freddy Heitz; Richard L Hebert; Rhian M Touyz
Journal:  Clin Sci (Lond)       Date:  2013-02       Impact factor: 6.124
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  139 in total

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3.  Proteomic profiling of early degenerative retina of RCS rats.

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4.  NADPH Oxidase 4 at the Nexus of Diabetes, Reactive Oxygen Species, and Renal Metabolism.

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Journal:  J Am Soc Nephrol       Date:  2015-07-22       Impact factor: 10.121

Review 5.  Foam cells and the pathogenesis of kidney disease.

Authors:  Minseob Eom; Kelly L Hudkins; Charles E Alpers
Journal:  Curr Opin Nephrol Hypertens       Date:  2015-05       Impact factor: 2.894

6.  A thermodynamically-constrained mathematical model for the kinetics and regulation of NADPH oxidase 2 complex-mediated electron transfer and superoxide production.

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Review 7.  New molecular insights in diabetic nephropathy.

Authors:  Ionel Alexandru Checheriţă; Gina Manda; Mihai Eugen Hinescu; Ileana Peride; Andrei Niculae; Ştefana Bîlha; Angelica Grămăticu; Luminiţa Voroneanu; Adrian Covic
Journal:  Int Urol Nephrol       Date:  2016-01-12       Impact factor: 2.370

Review 8.  Mitochondrial energetics in the kidney.

Authors:  Pallavi Bhargava; Rick G Schnellmann
Journal:  Nat Rev Nephrol       Date:  2017-08-14       Impact factor: 28.314

Review 9.  Immune system modulation of kidney regeneration--mechanisms and implications.

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10.  Hyperglycaemia induced by chronic i.p. and oral glucose loading leads to hypertension through increased Na+ retention in proximal tubule.

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Journal:  Exp Physiol       Date:  2017-12-07       Impact factor: 2.969
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