Literature DB >> 8641468

Effects of peroxynitrite-induced protein modifications on tyrosine phosphorylation and degradation.

A J Gow1, D Duran, S Malcolm, H Ischiropoulos.   

Abstract

The ability of protein tyrosine kinases to phosphorylate a synthetic peptide was inhibited 51% by peroxynitrite-mediated nitration of tyrosine. Exposure of endothelial cells to peroxynitrite decreased the intensity of tyrosine phosphorylated proteins and increased the intensity of nitrotyrosine-containing proteins. Peroxynitrite-modified BSA was degraded by human red blood cell lysates. However, human plasma in a concentration-, time-, and temperature-dependent manner, removed the protein nitrotyrosine epitope. These results suggest that tyrosine nitration interferes with phosphorylation and targets proteins for degradation. Specific enzymatic process(es) for removing nitrotyrosine may be present in vivo.

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Year:  1996        PMID: 8641468     DOI: 10.1016/0014-5793(96)00347-x

Source DB:  PubMed          Journal:  FEBS Lett        ISSN: 0014-5793            Impact factor:   4.124


  93 in total

1.  Histone H1.2 is a substrate for denitrase, an activity that reduces nitrotyrosine immunoreactivity in proteins.

Authors:  Yasuyuki Irie; Makio Saeki; Yoshinori Kamisaki; Emil Martin; Ferid Murad
Journal:  Proc Natl Acad Sci U S A       Date:  2003-04-28       Impact factor: 11.205

2.  Mechanisms of reduced striatal NMDA excitotoxicity in type I nitric oxide synthase knock-out mice.

Authors:  C Ayata; G Ayata; H Hara; R T Matthews; M F Beal; R J Ferrante; M Endres; A Kim; R H Christie; C Waeber; P L Huang; B T Hyman; M A Moskowitz
Journal:  J Neurosci       Date:  1997-09-15       Impact factor: 6.167

3.  Identification of nitrotyrosine containing peptides using combined fractional diagonal chromatography (COFRADIC) and off-line nano-LC-MALDI.

Authors:  Trine R Larsen; Nicolai Bache; Jan Bert Gramsbergen; Peter Roepstorff
Journal:  J Am Soc Mass Spectrom       Date:  2011-03-08       Impact factor: 3.109

Review 4.  Mechanisms of MDMA (ecstasy)-induced oxidative stress, mitochondrial dysfunction, and organ damage.

Authors:  Byoung-Joon Song; Kwan-Hoon Moon; Vijay V Upreti; Natalie D Eddington; Insong J Lee
Journal:  Curr Pharm Biotechnol       Date:  2010-08       Impact factor: 2.837

5.  Cross talk between reactive nitrogen and oxygen species during the hypersensitive disease resistance response.

Authors:  Federica Zaninotto; Sylvain La Camera; Annalisa Polverari; Massimo Delledonne
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6.  Nitric oxide mediates murine cytomegalovirus-associated pneumonitis in lungs that are free of the virus.

Authors:  K Tanaka; H Nakazawa; K Okada; K Umezawa; N Fukuyama; Y Koga
Journal:  J Clin Invest       Date:  1997-10-01       Impact factor: 14.808

7.  Beta-amyloid mediated nitration of manganese superoxide dismutase: implication for oxidative stress in a APPNLH/NLH X PS-1P264L/P264L double knock-in mouse model of Alzheimer's disease.

Authors:  Muthuswamy Anantharaman; Jitbanjong Tangpong; Jeffery N Keller; Michael P Murphy; William R Markesbery; Kelley K Kiningham; Daret K St Clair
Journal:  Am J Pathol       Date:  2006-05       Impact factor: 4.307

8.  Robust protein nitration contributes to acetaminophen-induced mitochondrial dysfunction and acute liver injury.

Authors:  Mohamed A Abdelmegeed; Sehwan Jang; Atrayee Banerjee; James P Hardwick; Byoung-Joon Song
Journal:  Free Radic Biol Med       Date:  2013-02-27       Impact factor: 7.376

Review 9.  Protein nitration in placenta - functional significance.

Authors:  R P Webster; V H J Roberts; L Myatt
Journal:  Placenta       Date:  2008-10-11       Impact factor: 3.481

10.  Sulfaphenazole protects heart against ischemia-reperfusion injury and cardiac dysfunction by overexpression of iNOS, leading to enhancement of nitric oxide bioavailability and tissue oxygenation.

Authors:  Mahmood Khan; Iyyapu K Mohan; Vijay K Kutala; Sainath R Kotha; Narasimham L Parinandi; Robert L Hamlin; Periannan Kuppusamy
Journal:  Antioxid Redox Signal       Date:  2009-04       Impact factor: 8.401
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