Literature DB >> 11416204

Nitric oxide partitioning into mitochondrial membranes and the control of respiration at cytochrome c oxidase.

S Shiva1, P S Brookes, R P Patel, P G Anderson, V M Darley-Usmar.   

Abstract

An emerging and important site of action for nitric oxide (NO) within cells is the mitochondrial inner membrane, where NO binds to and inhibits members of the electron transport chain, complex III and cytochrome c oxidase. Although it is known that inhibition of cytochrome c oxidase by NO is competitive with O2, the mechanisms that underlie this phenomenon remain unclear, and the impact of both NO and O2 partitioning into biological membranes has not been considered. These properties are particularly interesting because physiological O2 tensions can vary widely, with NO having a greater inhibitory effect at low O2 tensions (<20 microM). In this study, we present evidence for a consumption of NO in mitochondrial membranes in the absence of substrate, in a nonsaturable process that is O2 dependent. This consumption modulates inhibition of cytochrome c oxidase by NO and is enhanced by the addition of exogenous membranes. From these data, it is evident that the partition of NO into mitochondrial membranes has a major impact on the ability of NO to control mitochondrial respiration. The implications of this conclusion are discussed in the context of mitochondrial lipid:protein ratios and the importance of NO as a regulator of respiration in pathophysiology.

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Year:  2001        PMID: 11416204      PMCID: PMC34648          DOI: 10.1073/pnas.131128898

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  37 in total

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2.  Cytochrome c oxidase rapidly metabolises nitric oxide to nitrite.

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3.  Protein measurement with the Folin phenol reagent.

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4.  Nitric oxide and cytochrome c oxidase: mechanisms of inhibition and NO degradation.

Authors:  P Sarti; A Giuffré; E Forte; D Mastronicola; M C Barone; M Brunori
Journal:  Biochem Biophys Res Commun       Date:  2000-07-21       Impact factor: 3.575

5.  Increased sensitivity of mitochondrial respiration to inhibition by nitric oxide in cardiac hypertrophy.

Authors:  P S Brookes; J Zhang; L Dai; F Zhou; D A Parks; V M Darley-Usmar; P G Anderson
Journal:  J Mol Cell Cardiol       Date:  2001-01       Impact factor: 5.000

6.  Nitric oxide inhibits tumor necrosis factor-alpha-induced apoptosis by reducing the generation of ceramide.

Authors:  C De Nadai; P Sestili; O Cantoni; J P Lièvremont; C Sciorati; R Barsacchi; S Moncada; J Meldolesi; E Clementi
Journal:  Proc Natl Acad Sci U S A       Date:  2000-05-09       Impact factor: 11.205

7.  Concentration-dependent effects of nitric oxide on mitochondrial permeability transition and cytochrome c release.

Authors:  P S Brookes; E P Salinas; K Darley-Usmar; J P Eiserich; B A Freeman; V M Darley-Usmar; P G Anderson
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Review 8.  Mitochondrial dysfunction in sepsis.

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9.  The regulation of mitochondrial oxygen uptake by redox reactions involving nitric oxide and ubiquinol.

Authors:  J J Poderoso; C Lisdero; F Schöpfer; N Riobó; M C Carreras; E Cadenas; A Boveris
Journal:  J Biol Chem       Date:  1999-12-31       Impact factor: 5.157

Review 10.  Regulation of mitochondrial respiration by oxygen and nitric oxide.

Authors:  A Boveris; L E Costa; J J Poderoso; M C Carreras; E Cadenas
Journal:  Ann N Y Acad Sci       Date:  2000       Impact factor: 5.691
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  56 in total

1.  Inhibition of mitochondrial protein synthesis results in increased endothelial cell susceptibility to nitric oxide-induced apoptosis.

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2.  Mechanisms of the interaction of nitroxyl with mitochondria.

Authors:  Sruti Shiva; Jack H Crawford; Anup Ramachandran; Erin K Ceaser; Tess Hillson; Paul S Brookes; Rakesh P Patel; Victor M Darley-Usmar
Journal:  Biochem J       Date:  2004-04-15       Impact factor: 3.857

Review 3.  Redox-mediated programed death of myocardial cells after cardiac arrest and cardiopulmonary resuscitation.

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4.  Ascorbic acid mitigates the myocardial injury after cardiac arrest and electrical shock.

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5.  Evidence for oxygen as the master regulator of the responsiveness of soluble guanylate cyclase and cytochrome c oxidase to nitric oxide.

Authors:  Aimee Landar; Victor M Darley-Usmar
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6.  Bioenergetic Differences in the Airway Epithelium of Lean Versus Obese Asthmatics Are Driven by Nitric Oxide and Reflected in Circulating Platelets.

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7.  Effect of IBD sera on expression of inducible and endothelial nitric oxide synthase in human umbilical vein endothelial cells.

Authors:  Károly Palatka; Zoltán Serfozo; Zoltán Veréb; Róbert Bátori; Beáta Lontay; Zoltán Hargitay; Zoltán Nemes; Miklós Udvardy; Ferenc Erdodi; István Altorjay
Journal:  World J Gastroenterol       Date:  2006-03-21       Impact factor: 5.742

Review 8.  Carbon Monoxide Poisoning: Pathogenesis, Management, and Future Directions of Therapy.

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9.  Asymmetric dimethylarginine induces endothelial nitric-oxide synthase mitochondrial redistribution through the nitration-mediated activation of Akt1.

Authors:  Ruslan Rafikov; Olga Rafikova; Saurabh Aggarwal; Christine Gross; Xutong Sun; Julin Desai; David Fulton; Stephen M Black
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10.  Nitrite reductase activity of cytochrome c.

Authors:  Swati Basu; Natalia A Azarova; Michael D Font; S Bruce King; Neil Hogg; Mark T Gladwin; Sruti Shiva; Daniel B Kim-Shapiro
Journal:  J Biol Chem       Date:  2008-09-28       Impact factor: 5.157
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